COMPOSITION AND PROCESS FOR PREPARING VACCINE

Information

  • Patent Application
  • 20200069786
  • Publication Number
    20200069786
  • Date Filed
    September 03, 2019
    5 years ago
  • Date Published
    March 05, 2020
    4 years ago
Abstract
The disclosure relates to polypeptides, polynucleic acids and pharmaceutical compositions comprising polypeptides that find use in the prevention or treatment of cancer. The disclosure also relates to methods of inducing a cytotoxic T cell response in a subject or treating cancer by administering pharmaceutical compositions comprising the peptides, and companion diagnostic methods. The disclosure also relates to a method of preparing a peptide or polynucleic acid for use in a method of inducing a T cell response against a target polypeptide, wherein the method comprises identifying epitopes in the antigen that bind to multiple HLA alleles of the highest proportion of subjects in a target population.
Description
CROSS-REFERENCE

This application claims the benefit of GB Application No. 1814362.8 filed on Sep. 4, 2018, which application is incorporated herein by reference in its entirety.


SEQUENCE LISTING

The instant application contains a Sequence Listing which has been submitted electronically in ASCII format and is hereby incorporated by reference in its entirety. Said ASCII copy, created on Aug. 29, 2019, is named 52895706201_SL.txt and is 1,449,508 bytes in size.


FIELD

The disclosure relates to peptides and compositions that find use in vaccines and immunotherapy, to nucleic acids and vectors that encode such peptides, to methods of designing and producing such peptides, to methods of predicting whether an individual subject will respond to treatment with such peptides, to subject-specific compositions comprising such peptides, and to methods of treatment using such peptides.


BACKGROUND

For decades, scientists have assumed that chronic diseases were beyond the reach of a person's natural defences. Recently, however, significant tumor regressions observed in individuals treated with antibodies that block immune inhibitory molecules have accelerated the field of cancer immunotherapy. These clinical findings demonstrate that re-activation of existing T cell responses results in meaningful clinical benefit for individuals. These advances have renewed enthusiasm for developing cancer vaccines that induce tumor specific T cell responses.


Despite the promise, current immunotherapy is effective only in a fraction of individuals. In addition, most cancer vaccine trials have failed to demonstrate statistically significant efficacy because of a low rate of tumor regression and antitumor T cell responses in individuals. Similar failures were reported with therapeutic and preventive vaccines that sought to include T cell responses in the fields of HIV and allergy. There is a need to overcome the clinical failures of immunotherapies and vaccines.


SUMMARY

In antigen presenting cells (APC) protein antigens are processed into peptides. These peptides bind to HLA molecules and are presented on the cell surface as peptide-HLA complexes to T cells. Different individuals express different HLA molecules, and different HLA molecules present different peptides. The inventors have demonstrated that an epitope that binds to a single HLA class I allele expressed in a subject is essential, but not sufficient to induce tumor specific T cell responses. Instead tumour specific T cell responses are optimally activated when an epitope is recognised and presented by the HLA molecules encoded by at least three HLA class I genes of an individual (PCT/EP2018/055231, PCT/EP2018/055232, PCT/EP2018/055230, EP 3370065 and EP 3369431).


Based on this discovery the inventors have developed a method for designing and preparing peptides to induce T cell responses in the highest proportion of subjects in a given target human population and have used this method to design a set of peptides for use in treating cancer.


Accordingly, in a first aspect the disclosure provides a peptide of up to 50 amino acids in length and comprising the amino acid sequence of any of SEQ ID NOs: 1 to 2786 and/or 5432-5931.


In a further aspect, the disclosure provides a polynucleic acid or a vector that encodes a peptide of up to 50 amino acids in length and comprising the amino acid sequence of any of SEQ ID NOs: 1 to 2786 and/or 5432-5931.


In a further aspect, the disclosure provides a panel of two or more of the peptides or two or more of the polynucleic acids or vectors, wherein each peptide comprises, or each polynucleic acid or vector encodes a peptide that comprises, a different amino acid sequence selected from SEQ ID NOs: 1 to 2786 and/or 5432-5931.


In a further aspect, the disclosure provides a pharmaceutical composition or kit, comprising one or more of the peptides, polynucleic acids, vectors or panels, wherein the composition or kit optionally comprise at least one pharmaceutically acceptable diluent, carrier, or preservative.


In a further aspect, the disclosure provides a method of predicting that a specific human subject will have a cytotoxic T cell response and/or a helper T cell response to administration of the pharmaceutical composition or the peptides, polynucleic acids or vectors of the kit, the method comprising

    • (i) a. determining that the one or more peptides, or encoded peptides, of the pharmaceutical composition or kit, comprise at least one amino acid sequence that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject; and
      • b. predicting that the subject will have a cytotoxic T cell response to administration of the pharmaceutical composition; or
    • (ii) a. determining that the one or more peptides, or encoded peptides, of the pharmaceutical composition or kit comprise at least one amino acid sequence that is a T cell epitope capable of binding to at least three HLA class II molecules of the subject; and
      • b. predicting that the subject will have a helper T cell response to administration of the pharmaceutical composition.


In a further aspect, the disclosure provides a method of vaccination, providing immunotherapy or inducing a cytotoxic T cell response in a subject, the method comprising administering to the subject the pharmaceutical composition or the peptides, polynucleic acids or vectors of the kit.


In further aspects, the disclosure provides

    • the pharmaceutical composition or the peptides, polynucleic acids or vectors of the kit described above for use in a method of vaccination, providing immunotherapy or inducing a cytotoxic T cell response in a subject; and
    • use of the peptides or polynucleic acids as described above in the manufacture of a medicament for vaccination, providing immunotherapy or inducing a cytotoxic T cell response in a subject.


In a further aspect, the disclosure provides a method of preparing a pharmaceutical composition or kit for use in a method of treating cancer is a specific human subject, the method comprising

    • a. selecting two or more peptides, or one or more polynucleic acids or vectors according that encode at least two peptides, wherein each peptide, or encoded peptide, comprises an amino acid sequence selected from SEQ ID NOs: 1 to 2786 and/or 5432-5931 that comprises a T cell epitope capable of binding to at least three HLA class I alleles and/or a T cell epitope capable of binding to at least three HLA class II alleles of the specific human subject; and
    • b. preparing a pharmaceutical composition or kit comprising the two or more peptides, or one or more polynucleic acids or vectors selected in step a.


In a further aspect, the disclosure provides a method of designing, or preparing a peptide, or a polynucleic acid or vector that encodes a peptide, or a panel of peptides, or one or more polynucleic acid or vectors that encode a panel of peptides, for use in a method of inducing a T cell response against a target polypeptide, the method comprising

    • (i) selecting or defining a model human population comprising a plurality of subjects each defined by HLA class I genotype and/or by HLA class II genotype;
    • (ii) identifying for each subject of the model population:
      • (a) amino acid sequences of the target polypeptide that are a T cell epitope capable of binding to at least three HLA class I molecules of the subject;
      • (b) amino acid sequences of the target polypeptide that are a T cell epitope capable of binding to at least three HLA class II molecules of the subject;
      • (c) amino acid sequences of the target polypeptide that comprise a T cell epitope capable of binding to at least three HLA class I molecules of the subject and a T cell epitope capable of binding to at least three HLA class II molecules of the subject; or
      • (d) amino acid sequences of the target polypeptide that both
        • i. are a T cell epitope capable of binding to at least three HLA class II molecules; and
        • ii. comprise an amino acid sequence that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject;
    • (iii) selecting a polypeptide fragment window length of between 9 and 50 amino acids;
    • (iv) identifying a fragment of the target polypeptide that
      • (a) has the length selected in step (iii); and
      • (b) comprises an amino acid sequence identified in any one of step (ii) (a) to (d) in the highest proportion of subjects in the model population;
    • (v) optionally testing the fragment identified in step (iv) against additional pre-defined criteria, rejecting the fragment if the further pre-defined criteria are not met, and repeating step (iv) to identify an alternative fragment of the target polypeptide that
      • (a) has the length selected in step (iii); and
      • (b) comprises an amino acid sequence identified in step (iv) in the next highest proportion of subjects in the model population;
    • (vi) optionally repeating step (iv) and further optionally step (v) in one or more further rounds, wherein a further fragment of the target polypeptide is identified in each round, and wherein in each round subjects are excluded from the model population if any of the fragments selected in step (iv) and not rejected in step (v) of any of the preceding rounds comprises an amino acid sequence identified in step (ii) for that subject; and
    • (vii) designing or preparing a peptide, a polynucleic acid or vector that encodes a peptide, a panel of peptides, or one or more polynucleic acids or vectors that encode a panel of peptides, wherein each peptide comprises one or more of the target polypeptide fragments identified in step (iv), (v) or (vi), optionally wherein the polypeptide fragment is flanked at the N and/or C terminus by additional amino acids that are not part of the sequence of the target polypeptide antigen.


In a further aspect, the disclosure provides a panel peptides, polynucleic acids or vectors designed and/or prepared according to the method, or comprising or encoding two or more peptides designed and/or prepared according to the method.


In a further aspect, the disclosure provides a panel of peptides, or one or more polynucleic acids or vectors encoding a panel of peptides, for use in a method of inducing a T cell response against one or more target polypeptides in a subject of a target human population, wherein each of the peptides, or encoded peptides, comprises an amino acid sequence that is

    • (a) 9 to 50 amino acids in length; and
    • (b) comprises a fragment of the one or more target polypeptides, wherein the fragment comprises, in at least 10% of subjects of the intent-to-treat human population:
      • a. an amino acid sequence of the target polypeptide that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject;
      • b. an amino acid sequence of the target polypeptide that is a T cell epitope capable of binding to at least three HLA class II molecules of the subject;
      • c. an amino acid sequence of the target polypeptide that comprise a T cell epitope capable of binding to at least three HLA class I molecules of the subject and a T cell epitope capable of binding to at least three HLA class II molecules of the subject; or
      • d. an amino acid sequence of the target polypeptide that both
        • i. is a T cell epitope capable of binding to at least three HLA class II molecules; and
        • ii. comprise an amino acid sequence that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject.


In a further aspect, the disclosure provides a pharmaceutical composition or kit comprising the panel of peptides, or one or more polynucleic acids or vectors encoding the panel of peptides, wherein the composition or kit optionally comprises at least one pharmaceutically acceptable diluent, carrier, or preservative.


In a further aspect, the disclosure provides a method of vaccination, providing immunotherapy or inducing a cytotoxic T cell response in a subject, the method comprising administering to the subject a pharmaceutical composition or the panel of peptides, polynucleic acids or vectors of the kit.


The disclosure will now be described in more detail, by way of example and not limitation, and by reference to the accompanying drawings. Many equivalent modifications and variations will be apparent, to those skilled in the art when given this disclosure. Accordingly, the exemplary embodiments of the disclosure set forth are considered to be illustrative and not limiting. Various changes to the described embodiments may be made without departing from the scope of the disclosure. All documents cited herein, whether supra or infra, are expressly incorporated by reference in their entirety.


The present disclosure includes the combination of the aspects and preferred features described except where such a combination is clearly impermissible or is stated to be expressly avoided. As used in this specification and the appended claims, the singular forms “a”, “an”, and “the” include plural referents unless the content clearly dictates otherwise. Thus, for example, reference to “a peptide” includes two or more such peptides.


Section headings are used herein for convenience only and are not to be construed as limiting in any way.





DESCRIPTION OF THE FIGURES


FIG. 1


ROC curve of HLA restricted PEPI biomarkers.



FIG. 2


ROC curve of ≥1 PEPI3+ Test for the determination of the diagnostic accuracy. AUC=0.73 classifies a fair diagnostic value for the PEPI biomarker.



FIGS. 3A-B


Distribution of HLA class I PEPI3+ compared to CD8+ T cell responses measured by a state of art assay among peptide pools used in the CD8+ T cell response assays. FIG. 3A: HLA class I restricted PEPI3+s. The 90% Overall Percent of Agreement (OPA) among the T cell responses and PEPI3+ peptides demonstrate the utility of the invented peptides for prediction of vaccine induced T cell response set of individuals (p<0.001). FIG. 3B: Class I HLA restricted epitopes (PEPI1+). The OPA between predicted epitopes and CD8+ T cell responses was 25% (not statistically significant). True positive (TP), both peptide and T cell responses were detected (shaded); True negative (TN): neither peptides nor T cell responses were detected (shaded); False negative (FN), only T cell responses were detected; False positive (FP), only peptide were detected.



FIGS. 4A-B


Correlation between PEPI Test predicted CD4 peptides and T-cell reactivity measured with peptide pools in patients treated with SLP vaccine. FIG. 4A: HLA class II allele-binding PEPIs; FIG. 4B: single HLA class II allele-binding epitopes. Gray: true positive (TP) and true negative (TN) responses; White: false negative (FN) and false positive (FP) responses. TP: both peptide and T cell responses were detected; TN: neither peptides nor T cell responses were detected; FN: only T cell responses were detected; FP: only peptides were detected.



FIGS. 5A-D


Multiple HLA binding peptides that define the HPV-16 LPV vaccine specific T cell response set of 20 VIN-3 and 5 cervical cancer patients. PEPI counts were compared to clinical responses after treatment with LPV. Predicted CD8+ T cell responders according to HLA class I PEPIs (FIG. 5A) and CD4+ T cell responders according to HLA class II PEPIs (FIG. 5B). Correlation between HLA class I (FIG. 5C) and class II (FIG. 5D) PEPI count and clinical response at 3 months follow-up in VIN-3 patients. Predicted T cell responders: PEPI count ≥1. Gray column, patient with HPV16 E6- and/or E7-specific T cell response; Dashed column, patient without T cell responses. CR, complete clinical responder; PR, partial clinical responder; NR, clinical non-responder.



FIGS. 6A-C


The multiple HLA class I binding peptides that define the HPV vaccine specific T cell response set of 2 patients. FIG. 6A: Four HPV antigens in the HPV vaccine. Boxes represent the length of the amino acid sequences from the N terminus to the C terminus. FIG. 6B: Process to identify the multiple HLA binding peptides of two patients: HLA sequences of the patients labelled as 4-digit HLA genotype right from the patient's ID. The location of the 1st amino acid of the 54 and 91 epitopes that can bind to the patient 12-11 and patient 14-5 HLAs (PEPI1+) respectively are depicted with lines. PEPI2 represents the peptides selected from PEPI1+s that can bind to multiple HLAs of a patient (PEPI2+). PEPI3 represent peptides that can bind to HLAs of a patient (PEPI3+). PEPI4 represent peptides that can bind to HLAs of a patient (PEPI4+). PEPI5 represent peptides that can bind to HLAs of a patient (PEPI5+). PEPI6 represent peptides that can bind to 6 HLAs of a patient (PEPI6). FIG. 6C: The DNA vaccine specific PEPI3+ set of two patients characterizes their vaccine specific T cell responses.



FIG. 7


TSA expression probability targeted by IMA901 vaccine.



FIGS. 8A-B


HLA Class I allele binding properties of TUMAPs of IMA901 peptide vaccine for 2,915 common alleles. (FIG. 8A) and for the Class I genotype (6 alleles) of 51 HLA-A*02+ RCC patients. Percentages at the bottom indicate the proportion of HLAs the TUMAPs can bind to. Lines in darker grey indicate binding HLA alleles. (FIG. 8B) Probability indicates the proportion of patients who can present the indicated number of TUMAPs with their three or more HLAs. AP indicates number of antigens which can generate at least one PEPI. In this case, since both the antigens and the predicted PEPIs are 9mers (SEQ ID NOS 5958-5966, respectively, in order of appearance), AP=TUMAP=PEPI.



FIG. 9


Correlation between immune response measured for any TUMAP and immune response against expressed antigen on the tumor (AGP).



FIGS. 10A-G


Correlation study between immune response rates (IRR) and PEPI Score, between objective response rates (ORR) and MultiPEPI Scores and between objective response rates (ORR) and MultiAg PEPI Scores. FIG. 10A: Preliminary experiment to explore the relationship between PEPI Score and immune response rate of therapeutic vaccines (r2=0.7, p=0.001). FIG. 10B: IRR-PEPI Score plot. (r2=0.47, p=0.001). FIG. 10C: MultiPEPI Score and clinical response rate of therapeutic vaccines (r2=0.75, p=0.001). FIG. 10D: ORRs plotted against the MultiPEPI Score (r2=0.12, p=0.124). FIG. 10E: ORRs plotted against the MultiAg PEPI Score for vaccines with multiple antigens (r2=0.64; p=0.009). F: ORRs plotted against the MultiPEPI Score for vaccines with multiple antigens (r2=0.87; p=0.0002). FIG. 10G: ORRs plotted against the MultiPEPI Score in patients with target antigen positive disease (r2=0.56 and p=0.005). Dark grey dashed lines indicate the 95% confidence interval; light grey dashed line indicates the trendline.



FIG. 11


OBERTO trial design (NCT03391232)



FIGS. 12A-D


Antigen expression in CRC cohort of OBERTO trial (n=10). FIG. 12A: Expression frequencies of PolyPEPI1018 source antigens determined based on 2391 biopsies. FIG. 12B: PolyPEPI1018 vaccine design specified as 3 out of 7 TSAs are expressed in CRC tumors with above 95% probability. FIG. 12C: In average, 4 out of the 10 patients had pre-existing immune responses against each target antigens, referring to the real expression of the TSAs in the tumors of the patients. FIG. 12D: 7 out of the 10 patients had pre-existing immune responses against minimum of 1 TSA, in average against 3 different TSAs.



FIG. 13


Immunogenicity of PolyPEPI1018 in CRC patients confirms proper target antigen and target peptide selection. Upper part: target peptide selection and peptide design of PolyPEPI1018 vaccine composition (SEQ ID NO: 5967). Two 15mers from CRC specific CTA (TSA) selected to contain 9mer PEPI3+ predominant in representative Model population. Table: PolyPEPI1018 vaccine has been retrospectively tested during a preclinical study in a CRC cohort and was proven to be immunogenic in all tested individuals for at least one antigen by generating PEPI3+s. Clinical immune responses were measured specific for at least one antigen in 90% of patients, and multi-antigen immune responses were also found in 90% of patients against at least 2, and in 80% of patients against at least 3 antigens as tested with IFNy fluorospot assay specifically measured for the vaccine-comprising peptides.



FIGS. 14A-C


Clinical response for PolyPEPI1018 treatment. FIG. 14A: Swimmer plot of clinical responses of OBERTO trial (NCT03391232). FIG. 14B: Association progression free survival (PFS) and AGP count. FIG. 14C: Association tumour volume and AGP count.



FIG. 15


Illustration of hotspot analysis. Analysis identifies hotspots in sample of 7 patients (Pat1-Pat7) in a peptide of amino acid sequence PIVQNIQGQMVHQAISPRTLNAWVKVVEEK (SEQ ID NO: 5932). Crosses indicate position of a T cell epitope (9 mer) capable of binding to at least three HLA class I alleles (HLA class I-binding PEPI3+). Light shade indicates a T cell epitope (15 mer) capable of binding to at least four HLA class II alleles (HLA class II-binding PEPI4+). Dark shade indicates HLA class II-binding PEPI4+ with an embedded HLA class I-binding PEPI3+. The 20 mer containing a HLA class I-binding PEPI3+ in the maximum number of the 7 patients is indicated. The 20 mer containing HLA class II-binding PEPI4+ with an embedded HLA class I-binding PEPI3+ in the maximum number of the 7 patients is indicated as 1st Hotspot 20 mer. This 1st Hotspot might be selected in a first cycle of a method of the present disclosure. In a second cycle, Pat1, Pat2 and Pat4 may be disregarded and the indicated second Hotspot selected.



FIG. 16


Distribution of hotspot amino acid sequence selection after 30 cycles. Selection of fewer than 30 peptides indicates that no more sequences meeting the HLA-binding criteria (20 mer containing HLA class II-binding PEPI4+ with an embedded HLA class I-binding PEPI3+) could be identified in the model population.



FIG. 17


Process for Personalized Vaccination. Process consists of saliva sample collection and tumor sample collection for tumor pathology. Based on the determined HLA genotype of the patient and tumor type of the patient, 12 tumor and patient specific peptides are selected and personalized vaccine comprising the selected 12 peptides is prepared. Vaccine will be then administered to the patient by the oncologist.



FIG. 18


Feasibility study for a “simulated” Breast Cancer Clinical trial. This example demonstrates that >80% of patients could be treated with “patient-specific” vaccine selected from a “Warehouse” of 100 different peptides.



FIGS. 19A-B


Probability of vaccine antigen expression in the Patient-A's tumor cells. There is over 95% probability that 5 out of the 13 target antigens in the vaccine regimen is expressed in the patient's tumor. Consequently, the 13 peptide vaccines together can induce immune responses against at least 5 ovarian cancer antigens with 95% probability ((AGP95) FIG. 19B). It has 84% probability that each peptide will induce immune responses in the Patient-A. AGP50 (FIG. 19A) is the mean (expected value)=7.9 (it is a measure of the effectiveness of the vaccine in attacking the tumor of Patient-A).



FIG. 20


Treatment schedule of Patient-A.



FIG. 21


T cell responses of patient-A. A. Left: Vaccine peptide-specific T cell responses (20-mers). right: CD8+ cytotoxic T cell responses (9-mers). Predicted T cell responses are confirmed by bioassay.



FIG. 22


MRI findings of Patient-A treated with personalised (PIT) vaccine. This late stage, heavily pretreated ovarian cancer patient had an unexpected objective response after the PIT vaccine treatment. These MRI findings suggest that PIT vaccine in combination with chemotherapy significantly reduced her tumor burden. not appear on normal cells of the tissue in which the tumor developed.



FIGS. 23A-C


Probability of vaccine antigen expression in the Patient-B's tumor cells and treatment schedule of Patient-B. FIG. 23A: There is over 95% probability that 4 out of the 13 target antigens in the vaccine is expressed in the patient's tumor. FIG. 23B: Consequently, the 12 peptide vaccines together can induce immune responses against at least 4 breast cancer antigens with 95% probability (AGP95). It has 84% probability that each peptide will induce immune responses in the Patient-B. AGP50=6.45; it is a measure of the effectiveness of the vaccine in attacking the tumor of Patient-B. FIG. 23C: Treatment schedule of Patient-B.



FIG. 24


T cell responses of Patient-A. Left: Vaccine peptide-specific T cell responses (20-mers) of P. Right: Kinetic of vaccine-specific CD8+ cytotoxic T cell responses (9-mers). Predicted T cell responses are confirmed by bioassay.



FIG. 25


Treatment schedule of Patient-C.



FIGS. 26A-D


T cell responses of Patient-C. FIG. 26A: Vaccine peptide-specific T cell responses (20-mers). FIG. 26B: Vaccine peptide-specific CD8+ T cell responses (9-mers). FIGS. 26C-D: Kinetics of vaccine-specific CD4+ T cells and CD8+ cytotoxic T cell responses (9-mers), respectively. Long lasting immune responses both CD4 and CD 8 T cell specific are present after 14 months.



FIG. 27


Treatment schedule of Patient-D.



FIGS. 28A-B


Immune responses of Patient-D for PIT treatment. FIG. 28A: CD4+ specific T cell responses (20mer) and FIG. 28B: CD8+ T cell specific T cell responses (9mer). 0.5-4 months refer to the timespan following the last vaccination until PBMC sample collection.





DESCRIPTION OF THE SEQUENCES

SEQ ID NOs: 1 to 2786 set forth the “hotspot” sequences from cancer antigens described in Table 25A.


SEQ ID NOs: 2787 to 5431 set forth the “hotspot” sequences from cancer antigens described in Table 28.


SEQ ID NOs: 5432 to 5931 set forth the “hotspot” sequences from cancer antigens described in Table 25B.


SEQ ID NO: 5932 sets forth the amino acid sequence shown in FIG. 15.


SEQ ID NOs: 5933 to 5945 set forth sequences of personalized vaccine of Patient-A and are described in Table 31.


SEQ ID NOs: 5946 to 5957 set forth sequences of personalized vaccine of Patient-B and are described in Table 33.


SEQ ID NOs: 5958-5966 set forth the 9mer sequences shown in FIG. 8.


SEQ ID NO: 5967 sets forth the PolyPEPI1018 vaccine peptide shown in FIG. 13.


DETAILED DESCRIPTION
HLA Genotypes

HLAs are encoded by the most polymorphic genes of the human genome. Each person has a maternal and a paternal allele for the three HLA class I molecules (HLA-A*, HLA-B*, HLA-C*) and four HLA class II molecules (HLA-DP*, HLA-DQ*, HLA-DRB1*, HLA-DRB3*/4*/5*). Practically, each person expresses a different combination of 6 HLA class I and 8 HLA class II molecules that present different epitopes from the same protein antigen.


The nomenclature used to designate the amino acid sequence of the HLA molecule is as follows: gene name*allele:protein number, which, for instance, can look like: HLA-A*02:25. In this example, “02” refers to the allele. In most instances, alleles are defined by serotypes—meaning that the proteins of a given allele will not react with each other in serological assays. Protein numbers (“25” in the example above) are assigned consecutively as the protein is discovered. A new protein number is assigned for any protein with a different amino acid sequence (e.g. even a one amino acid change in sequence is considered a different protein number). Further information on the nucleic acid sequence of a given locus may be appended to the HLA nomenclature, but such information is not required for the methods described herein.


The HLA class I genotype or HLA class II genotype of an individual may refer to the actual amino acid sequence of each class I or class II HLA of an individual, or may refer to the nomenclature, as described above, that designates, minimally, the allele and protein number of each HLA gene. In some embodiments, the HLA genotype of an individual is obtained or determined by assaying a biological sample from the individual. The biological sample typically contains subject DNA. The biological sample may be, for example, a blood, serum, plasma, saliva, urine, expiration, cell or tissue sample. In some embodiments the biological sample is a saliva sample. In some embodiments the biological sample is a buccal swab sample. An HLA genotype may be obtained or determined using any suitable method. For example, the sequence may be determined via sequencing the HLA gene loci using methods and protocols known in the art. In some embodiments, the HLA genotype is determined using sequence specific primer (SSP) technologies. In some embodiments, the HLA genotype is determined using sequence specific oligonucleotide (SSO) technologies. In some embodiments, the HLA genotype is determined using sequence based typing (SBT) technologies. In some embodiments, the HLA genotype is determined using next generation sequencing. Alternatively, the HLA set of an individual may be stored in a database and accessed using methods known in the art.


HLA-Epitope Binding

A given HLA of a subject will only present to T cells a limited number of different peptides produced by the processing of protein antigens in an APC. As used herein, “display” or “present”, when used in relation to HLA, references the binding between a peptide (epitope) and an HLA. In this regard, to “display” or “present” a peptide is synonymous with “binding” a peptide.


As used herein, the term “epitope” or “T cell epitope” refers to a sequence of contiguous amino acids contained within a protein antigen that possesses a binding affinity for (is capable of binding to) one or more HLAs. An epitope is HLA- and antigen-specific (HLA-epitope pairs, predicted with known methods), but not subject specific.


The term “personal epitope”, or “PEPI” as used herein distinguishes a subject-specific epitope from an HLA specific epitope. A “PEPI” is a fragment of a polypeptide consisting of a sequence of contiguous amino acids of the polypeptide that is a T cell epitope capable of binding to one or more HLA class I molecules of a specific human subject. In other words a “PEPI” is a T cell epitope that is recognised by the HLA class I set of a specific individual. In contrast to an “epitope”, PEPIs are specific to an individual because different individuals have different HLA molecules which each bind to different T cell epitopes. In appropriate cases a “PEPI” may also refer to a fragment of a polypeptide consisting of a sequence of contiguous amino acids of the polypeptide that is a T cell epitope capable of binding to one or more HLA class II molecules of a specific human subject.


“PEPI1” as used herein refers to a peptide, or a fragment of a polypeptide, that can bind to one HLA class I molecule (or, in specific contexts, HLA class II molecule) of an individual. “PEPI1+” refers to a peptide, or a fragment of a polypeptide, that can bind to one or more HLA class I molecule of an individual.


“PEPI2” refers to a peptide, or a fragment of a polypeptide, that can bind to two HLA class I (or II) molecules of an individual. “PEPI2+” refers to a peptide, or a fragment of a polypeptide, that can bind to two or more HLA class I (or II) molecules of an individual, i.e. a fragment identified according to a method disclosed herein.


“PEPI3” refers to a peptide, or a fragment of a polypeptide, that can bind to three HLA class I (or II) molecules of an individual. “PEPI3+” refers to a peptide, or a fragment of a polypeptide, that can bind to three or more HLA class I (or II) molecules of an individual.


“PEPI4” refers to a peptide, or a fragment of a polypeptide, that can bind to four HLA class I (or II) molecules of an individual. “PEPI4+” refers to a peptide, or a fragment of a polypeptide, that can bind to four or more HLA class I (or II) molecules of an individual.


“PEPI5” refers to a peptide, or a fragment of a polypeptide, that can bind to five HLA class I (or II) molecules of an individual. “PEPI5+” refers to a peptide, or a fragment of a polypeptide, that can bind to five or more HLA class I (or II) molecules of an individual.


“PEPI6” refers to a peptide, or a fragment of a polypeptide, that can bind to all six HLA class I (or six HLA class II) molecules of an individual.


Generally speaking, epitopes presented by HLA class I molecules are about nine amino acids long. For the purposes of this disclosure, however, an epitope may be more or less than nine amino acids long, as long as the epitope is capable of binding HLA. For example, an epitope that is capable of being presented by (binding to) one or more HLA class I molecules may be between 7, or 8 or 9 and 9 or 10 or 11 amino acids long.


Table 1. Example Software for Determining Epitope-HLA Binding

Using techniques known in the art, it is possible to determine the epitopes that will bind to a known HLA. Any suitable method may be used, provided that the same method is used to determine multiple HLA-epitope binding pairs that are directly compared. For example, biochemical analysis may be used. It is also possible to use lists of epitopes known to be bound by a given HLA. It is also possible to use predictive or modelling software to determine which epitopes may be bound by a given HLA. Examples are provided in Table 1. In some cases a T cell epitope is capable of binding to a given HLA if it has an IC50 or predicted IC50 of less than 5000 nM, less than 2000 nM, less than 1000 nM, or less than 500 nM.









TABLE 1





Example software for determining epitope-HLA binding
















EPITOPE PREDICTION TOOLS
WEB ADDRESS





BIMAS, NIH
www-bimas.cit.nih.gov/molbio/hla_bind/


PPAPROC, Tubingen Univ.



MHCPred, Edward Jenner Inst. of



Vaccine Res.



EpiJen, Edward Jenner Inst. of
http://www.ddg-pharmfac.net/epijen/EpiJen/EpiJen.htm


Vaccine Res.



NetMHC, Center for Biological
http://www.cbs.dtu.dk/services/NetMHC/


Sequence Analysis



SVMHC, Tubingen Univ.
http://abi.inf.uni-tuebingen.de/Services/SVMHC/


SYFPEITHI, Biomedical
http://www.syfpeithi.de/bin/MHCServer.d11/EpitopePrediction.htm


Informatics, Heidelberg



ETK EPITOOLKIT, Tubingen
http://etk.informatik.uni-tuebingen.de/epipred/


Univ.



PREDEP, Hebrew Univ. Jerusalem
http://margalit.huji.ac.il/Teppred/mhc-bind/index.html


RANKPEP, MIF Bioinformatics
http://bio.dfci.harvard.edu/RANKPEP/


IEDB, Immune Epitope Database
http://tools.immuneepitope.org/main/html/tcell_tools.html





EPITOPE DATABASES
WEB ADDRESS





MHCBN, Institute of Microbial
http://www.imtech.res.in/raghava/mhcbn/


Technology, Chandigarh, INDIA



SYFPEITHI, Biomedical
http://www.syfpeithi.de/


Informatics, Heidelberg



AntiJen, Edward Jenner Inst. of
http://www.ddg-


Vaccine Res.
pharmfac.net/antijen/AntiJen/antijenhomepage.htm


EPIMHC database of MHC
http://immunax.dfci.harvard.edu/epimhc/


ligands, MIF Bioinformatics



IEDB, Immune Epitope Database
http://www.iedb.org/









HLA molecules regulate T cell responses. Until recently, the triggering of an immune response to individual epitopes was thought to be determined by recognition of the epitope by the product of single HLA allele, i.e. HLA-restricted epitopes. However, HLA-restricted epitopes induce T cell responses in only a fraction of individuals. Peptides that activate a T cell response in one individual are inactive in others despite HLA allele matching. Therefore, it was previously unknown how an individual's HLA molecules present the antigen-derived epitopes that positively activate T cell responses.


The inventors discovered that multiple HLA expressed by an individual need to present the same peptide in order to trigger a T cell response. Therefore the fragments of a polypeptide antigen (epitopes) that are immunogenic for a specific individual (PEPIs) are those that can bind to multiple class I (activate cytotoxic T cells) or class II (activate helper T cells) HLAs expressed by that individual. This discovery is described in PCT/EP2018/055231, PCT/EP2018/055232, PCT/EP2018/055230, EP 3370065 and EP 3369431.


Peptides

In some aspects the disclosure provides a peptide that comprises the amino acid sequence of any one of SEQ ID NOs: 1 to 2786 as shown in Table 25A and/or SEQ ID NOs: 5432 to 5931 as show in Table 25B and/or SEQ ID NOs: 2787 to 5431 shown in Table 28. Each of SEQ ID NOs: 1 to 5931 is a 20-mer fragment of a TAA, wherein the fragment comprises at least one HLA class II-binding PEPI4+ and at least one HLA class I-binding PEPI3+ embedded in the HLA class II-binding PEPI4+ in subjects of a model population of ˜16,000 subjects.


The 20-mer fragments were identified as described herein to maximise the number of subjects in the model population that would mount T cell responses to a corresponding TAA in response to administration of at least one peptide comprising one of the 20-mers for each TAA. A panel of peptides each comprising a different one or more of the 20-mer fragments, or a suitable sub-selection thereof, therefore represents an ideal panel of peptides from which to select peptides for use in vaccinating against cancer or providing immunotherapy to treat cancer in individual human subjects.


In some cases the peptides or the panel peptides of the present disclosure may (each) comprise one or more of the sequences of SEQ ID NOs: 1 to 2786 and/or 2787 to 5431 and/or 5432 to 5931 that are fragments of polypeptide antigens associated with one or more specific cancers or types of cancer, such as those of Table 24, or any other described herein. Peptides may be selected from such a panel to treat a corresponding cancer. In some cases the polypeptide antigens may have a minimum expression rate in the cancer, such as being expressed in at least about 1%, 2%, 3%, 4%, 5%, 10%, 15%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95% of such cancers. In some cases the polypeptide antigens may be those that are most frequently expressed in the cancer, for example the 50, 45, 40, 35, 30, 25, 20, 15, 10, 9, 8, 7, 6, 5, 4, 3, 2 or 1 most commonly expressed antigens, for example as set out in Table 24.


In some cases the peptides or the panel peptides may (each) comprise peptides that comprise the sequences of SEQ ID NOs: 1 to 2786 and/or 2787 to 5431 and/or 5432 to 5931 that are fragments of a specific polypeptide antigen or family of polypeptide antigens, such as any described herein. Peptides may be selected from such a panel to treat a corresponding cancer that is associated with expression of the antigen.


In some cases the peptides or the panel peptides may (each) comprise peptides that comprise the sequences of SEQ ID NOs: 1 to 2786 and/or 2787 to 5431 and/or 5432 to 5931 that were identified by the inventors as described herein in the first 29, 28, 27, 26, 25, 24, 23, 22, 21, 20, 19, 18, 17, 16, 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2 or 1 cycles of the method described herein. The peptides identified in earlier cycles are those that are able to induce T cell responses against the corresponding target antigen in the highest proportion of subjects in the model population.


In some cases the panel of peptides comprises peptides that together comprise any 2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 25, 30, 40 or 50, 100, 200, 300, 400 or 500 of the amino acid sequences of Table 25 or Table 28, or of the amino acid sequences of Table 25 or Table 28 that are a fragment of a TAA that is associated with a cancer selected from those listed in Table 24,and/or that were obtained in the first 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29 or 30 cycles as described herein.


In some cases the panel comprises or encodes at least two, or at least 3, 4, 5, 6, 7, 8, 9, 10, 11 or 12 amino acid sequence selected from SEQ ID NOs: 1 to 2786 and/or 2787 to 5431 and/or 5432 to 5931, each of which comprises a T cell epitope capable of binding to at least three HLA class I alleles and/or a T cell epitope capable of binding to at least three HLA class II alleles of an individual human subject. Such a panel is a personalised, subject-specific selection of peptides that can be used to induce T cell responses in the specific subject.


In some cases the peptides of the disclosure may be up to 50, 45, 40, 35, 34, 33, 32, 32, 31, 30, 29, 28, 27, 26, 25, 24, 23, 22, 21 or 20 amino acids in length. The peptide comprises or consists of an amino acid sequence selected from any of SEQ ID NO: 1 to 2786 and/or 2787 to 5431 and/or 5432 to 5931, which is a fragment of one or more TAAs as shown in Table 24. In some cases the fragment may comprise or consist of a longer fragment of a TAA of which the sequence of SEQ ID NO: 1 to 2786 and/or 2787 to 5431 and/or 5432 to 5931 is a part. The terms “fragment” or “fragment of a polypeptide” as used herein refer to a string of amino acids or an amino acid sequence typically of reduced length relative to the or a reference polypeptide and comprising, over the common portion, an amino acid sequence identical to the reference polypeptide. Such a fragment according to the disclosure may be, where appropriate, included in a larger polypeptide of which it is a constituent.


In some cases the fragment having the amino acid sequence of any one of SEQ ID NOs: 1 to 2786, or the longer fragment of a TAA comprising the amino acid sequence of any one of SEQ ID NOs: 1 to 2786, is flanked at the N and/or C terminus of the peptide by additional amino acids that are not part of the consecutive sequence of the TAA. In some cases the sequence may be flanked by up to 30 or 25 or 20 or 15 or 10, or 9 or 8 or 7 or 6 or 5 or 4 or 3 or 2 or 1 additional amino acid at the N and/or C terminus.


In some aspects the disclosure provides a polynucleic acid or vector that encodes one or more peptides, wherein the encoded peptides comprise the amino acid sequence of any one of SEQ ID NOs: 1 to 2786 and/or 2787 to 5431 and/or 5432 to 5931 and/or 2787 to 3997, as shown in Tables 25 and 28, or panels thereof. All of the disclosure herein relating to peptides comprising the amino acid sequence of any of SEQ ID NOs: 1 to 2786 and shown in Table 25 (and methods and compositions relating to such peptides) also applies equally to polynucleic acids or vectors encoding one of more peptides comprising the amino acid sequence of any of SEQ ID NOs: 1 to 2786 and/or 2787 to 5431 and/or 5432 to 5931 and/or 2787 to 3997.


Methods of Designing and Producing Peptides

In some embodiments the disclosure provides methods of designing and preparing one or more peptides, or polynucleotides or vectors that encode peptides, that can optimally be used to induce T cell responses against one or more given polypeptide antigens in a given target population of subjects.


Target Polypeptides

As used herein, the term “polypeptide” refers to a full-length protein, a portion of a protein, or a peptide characterized as a string of amino acids. As used herein, the term “peptide” refers to a short polypeptide. The peptides are typically between 9, or 10, or 11, or 12, or 13, or 14, or 15 or 16 or 17 or 18 or 19 or 20 and 20, or 21, or 22, or 23, or 24, or 25, or 26, or 27, or 28, or 29, or 30, or 35, or 40, or 45, or 50 amino acid in length. In some cases the peptide is not a 9-mer or a 15-mer. Short peptides may not be processed by antigen presenting cells and therefore bind exogenously to the HLA molecules. Thus, injected short peptides may bind in large numbers to the HLA molecules of all nucleated cells that have surface HLA class I, leading to tolerance. On the other hand polypeptides are not processed as efficiently as long peptides. Accordingly in some cases the peptides may be about 20 or 25 to about 30 or 35 amino acids in length.


The method may comprise the step of selecting one or more target polypeptide antigens. The target polypeptide antigen may be any polypeptide or fragment of a polypeptide against which it is desirable to mount a T cell response in a subject of the target population, for example a CD4+ T cell response or a CD8+ T cell response. Typically the target polypeptide is a polypeptide that is expressed by a pathogenic organism (for example, a bacteria or a parasite), a virus, a cancer cell or other disease-associated cell. In some cases the polypeptide may be present in a sample taken from a subject, such as a subject of the specific or target human population.


The polypeptide may be a Tumor Specific Antigen (TSA) and/or cancer- or tumor-associated antigen (TAA). TAAs are proteins expressed in cancer or tumor cells. Examples of TAAs include new antigens (neoantigens, which are expressed during tumorigenesis and altered from the analogous protein in a normal or healthy cell), products of oncogenes and tumor suppressor genes, overexpressed or aberrantly expressed cellular proteins (e.g. HER2, MUC1), antigens produced by oncogenic viruses (e.g. EBV, HPV, HCV, HBV, HTLV), cancer testis antigens (CTA, e.g. MAGE family, NY-ESO) and cell-type-specific differentiation antigens (e.g. MART-1). TAA sequences may be found experimentally, or in published scientific papers, or through publicly available databases, such as the database of the Ludwig Institute for Cancer Research (www.cta.lncc.br/), Cancer Immunity database (cancerimmunity.org/peptide/) and the TANTIGEN Tumor T cell antigen database (cvc.dfci.harvard.edu/tadb/). Exemplary TAAs are listed in Tables 2 and 22. A TSA is an antigen produced by a particular type of tumor that does not appear on normal cells of the tissue in which the tumor developed. TSAs include shared antigens, neoantigens, and unique antigens. In some cases the polypeptide is not expressed or is minimally expressed in normal healthy cells or tissues, but is expressed (in those cells or tissues) in a high proportion of (with a high frequency in) subjects having a particular disease or condition, such as a type of cancer or a cancer derived from a particular cell type or tissue. Alternatively, the polypeptide may be expressed at low levels in normal healthy cells, but at high levels (overexpressed) in diseased (e.g. cancer) cells or in subjects having the disease or condition. In some cases the polypeptide is expressed in, or expressed at a high level relative to normal healthy cells or subjects, in at least 1%, 2%, 3%, 4%, 5%, 10%, 15%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95% or more of such individuals, or of a subject-matched human subpopulation or model or target population. For example the population may be matched by ethnicity, geographical location, gender, age, disease, disease type or stage, genotype, and/or expression of one or more biomarkers. Expression frequencies (rates) may be determined from published figures and scientific publications.


In some cases the target polypeptide is a cancer testis antigens (CTA). CTA are not typically expressed beyond embryonic development in healthy cells. In healthy adults, CTA expression is limited to male germ cells that do not express HLAs and cannot present antigens to T cells. Therefore, CTAs are considered expressional neoantigens when expressed in cancer cells. CTA expression is (i) specific for tumor cells, (ii) more frequent in metastases than in primary tumors and (iii) conserved among metastases of the same patient (Gajewski ed. Targeted Therapeutics in Melanoma. Springer New York. 2012).


In some cases the target polypeptide is one that is associated with or expressed by cancer cells or cancer cells of a particular type or cancer of a particular cell type of tissue. In some cases the cancer is a solid tumour. In some cases the cancer is a carcinoma, sarcoma, lymphoma, leukemia, germ cell tumor, or blastoma. The cancer may be a hormone related or dependent cancer (e.g., an estrogen or androgen related cancer) or a non-hormone related or dependent cancer. The tumor may be malignant or benign. The cancer may be metastatic or non-metastatic. The cancer may or may not be associated with a viral infection or viral oncogenes. In some cases the cancer is one or more selected from melanoma, lung cancer, renal cell cancer, colorectal cancer, bladder cancer, glioma, head and neck cancer, ovarian cancer, non-melanoma skin cancer, prostate cancer, kidney cancer, stomach cancer, liver cancer, cervix uteri cancer, oesophagus cancer, non-Hodgkin lymphoma, leukemia, pancreatic cancer, corpus uteri cancer, lip cancer, oral cavity cancer, thyroid cancer, brain cancer, nervous system cancer, gallbladder cancer, larynx cancer, pharynx cancer, myeloma, nasopharynx cancer, Hodgkin lymphoma, testis cancer, breast cancer, gastric cancer, colorectal cancer, renal cell cancer, hepatocellular cancer, pediatric cancer and Kaposi sarcoma.


The polypeptide may be a viral protein that is expressed intracellularly. Examples include HPV16 E6, E7; HIV Tat, Rev, Gag, Pol, Env; HTLV-Tax, Rex, Gag, Env, Human herpes virus proteins, Dengue virus proteins. The polypeptide may be a parasite protein that is expressed intracellularly, for example malaria proteins.


Non-limiting examples of suitable polypeptides include those listed in one or more of Tables 2 to 5.









TABLE 2





LIST OF NAMED TUMOUR ANTIGENS WITH CORRESPONDING ACCESSION NUMBERS.
























5T4
Q13641.1
A1BG
P04217.1
A33
Q99795.1


A4GALT
Q9NPC4.1
AACT
P01011.1
AAG
Q9M6E9.1
ABI1
Q8IZP0.1


ABI2
Q9NYB9.1
ABL1
P00519.1
ABL-BCR
Q8WUG5.1
ABLIM3
O94929.1


ABLL
P42684.1
ABTB1
Q969K4.1
ACACA
Q13085.1
ACBD4
Q8NC06.1


ACO1
P21399.1

ACRBP


Q8NEB7.1*

ACTL6A
O96019.1

ACTL8


Q9H568.1*



ACTN4
O43707.1
ACVR1
Q04771.1
ACVR1B
P36896.1
ACVR2B
Q13705.1


ACVRL1
P37023.1
ACS2B
Q68CK6.1
ACSL5
Q9ULC5.1
ADAM-15
Q13444.1


ADAM17
P78536.1

ADAM2


Q99965.1*


ADAM29


Q9UKF5.1*

ADAM7
Q9H2U9.1


ADAP1
O75689.1
ADFP
Q99541.1
ADGRA3
Q8IWK6.1
ADGRF1
Q5T601.1


ADGRF2
Q8IZF7.1
ADGRL2
O95490.1
ADHFE1
Q8IWW8.1
AEN
Q8WTP8.1


AFF1
P51825.1
AFF4
Q9UHB7.1
AFP
P02771.1
AGAP2
Q99490.1


AGO1
Q9UL18.1
AGO3
Q9H9G7.1
AGO4
Q9HCK5.1
AGR2
O95994.1


AIFM2
Q9BRQ8.1
AIM2
O14862.1
AKAP-13
Q12802.1

AKAP-3


O75969.1*




AKAP-4


Q5JQC9.1*

AKIP1
Q9NQ31.1
AKT1
P31749.1
AKT2
P31751.1


AKT3
Q9Y243.1
ALDH1A1
P00352.1
ALK
Q9UM73.1
ALKBH1
Q13686.1


ALPK1
Q96QP1.1
AMIGO2
Q86SJ2.1
ANG2
O15123.1

ANKRD45


Q5TZF3.1*



ANO1
Q5XXA6.1
ANP32A
P39687.1
ANXA2
P07355.1
APC
P25054.1


APEH
P13798.1
APOA2
P02652.1
APOD
P05090.1
APOL1
O14791.1


AR
P10275.1
ARAF
P10398.1
ARF4L
P49703.1
ARHGEF5
Q12774.1


ARID3A
Q99856.1
ARID4A
P29374.1
ARL6IP5
O75915.1

ARMC3


B4DXS3.1*



ARMC8
Q8IUR7.1
ARTC1
P52961.1

ARX


Q96QS3.1*

ATAD2
Q6PL18.1


ATIC
P31939.1
AURKC
Q9UQB9.1
AXIN1
O15169.1
AXL
P30530.1


BAAT
Q14032.1
BAFF
Q9Y275.1

BAGE-1


Q13072.1*


BAGE-2


Q86Y30.1*




BAGE-3


Q86Y29.1*


BAGE-4


Q86Y28.1


BAGE-5


Q86Y27.1*

BAI1
O14514.1


BAL
P19835.1
BALF2
P03227.1
3ALF4
P03188.1
BALF5
P03198.1


BARF1
P03228.1
BBRF1
P03213.1
3CAN
Q96GW7.1
BCAP31
P51572.1


BCL-2
P10415.1
BCL2L1
Q07817.1
3CL6
P41182.1
BCL9
O00512.1


BCR
P11274.1
BCRF1
P03180.1
3DLF3
P03224.1
BGLF4
P13288.1


BHLF1
P03181.1
BHRF1
P03182.1
3ILF1
P03208.1
BILF2
P03218.1


BIN1
O00499.1
BING-4
O15213.1
3IRC7
Q96CA5.1
BLLF1
P03200.1


BLLF2
P03199.1
BMI1
P35226.1
3MLF1
Q04360.1
BMPR1B
O00238.1


BMRF1
P03191.1
BNLF2a
P0C739.1
3NLF2b
Q8AZJ3.1
BNRF1
P03179.1


BRAF1
P15056.1
BRD4
O60885.1

BRDT


Q58F21.1*

BRI3BP
Q8WY22.1


BRINP1
O60477.1
BRLF1
P03209.1
3TBD2
Q9BX70.1
BUB1B
O60566.1


BVRF2
P03234.1
BXLF1
P03177.1
3ZLF1
P03206.1

C15orf60


Q7Z4M0.1*



CA 12-5
Q8WXI7.1
CA 19-9
Q969X2.1
CA195
Q5TG92.1
CA9
Q16790.1



CABYR


O75952.1*

CADM4
Q8NFZ8.1

CAGE1


Q8CT20.1*

CALCA
P01258.1


CALR3
Q96L12.1
CAN
P35658.1
CASC3
O15234.1

CASC5


Q8NG31.1*



CASP5
P51878.1
CASP8
Q14790.1
CBFA2T2
O43439.1
CBFA2T3
O75081.1


CBL
P22681.1
CBLB
Q13191.1
CC3
Q9BUP3.1

CCDC110


Q8TBZ0.1*




CCDC33


Q8N5R6.1*


CCDC36


Q8IYA8.1*

CCDC6
Q16204.1

CCDC62


Q6P9F0.1*



CCDC68
Q9H2F9.1

CCDC83


Q8IWF9.1*

CCL13
Q99616.1
CCL2
P13500.1


CCL7
P80098.1

CCNA1


P78396.1*

CCNA2
P20248.1
CCNB1
P14635.1


CCND1
P24385.1
CCNE2
O96020.1
CCNI
Q14094.1
CCNL1
Q9UK58.1


CCR2
P41597.1
CD105
P17813.1
CD123
P26951.1
CD13
P15144.1


CD133
O43490.1
CD137
Q07011.1
CD138
P18827.1
CD157
Q10588.1


CD16A
P08637.1
CD178
P48023.1
CD19
P15391.1
CD194
P51679.1


CD2
P06729.1
CD20
P11836.1
CD21
P20023.1
CD22
P20273.1


CD229
Q9HBG7.1
CD23
P06734.1
CD27
P26842.1
CD28
P10747.1


CD30
P28908.1
CD317
Q10589.1
CD33
P20138.1
CD350
Q9ULW2.1


CD36
P16671.1
CD37
P11049.1
CD4
P01730.1
CD40
P25942.1


CD40L
P29965.1
CD45
P08575.1
CD47
Q08722.1
CD51
P06756.1


CD52
P31358.1
CD55
P08174.1
CD61
P05106.1
CD70
P32970.1


CD74
P08922.1
CD75
P15907.1
CD79B
P40259.1
CD80
P33681.1


CD86
P42081.1
CD8a
P01732.1
CD8b
P10966.1
CD95
P25445.1


CD98
P08195.1
CDC123
O75794.1
CDC2
P06493.1
CDC27
P30260.1


CDC73
Q6P1J9.1

CDCA1


Q9BZD4.1*

CDCP1
Q9H5V8.1
CDH3
P22223.1


CDK2AP1
O14519.1
CDK4
P11802.1
CDK7
P50613.1
CDKN1A
P38936.1


CDKN2A
P42771.1
CEA
P06731.1
CEACAM1
Q86UE4.1
CENPK
Q9BS16.1


CEP162
Q5TB80.1

CEP290


O15078.1*


CEP55


Q53EZ4.1*

CFL1
P23528.1


CH3L2
Q15782.1
CHEK1
O14757.1
CK2
P19784.1
CLCA2
Q9UQC9.1


CLOCK
O15516.1
CLPP
Q16740.1
CMC4
P56277.1
CML66
Q96RS6.1


CO-029
P19075.1
COTL1
Q14019.1
COX2
P35354.1

COX6B2


Q6YFQ2.1*



CPSF1
Q10570.1

CPXCR1


Q8N123.1*

CREBL2
O60519.1
CREG1
O75629.1


Cripto
P13385.1

CRISP2


P16562.1*

*CRK
P46108.1
CRKL
P46109.1


CRLF2
Q9HC73.1
CSAGE
Q6PB30.1

CT45


Q5HYN5.1*


CT45A2


Q5DJT8.1*




CT45A3


Q8NHU0.1*


CT45A4


Q8N7B7.1*


CT45A5


Q6NSH3.1*


CT45A6


P0DMU7.1*




CT46


Q86X24.1*


CT47


Q5JQC4.1*


CT47B1


P0C2P7.1*


CTAGE2


Q96RT6.1*




cTAGE5


O15320.1*


CTCFL


Q8NI51.1*

CTDSP2
O14595.1
CTGF
P29279.1


CTLA4
P16410.1

CTNNA2


P26232.1*

CTNNB1
P35222.1
CTNND1
O60716.1


CTSH
P09668.1

CTSP1


A0RZH4.1*

CTTN
Q14247.1
CXCR4
P61073.1



CXorf48


Q8WUE5.1*


CXorf61


Q5H943.1*

Cyclin-E
P24864.1
CYP1B1
Q16678.1


CypB
P23284.1
CYR61
O00622.1
CS1
P28290.1

CSAG1


Q6PB30.1*



CSDE1
O75534.1
CSF1
P09603.1
CSF1R
P07333.1
CSF3R
Q99062.1


CSK
P41240.1
CSK23
Q8NEV1.1
DAPK3
O43293.1
DAZ1
Q9NQZ3.1


DBPC
Q9Y2T7.1

DCAF12


Q5T6F0.1*

DCT
P40126.1
DCUN1D1
Q96GG9.1


DCUN1D3
Q8IWE4.1
DDR1
Q08345.1
DDX3X
O00571.1
DDX6
P26196.1


DEDD
O75618.1
DEK
P35659.1
DENR
O43583.1
DEPDC1
Q5TB30.1


DFNA5
O60443.1
DGAT2
Q96PD7.1
DHFR
P00374.1
DKK1
O94907.1


DKK3
Q9UBP4.1

DKKL1


Q9UK85.1*

DLEU1
O43261.1
DMBT1
Q9UGM3.1



DMRT1


Q9Y5R6.1*


DNAJB8


Q8NHS0.1*

DNAJC8
O75937.1
DNMT3A
Q9Y6K1.1



DPPA2


Q7Z7J5.1*

DR4
O00220.1
DR5
O14763.1

DRG1


Q9Y295.1*



DSCR8
Q96T75.1
E2F3
O00716.1
E2F6
O75461.1
E2F8
A0AVK6.1


EBNA1
P03211.1
EBNA2
P12978.1
EBNA3
P12977.1
EBNA4
P03203.1


EBNA6
P03204.1
EBNA-LP
Q8AZK7.1
E-cadherin
P12830.1
ECT2
Q9H8V3.1


ECTL2
Q008S8.1

EDAG


Q9BXL5.1*

EEF2
P13639.1
EFNA1
P20827.1


EFS
O43281.1
EFTUD2
Q15029.1
EGFL7
Q9UHF1.1
EGFR
p00533.1


EI24
O14681.1
EIF4EBP1
Q13541.1
ELF3
P78545.1
ELF4
Q99607.1



ELOVL4


Q9GZR5.1*

EMP1
P54849.1
ENAH
Q8N8S7.1
Endosialin
Q9HCU0.1


ENO1
P06733.1
ENO2
P09104.1
ENO3
P13929.1
ENTPD5
O75356.1


EpCAM
P16422.1
EPHA2
P29317.1
EPHA3
P29320.1
EPHB2
P29323.1


EPHB4
P54760.1
EPHB6
O15197.1
EPS8
Q12929.1
ERBB3
P21860.1


ERBB4
Q15303.1
EREG
O14944.1
ERG
P11308.1
ERVK-18
O42043.1


ERVK-19
O71037.1
ESR1
P03372.1
ETAA1
Q9NY74.1
ETS1
P14921.1


ETS2
P15036.1
ETV1
P50549.1
ETV5
P41161.1
ETV6
P41212.1


EVI5
O060447.1
EWSR1
Q01844.1
EYA2
O00167.1
EZH2
Q15910.1


FABP7
O15540.1

FAM133A


Q8N9E0.1*

FAM13A
O94988.1

F2M46D


Q8NEK8.1*



FAM58BP
P0C7Q3.1
FANCG
O15287.1

FATE1


Q969F0.1*


FBXO39


Q8N4B4.1*



FBXW11
Q9UKB1.1
FCHSD2
O94868.1
FER
P16591.1
FES
P07332.1


FEV
Q99581.1
FGF10
O15520.1
FGF23
Q9GZV9.1
FGF3
P11487.1


FGF4
P08620.1
FGF5
P12034.1
FGFR1
P11362.1
FGFR2
P21802.1


FGFR3
P22607.1
FGFR4
P22455.1
FGR
P09769.1
FLI1
Q01543.1


FLT3
P36888.1
FMNL1
O95466.1
FMOD
Q06828.1

FMR1NB


Q8N0W7.1*



FN1
P02751.1
Fn14
Q9NP84.1
FNIP2
Q9P278.1
FOLR1
P15328.1


FOS
P01100.1
FosB
P53539.1
FOSL1
P15407.1
FOXM1
Q08050.1


FOXO1
Q12778.1
FOXO3
O43524.1
FRAT1
Q92837.1
FRMD3
A2A2Y4.1


FSIP1
Q8NA03.1
FSIP2
Q5CZC0.1
FSTL3
O95633.1

FTHL17


Q9BXU8.1*



FUNDC2
Q9BWH2.1
FUS
P35637.1
FUT1
P19526.1
FUT3
P21217.1


FYN
P06241.1
GAB2
Q9UQC2.1
GADD45G
O95257.1

GAGE-1


Q13065.1















GAGE12B/C/D/E


GAGE12F


P0CL80.1


GAGE12G


P0CL81.1


GAGE12H


A6NDE8.1




A1L429.1






















GAGE12I


P0CL82.1


GAGE12J


A6NER3.1


GAGE-2


Q6NT46.1


GAGE-3


Q13067.1




GAGE-4


Q13068.1


GAGE-5


Q13069.1


GAGE-6


Q13070.1


GAGE-7


O76087.1




GAGE-8


Q9UEU5.1

GALGT2
Q00973.1
GAS7
O60861.1
GASZ
Q8WWH4.1


GATA-3
P23771.1
GBU4-5
Q587J7.1
GCDFP-15
P12273.1
GFAP
P14136.1


GFI1
Q99684.1
Ghrelin
Q9UBU3.1
GHSR
Q92847.1
GIPC1
O14908.1


GITR
Q9Y5U5.1
GKAP1
Q5VSY0.1
GLI1
P08151.1
Glypican-3
P51654.1


GML
Q99445.1
GNA11
P29992.1
GNAQ
P50148.1
GNB2L1
P63244.1


GOLGA5
Q8TBA6.1
gp100
P40967.1
gp75
P17643.1
Gp96
P14625.1



GPAT2


Q6NUI2.1*


GPATCH2


Q9NW75.1*

GPC-3
P51654.1
GPNMB
Q14956.1


GPR143
P51810.1
GPR89A
B7ZAQ6.1
GRB2
P62993.1
GRP78
P11021.1


GUCY1A3
Q02108.1
H3F3A
P84243.1

HAGE


Q9NXZ2.1*

hANP
P01160.1


HBEGF
Q99075.1
hCG-beta
P01233.1
HDAC1
Q13547.1
HDAC2
Q92769.1


HDAC3
O15379.1
HDAC4
P56524.1
HDAC5
Q9UQL6.1
HDAC6
Q9UBN7.1


HDAC7
Q8WUI4.1
HDAC8
Q9BY41.1
HDAC9
Q9UKV0.1
HEATR1
Q9H583.1


Hepsin
P05981.1
Her2/neu
P04626.1
HERC2
O95714.1
HERV-K104
P61576.1


HEXB
P07686.1
HEXIM1
O94992.1
HGRG8
Q9Y5A9.1
HIPK2
Q9H2X6.1


HJURP
Q8NCD3.1
HMGB1
P09429.1
HMOX1
P09601.1
HNRPL
P14866.1



HOM-TES-85


Q9P127.1*


HORMAD1


Q86X24.1*


HORMAD2


Q8N7B1.1*

HPSE
Q9Y251.1


HPV16 E6
P03126.1
HPV16 E7
P03129.1
HPV18 E6
P06463.1
HPV18 E7
P06788.1


HRAS
P01112.1
HSD17B13
Q7Z5P4.1
HSP105
Q92598.1
HSP60
P10809.1


HSPA1A
P08107.1

HSPB9


Q9BQS6.1*

HST-2
P10767.1
HT001
Q2TB18.1


hTERT
O14746.1
HUS1
O60921.1
ICAM-1
P05362.1
IDH1
O75874.1


IDO1
P14902.1
IER3
P46695.1
IGF1R
P08069.1

IGFS11


Q5DX21.1*




IL13RA2


Q14627.1*


IMP-3


Q9NV31.1*

ING3
Q9NXR8.1
INPPL1
O15357.1


INTS6
Q9UL03.1
IRF4
Q15306.1
IRS4
O14654.1
ITGA5
P08648.1


ITGB8
P26012.1
ITPA
Q9BY32.1
ITPR2
Q14571.1
JAK2
O60674.1


JAK3
P52333.1

JARID1B


Q9UGL1.1*

JAZF1
Q86VZ6.1
JNK1
P45983.1


JNK2
P45984.1
JNK3
P53779.1
JTB
O76095.1
JUN
P05412.1













JUP
P14923.1
K19
P08727.1
KAAG1
Q9UBP8.1
Kallikrein 14





















Q9P0G3.1


Kallikrein 4
Q9Y5K2.1
KAT6A
Q92794.1
KDM1A
O60341.1
KDM5A
P29375.1



KIAA0100


Q14667.1*

KIAA0336
Q8IWJ2.1
KIAA1199
Q8WUJ3.1
KIAA1641
A6QL64.1


KIF11
P52732.1
KIF1B
O60333.1
KIF20A
O95235.1
KIT
P10721.1


KLF4
O43474.1
KLHL41
O60662.1
KLK10
O43240.1
KMT2D
O14686.1


KOC1
O00425.1
K-ras
P01116.1
KRIT1
O00522.1
KW-12
P62913.1


KW-2
Q96RS0.1
KW-5 (SEBD4)
Q9H0Z9._
KW-7
O75475.1
L1CAM
P32004.1


L53
Q96EL3.1
L6
Q9BTT4.1
LAG3
P18627.1

Lage-1


O75638.1*



LATS1
O95835.1
LATS2
Q9NRM7.1
LCMT2
O60294.1
LCP1
P13796.1



LDHC


P07864.1*

LDLR
P01130.1

LEMD1


Q68G75.1*

Lengsin
Q5TDP6.1


LETMD1
Q6P1Q0.1
LGALS3BP
Q08380.1
LGALS8
O00214.1
LIN7A
O14910.1



LIPI


Q6XZB0.1*

LIV-1
Q13433.1
LLGL1
Q15334.1
LMO1
P25800.1


LMO2
P25791.1
LMP1
P03230.1
LMP2
P13285.1

LOC647107


Q8TAI5.1*



LOXL2
Q9Y4K0.1
LRP1
Q07954.1
LRRN2
O75325.1
LTF
P02788.1


LTK
P29376.1
LZTS1
Q9Y250.1

LY6K


Q17RY6.1*

LYN
P07948.1



LYPD6B


Q8NI32.1*

MAEA
Q7L5Y9.1

MAEL


Q96JY0.1*

MAF
O75444.1


MAFF
Q9ULX9.1
MAFG
O15525.1
MAFK
O60675.1

MAGE-A1


P43355.1*




MAGE-A10


P43363.1*


MAGE-A11


P43364.1*


MAGE-A12


P43365.1*


MAGE-A2


P43356.1*




MAGE-A2B


Q6P448.1*


MAGE-A3


P43357.1*


MAGE-A4


P43358.1*


MAGE-A5


P43359.1*




MAGE-A6


P43360.1*


MAGE-A8


P43361.1*


MAGE-A9


P43362.1*


MAGE-B1


P43366.1*




MAGE-B2


O15479.1*


MAGE-B3


O15480.1*


MAGE-B4


O15481.1*


MAGE-B5


Q9BZ81.1*




MAGE-B6


Q8N7X4.1*


MAGE-C1


O60732 .1*


MAGE-C2


Q9UBF1.1*


MAGE-C3


Q8TD91.1*














mammaglobin-A
MANF
P55145.1
MAP2K2
P36507.1
MAP2K7
O14733.1















Q13296.1








MAP3K7
O43318.1
MAP4K5
Q9Y4K4.1
MART1
Q16655.1
MART-2
Q5VTY9.1


MAS1
P04201.1
MC1R
Q01726.1

MCAK


Q99661.1*

MCF2
P10911.1


MCF2L
O15068.1
MCL1
Q07820.1
MCTS1
Q9ULC4.1
MCSP
Q6UVK1.1


MDK
P21741.1
MDM2
Q00987.1
MDM4
O15151.1
ME1
P48163.1


ME491
P08962.1
MECOM
Q03112.1
MELK
Q14680.1
MEN1
O00255.1


MERTK
Q12866.1
MET
P08581.1
MFGE8
Q08431.1
MFHAS1
Q9Y4C4.1


MFI2
P08582.1
MGAT5
Q09328.1
Midkine
P21741.1
MIF
P14174.1


MK167
P46013.1
MLH1
P40692.1
MLL
Q03164.1
MLLT1
Q03111.1


MLLT10
P55197.1
MLLT11
Q13015.1
MLLT3
P42568.1
MLLT4
P55196.1


MLLT6
P55198.1
MMP14
P50281.1
MMP2
P08253.1
MMP7
P09237.1


MMP9
P14780.1
MOB3B
Q86TA1.1

MORC1


Q86VD1.1*


MPHOSPH1


Q96Q89.1*



MPL
P40238.1
MRAS
O14807.1
MRP1
P33527.1
MRP3
O15438.1


MRPL28
Q13084.1
MRPL30
Q8TCC3.1
MRPS11
P82912.1
MSLN
Q13421.1


MTA1
Q13330.1
MTA2
O94776.1
MTA3
Q9BTC8.1
MTCP1
P56278.1


MTSS1
O43312.1
MUC-1
P15941.1
MUC-2
Q02817.1
MUC-3
Q02505.1


MUC-4
Q99102.1
MUC-5AC
P98088.1
MUC-6
Q6W4X9.1
MUM1
Q2TAK8.1


MUM2
Q9Y5R8.1
MYB
P10242.1
MYC
P01106.1
MYCL
P12524.1


MYCLP1
P12525.1
MYCN
P04198.1
MYD88
Q99836.1
MYEOV
Q96EZ4.1


MYO1B
O43795.1

NA88-A


P0C5K6.1*

NAE1
Q13564.1
Napsin-A
O96009.1


NAT6
Q93015.1
NBAS
A2RRP1.1
NBPF12
Q5TAG4.1
NCOA4
Q13772.1


NDC80
O14777.1
NDUFC2
O95298.1
Nectin-4
Q96NY8.1
NEK2
P51955.1


NEMF
O60524.1
NENF
Q9UMX5.1
NEURL1
O76050.1
NFIB
O00712.1


NFKB2
Q00653.1
NF-X1
Q12986.1
NFYC
Q13952.1
NGAL
P80188.1


NGEP
Q6IWH7.1
NKG2D-L1
Q9BZM6.1
NKG2D-L2
Q9BZM5.1
NKG2D-L3
Q9BZM4.1


NKG2D-L4
Q8TD07.1
NKX3.1
Q99801.1
NLGN4X
Q8N0W4.1

NLRP4


Q96MN2.1*



NNMT
P40261.1

NOL4


O94818.1*

NOTCH2
Q04721.1
NOTCH3
Q9UM47.1


NOTCH4
Q99466.1
NOV
P48745.1
NPM1
P06748.1

NR6A1


Q15406.1*



N-RAS
P01111.1
NRCAM
Q92823.1
NRP1
O14786.1
NSE1
Q96KN4.1


NSE2
Q96KN1.1
NTRK1
P04629.1
NUAK1
O60285.1
NUGGC
Q68CJ6.1



NXF2


Q9GZY0.1*


NXF2B


Q5JRM6.1*

NY-BR-1
Q9BXX3.1
NYD-TSPG
Q9BWV7.1



NY-ESO-1


P78358.1*

NY-MEL-1
P57729.1
OCA2
Q04671.1

ODF1


Q14990.1*




ODF2


Q5BJF6.1*


ODF3


Q96PU9.1*


ODF4


Q2M2E3.1*

OGG1
O15527.1


OGT
O15294.1

OIP5


O43482.1*

OS9
Q13438.1

OTOA


Q05BM7.1*



OX40
P43489.1
OX40L
P23510.1
P53
P04637.1
P56-LCK
P06239.1


PA2G4
Q9UQ80.1

PAGE1


O75459.1*


PAGE2


Q7Z2X2.1*


PAGE2B


Q5JRK9.1*




PAGE3


Q5JUK9.1*


PAGE4


O60829.1*


PAGE5


Q96GU1.1*

PAK2
Q13177.1


PANO1
I0J062.1
PAP
Q06141.1
PAPOLG
Q9BWT3.1
PARK2
O60260.1


PARK7
Q99497.1
PARP12
Q9H0J9.1

PASD1


Q8IV76.1*

PAX3
P23760.1


PAX5
Q02548.1
PBF
P00751.1

PBK


Q96KB5.1*

PBX1
P40424.1


PCDC1
Q15116.1
PCM1
Q15154.1
PCNXL2
A6NKB5.1
PDGFB
P01127.1


PDGFRA
P16234.1

PEPP2


Q9HAU0.1*

PGF
P49763.1
PGK1
P00558.1


PHLDA3
Q9Y5J5.1
PHLPP1
O60346.1
PIAS1
O75925.1
PIAS2
O75928.1


PIK3CA
P42336.1
PIK3CD
O00329.1
PIK3R2
O00459.1
PIM1
P11309.1


PIM2
Q9P1W9.1
PIM3
Q86V86.1
PIR
O00625.1

PIWIL1


Q96J94.1*




PIWIL2


Q8TC59.1*

PIWIL3
Q7Z3Z3.1
PIWIL4
Q7Z3Z4.1
PKN3
Q6P5Z2.1


PLA2G16
P53816.1

PLAC1


Q9HBJ0.1*

PLAG1
Q6DJT9.1
PLEKHG5
O94827.1


PLK3
Q9H4B4.1
PLS3
P13797.1
PLVAP
Q9BX97.1
PLXNB1
O43157.1


PLXNB2
O15031.1
PML
P29590.1
PML-RARA
Q96QH2.1

POTEA


Q6S8J7.1*




POTEB


Q6S5H4.1*


POTEC


B2RU33.1*


POTED


Q86YR6.1*


POTEE


Q6S8J3.1*




POTEG


Q6S5H5.1*


POTEH


Q6S545.1*

PP2A
P63151.1
PPAPDC1B
Q8NEB5.1


PPFIA1
Q13136.1
PPIG
Q13427.1
PPP2R1B
P30154.1

PRAME


P78395.1*



PRDX5
P30044.1
PRKAA1
Q13131.1
PRKCI
P41743.1

PRM1


P04553.1*




PRM2


P04554.1*

PRMT3
O60678.1
PRMT6
Q96LA8.1
PDL1
Q9NZQ7.1


PROM1
O43490.1

PRSS54


Q6PEW0.1*


PRSS55


Q6UWB4.1*

PRTN3
P24158.1


PRUNE
Q86TP1.1
PRUNE2
Q8WUY3.1
PSA
P07288.1
PSCA
D3DWI6.1


PSMA
Q04609.1
PSMD10
O75832.1
PSGR
Q9H255.1
PSP-94
Q1L6U9.1


PTEN
P60484.1
PTH-rP
P12272.1
PTK6
Q13882.1

PTPN20A


Q4JDL3.1*



PTPRK
Q15262.1
PTPRZ
P23471.1
PTTG-1
O95997.1
PTTG2
Q9NZH5.1


PTTG3
Q9NZH4.1
PXDNL
A1KZ92.1
RAB11FIP3
O75154.1
RAB8A
P61006.1


RAD1
O60671.1
RAD17
O75943.1
RAD51C
O43502.1
RAF1
P04049.1


RAGE-1
Q9UQ07.1
RAP1A
P62834.1
RARA
P10276.1
RASSF10
A6NK89.1


RB1
P06400.1
RBL2
Q08999.1

RBM46


Q8TBY0.1*

RBP4
P02753.1


RCAS1
O00559.1
RCVRN
P35243.1
RECQL4
O94761.1
RET
P07949.1



RGS22


Q8NE09.1*

RGS5
O15539.1
RHAMM
O75330.1
RhoC
P08134.1


RHOXF2
Q9BQY4.1
RL31
P62888.1
RNASET2
O00584.1
RNF43
Q68DV7.1


RNF8
O76064.1
RON
Q04912.1

ROPN1A


Q9HAT0.1*

ROR1
Q01973.1


RPA1
O95602.1
RPL10A
P62906.1
RPL7A
P62424.1
RPS2
P15880.1


RPS6KA5
O75582.1
RPSA
P08865.1

RQCD1


Q92600.1*

RRAS2
P62070.1


RSL1D1
O76021.1
RTKN
Q9BST9.1
RUNX1
Q01196.1
RUNX2
Q13950.1


RYK
P34925.1

SAGE1


Q9NXZ1.1*

SART2
Q9UL01.1
SART3
Q15020.1


SASH1
O94885.1
sCLU
P10909.1
SCRN1
Q12765.1
SDCBP
O00560.1


SDF-1
P48061.1
SDHD
O14521.1
SEC31A
O94979.1
SEC63
Q9UGP8.1













Semaphorin 4D

SEMG1


P04279.1*

SFN
P31947.1
SH2B2
O14492.1















Q92854.1








SH2D1B
O14796.1
SH3BP1
Q9Y3L3.1
SHB
Q15464.1
SHC3
Q92529.1


SIRT2
Q8IXJ6.1
SIVA1
O15304.1
SKI
P12755.1
SLBP
A9UHW6.1


SLC22A10
Q63ZE4.1
SLC25A47
Q6Q0C1.1
SLC35A4
Q96G79.1
SLC45A3
Q96JT2.1


SLC4A1AP
Q9BWU0.1

SLCO6A1


Q86UG4.1*

SLITRK6
Q9H5Y7.1
Sm23
P27701.1


SMAD5
Q99717.1
SMAD6
O43541.1
SMO
Q99835.1
Smt 3B
P61956.1


SNRPD1
P62314.1
SOS1
Q07889.1
SOX-2
P48431.1
SOX-6
P35712.1


SOX-11
P35716 .1

SPA17


Q15506.1*


SPACA3


Q8IXA5.1*


SPAG1


Q07617.1*




SPAG17


Q6Q759.1*


SPAG4


Q9NPE6.1*


SPAG6


O75602.1*


SPAG8


Q99932.1*




SPAG9


O60271.1*


SPANXA1


Q9NS26.1*


SPANXB


Q9NS25.1*


SPANXC


Q9NY87.1*




SPANXD


Q9BXN6.1*


SPANXE


Q8TAD1.1*


SPANXN1


Q5VSR9.1*


SPANXN2


Q5MJ10.1*




SPANXN3


Q5MJ09.1*


SPANXN4


Q5MJ08.1*


SPANXN5


Q5MJ07.1*


SPATA19


Q7Z5L4.1*




SPEF2


Q9C093.1*

SPI1
P17947.1

SPINLW1


O95925.1*


SPO11


Q9Y5K1.1*



SRC
P12931.1
SSPN
Q14714.1

SSX-1


Q16384.1*


SSX-2


Q16385.1*




SSX-3


Q99909.1*


SSX-4


O60224.1*


SSX-5


O60225.1*


SSX-6


Q7RTT6.1*




SSX-7


Q7RTT5.1*


SSX-9


Q7RTT3.1*

ST18
O60284.1
STAT1
P42224.1


STEAP1
Q9UHE8.1
STK11
Q15831.1
STK25
O00506.1
STK3
Q13188.1


STN
Q9H668.1
SUPT7L
O94864.1
Survivin
O15392.1
SUV39H1
O43463.1



SYCE1


Q8N0S2.1


SYCP1


Q15431.1

SYCP3
Q8IZU3.1
SYT
Q15532.1


TA-4
Q96RI8.1
TACC1
O75410.1
TAF1B
Q53T94.1
TAF4
O00268.1



TAF7L


Q5H9L4.1*


TAG-1


Q02246.1*

TAL1
P17542.1
TAL2
Q16559.1


TAPBP
O15533.1
TATI
P00995.1
TAX1BP3
O14907.1
TBC1D3
Q8IZP1.1


TBP-1
P17980.1
TCL1A
P56279.1
TCL1B
O95988.1
TDHP
Q9BT92.1



TDRD1


Q9BXT4.1*


TDRD4


Q9BXT8.1*


TDRD6


O60522.1*


TEKT5


Q96M29.1*




TEX101


Q9BY14.1*


TEX14


Q8IWB6.1*


TEX15


Q9BXT5.1*


TEX38


Q6PEX7.1*



TF
P02787.1

TFDP3


Q5H9I0.1*

TFE3
P19532.1
TGFBR1
P36897.1


TGFBR2
P37173.1

THEG


Q9P2T0.1*

TIE2
Q02763.1
TIPRL
O75663.1


TLR2
O60603.1

TMEFF1


Q8IYR6.1*


TMEFF2


Q9UIK5.1*


TMEM108


Q6UXF1.1*



TMEM127
O75204.1

TMPRSS12


Q86WS5.1*

TNC
P24821.1
TNFRSF17
Q02223.1


TNFSF15
O95150.1
TNK2
Q07912.1
TOMM34
Q15785.1
TOP2A
P11388.1


TOP2B
Q02880.1
TOR3A
Q9H497.1
TP73
O15350.1
TPA1
8N543.1


TPGS2
Q68CL5.1
TPI1
P60174.1
TPL2
P41279.1
TPM4
P67936.1


TPO
P40225.1

TPPP2


P59282.1*

TPR
P12270.1

TPTE


P56180.1*



TRAF5
O000463.1

TRAG-3


Q9Y5P2.1*

TRGC2
P03986.1
TRIM24
O15164.1


TRIM37
O94972.1
TRIM68
Q6AZZ1.1
TRPM8
Q7Z2W7.1

TSGA10


Q9BZW7.1*




TSP50


Q9UI38.1*

TSPAN6
O43657.1

TSPY1


Q01534.1*


TSPY2


A6NKD2.1*




TSPY3


Q6B019.1*

TSPYL1
Q9H0U9.1

TSSK6


Q9BXA6.1*

TTC23
Q5W5X9.1



TTK


P33981.1*


TULP2


O00295.1*

TUSC2
O75896.1
TWEAK
O43508.1


TXNIP
Q9H3M7.1
TYMS
P04818.1
TYR
P14679.1
U2 snRNP B
P08579.1


U2AF1
Q01081.1
UBD
O15205.1
UBE2A
P49459.1
UBE2C
O00762.1


UBE2V1
Q13404.1
UBE4B
O95155.1
UBR5
O95071.1
UBXD5
Q5T124.1


UFL1
O94874.1
URI1
O94763.1
URLC10
Q17RY6.1
UROC1
Q96N76.1


USP2
O75604.1
USP4
Q13107.1
VAV1
P15498.1
VCX3A
Q9NNX9.1


VEGFR1
P17948.1
VEGFR2
P35968.1
VHL
P40337.1
VIM
P08670.1


VWA5A
O00534.1
WHSC2
Q9H3P2.1
WISP1
O95388.1
WNK2
Q9Y3S1.1


WNT10B
O00744.1
WNT3
P56703.1
WNT-5a
P41221.1
WT1
P19544.1


WWP1
Q9H0M0.1

XAGE-1


Q9HD64.1*


XAGE-2


Q96GT9.1*


XAGE-3


Q8WTP9.1*




XAGE-4


Q8WWM0.1


XAGE-5


Q8WWM1.1*

XBP1
P17861.1
XPO1
O14980.1


XRCC3
O43542.1
YB-1
P67809.1
YEATS4
O95619.1
YES1
P07947.1


YKL-40
P36222.1
ZBTB7A
O95365.1
ZBTB7C
A1YPR0.1
ZEB1
P37275.1


ZFYVE19
Q96K21.1

ZNF165


P49910.1*

ZNF185
O15231.1
ZNF217
O75362.1


ZNF320
A2RRD8.1
ZNF395
Q9H8N7.1

ZNF645


Q8N7E2.1*

ZUBR1
Q5T4S7.1


ZW10
O43264.1
ZWINT
O95229.1
Ropporin-lA
Q9HAT0
WBP2NL
Q6ICG8.1





Table 2 optionally excludes Ropporin-1A Q9HAT0 and/or WBP2NL Q6ICG8.1.


CTAs/TSAs = bold and *













TABLE 3





LIST OF ACCESSION NUMBERS FOR VIRAL ANTIGENS FROM IEDB























Q76R62.1
P03182.1
P09258.1
P09310.1
P03227.1
P89466.1
P04601.1


P13285.1
P09991.1
P03468.1
A2T3Q0.1
P0C6X7.1
P89448.1
P12978.1
P09257.1


P50641.1
P14075.1
 20178567.1
Q01023.1
P03188.1
P04585.1
P0C767.1
P12977.1


P89467.1
Q9W850.1
Q00683.1
P04591.1
P03211.1
 9628706.1
P03460.1
P08666.1


P03485.1
Q04360.1
Q913Y7.1
P89449.1
Q81871.1
P03452.1
P17763.1
P89430.1


P03410.1
P04012.1
P27958.1
Q6WB99.1
P25212.1
Q9PZT1.1
P68593.1
P03203.1


P29996.1
9629374.1
P59633.1
O42053.1
P0C6L3.1
P59635.1
Q9YZN9.1
Q6WB95.1


P10233.1
P89475.1
Q6WB98.1
Q6SW67.1
Q7TFA0.1
P0CK17.1
P59594.1
1980491.1


P14079.1
P15423.1
 1891762.1
P09259.1
P09269.1
Q77Q38.1
Q786F2.1
Q6SW99.1


P24771.1
F5HB98.1
 9629370.1
P68336.1
P03300.1
 1980486.1
Q69027.1
P28284.1


P13290.1
9626585.1
P06923.1
P14076.1
P03346.1
O42062.1
P07566.1
P03204.1


Q69091.1
P09255.1
P03206.1
O36634.1
P10205.1
F5HCM1.1
P0CK16.1
Q6WB97.1


Q85601.1
P89468.1
Q69467.1
P03218.1
Q786F3.1
P59637.1
 1891763.1
Q6W394.1


P03231.1
Q9IK92.1
Q6WBA1.1
P03466.1
P14335.1
P26670.1
Q9PZT0.1
1985356.1


Q2HR63.1
P59634.1
Q6SW59.1
P03277.1
P59595.1
Q69028.1
P03383.1
P03261.1


P03200.1
P04578.1
P06484.1
F5HC97.1
S5TC82.1
P18095.1
Q96895.1
P18094.1


 9629372.1
P50791.1
P03230.1
P13845.1
9629712.1
P03209.1
P03129.1
Q76R61.1


P03228.1
P0C206.1
Q9WMB5.1
P03226.1
Q9QR69.1
O36633.1
O42049.1
P03496.1


P03428.1
P03431.1
P0C0U1.1
P03433.1
P03508.1
 1980456.1
P0C739.1
P69726.1


P69723.1
1980490.1
532129755.1
P03120.1
P04020.1
P06922.1
P03114.1
P03314.1


P06790.1
P06788.1
P06927.1
P03101.1
P03107.1
P06794.1
530787712.1
P04013.1


Q80872.1
P04014.1
P03126.1
P36811.1
P06463.1
P26554.1
P04016.1
P14078.1


P03191.1
1980471.1
P06821.1
P0C797.1
F5HF49.1
P0C045.1
P04296.1
P04485.1


P10230.1
P10221.1
P06487.1
P10215.1
P04293.1
P10211.1
P10209.1
P10225.1


P10224.1
P10238.1
P10185.1
P08392.1
P10231.1
P06492.1
P04290.1
P08393.1


P08543.1
P10210.1
P08617.1
F5HB53.1
P04019.1
P04015.1
P89442.1
P89452.1


P89462.1
P59632.1
O36635.1
P07210.1
Q83884.1
Q8JUX5.1
P03089.1
Q66479.1


P03185.1
P0CAP6.1
P04618.1
 56160929.1
1980519.1
P08669.1
P14348.1
P03212.1


P03179.1
45617-
 1511872.1
302317869.1
P69899.1
P09247.1
Q05127.1
P18272.1



other.1








Q9YMG2.1
Q05128.1
302371215.1
302371218.1
Q5XX08.1
302371214.1
P14336.1
138948-









other.1


P08292.1
1803956.1
P35253.1
 1891726.1
P09308.1
P03189.1
667489389.1
P09272.1


34365530.1
Q05320.1
P59596.1
P32886.1
 55097.1
P03316.1
P03276.1
Q81870.1


Q81862.1
64320.1
 1933190.1
















TABLE 4





LIST OF ACCESSION NUMBERS FOR BACTERIAL ANTIGENS FROM IEDB























B8ZUD1.1
P09621.1
P9WPE5.1
Q2GI62.1
P0A5B8.1
O50443.1
Q5NEZ3.1


P9WQF5.1
P9WK95.1
O05311.1
P9WQD7.1
P9WKG3.1
P9WHE5.1
P0CD83.1
P9WHB9.1


P9WH91.1
P9WHE3.1
P9WNK7.1
A0A0F3MKF3.1
A1JIP3.1
B2RKS6.1
P0A1D3.1
P0A6F5.1


P0COZ7.1
P0C923.1
P61439.1
Q9Z708.1
P0A521.1
P9WPE7.1
Q79FJ2.1
B8ZR84.1


I6Y3P5.1
Q2FYP2.1
P9WG41.1
P96890.1
O06625.1
I6X654.1
Q8YIE1.1
P9WQ81.1


I6XWA1.1
P11311.1
O53900.1
P9WIR7.1
P9WQB1.1
B8ZUC6.1
O06802.1
P9WMK1.1


P9WG37.1
Q2FWC4.1
Q2GGE3.1
O33347.1
P9WJ09.1
P9WJ11.1
P9WF23.1
O69703.1


I6X4K0.1
B2RM93.1
P71888.1
P9WFW3.1
P9WPV1.1
P9WPU7.1
P9WPV3.1
P9WPU5.1


O50391.1
P9WID7.1
P9WPC3.1
P96901.1
O84848.1
Q2FUX4.1
A0A0M1YNY3.1
P49944.1


P9WPQ9.1
Q45010.1
Q2FZK7.1
P9WMN3.1
P9WPQ1.1
Q45013.1
O53666.1
Q5NEH1.1


P9WHR5.1
P9WIE5.1
Q5NEQ3.1
P9WNF3.1
F2QBN0.1
B8ZTB7.1
P0C922.1
P9WMJ9.1


Q5NGW2.1
P01556.1
Q8DMZ4.1
P33768.1
Q2FUY2.1
Q5NG56.1
X8CE55.1
Q5NGE4.1


P94973.1
O06827.1
P96872.1
I6X9Y7.1
I6XFZ8.1
O50442.1
O53697.1
O53978.1


P95137.1
P95144.1
O53519.1
Q79FZ8.1
P9WJF5.1
P71629.1
P9WJS3.1
P9WPB7.1


Q7D911.1
P9WHS1.1
O06393.1
P9WP69.1
P9WPN5.1
P9WNX3.1
O53380.1
I6YAU3.1


P0A4V2.1
P9WQP3.1
P0C212.1
P9WQP1.1
P9WQN9.1
O53311.1
P9WIS7.1
O06159.1


H2GU79.1
Q2G2Q0.1
P9WNV1.1
P9WNV5.1
Q8YE98.1
Q59191.1
P9WGY7.1
P9WGY9.1


Q2G2W1.1
P9WGH1.1
P9WNG9.1
P9WNG7.1
O84591.1
Q9Z7A6.1
P9WGR1.1
P96404.1


I6YGS0.1
Q6MX18.1
P9WNK5.1
O53692.1
P9WNK3.1
P9WNK1.1
P9WNJ9.1
P9WNJ7.1


P9WNJ5.1
P9WNJ3.1
P9WNJ1.1
P9WNI9.1
P96903.1
P9WNB1.1
P9WJE1.1
P9WJD9.1


P9WJD7.1
P9WJD3.1
P9WJC5.1
P9WJC3.1
P9WJC1.1
P9WNQ3.1
P9WJE5.1
P9WJC7.1


O84646.1
I6YDV4.1
P11439.1
Q5NFJ1.1
P9WNE5.1
P14738.1
P11089.1
H7C7G3.1


L7N6B9.1
I6XFI7.1
O05578.1
P96218.1
P9WN39.1
P9WN59.1
Q8YBI3.1
P9WN83.1


P9WJA9.1
P9WMY9.1
Q5NH51.1
O53673.1
P9WIP9.1
P0CE15.1
P72041.1
Q5NEM8.1


Q5NI16.1
P9WJA3.1
P0A4Q1.1
P9WIP1.1
P9WIN9.1
P9WNF5.1
O50846.1
Q59947.1


H7C7N8.1
Q5NEC6.1
O84606.1
P9WQJ9.1
P9WQJ7.1
P9WQ71.1
O53611.1
P9WKL1.1


P9WKJ7.1
D5V9Y8.1
P0CC04.1
P23700.1
P9WJN5.1
Q5NHJ0.1
Q5NEY9.1
P15917.1


Q2G155.1
O34094.1
Q8F8E1.1
O69661.1
H6MMU4.1
P9WK61.1
P9WK55.1
Q8YGS9.1


O50811.1
P9WQ59.1
P9WIN7.1
P9WIR1.1
O50430.1
D5VCH6.1
Q5NHI7.1
P9WFU9.1


I6XFY8.1
B2RH54.1
Q46409.1
P30690.1
A0A0J5IWN3.1
A0PSI5.1
A4TAC4.1
B1MB69.1


B2HSY2.1
B8ZSN3.1
E4WHS0.1
P9WK17.1
V5XE39.1
I6X7G8.1
I6Y461.1
I6YGB1.1


I6YC99.1
Q79FY7.1
I6X5Z8.1
I6Y479.1
I6YA32.1
O05461.1
Q2G1E2.1
P9WK19.1


I6YAW3.1
Q5NGG4.1
O51624.1
P9WJW5.1
Q50584.1
B2RHG1.1
Q5NFL7.1
P9WQN7.1


P9WHH3.1
O84639.1
Q5NF24.1
P9WJH1.1
P9WJH5.1
O53203.1
P55969.1
O50418.1


Q5NGE0.1
H7C7K8.1
O54584.1
G1UB30.1
Q5NH85.1
G1UB25.1
P0A3N8.1
E1X6Y5.1


Q5NEP7.1
Q8YHH0.1
P38006.1
P43838.1
P43839.1
P0CL67.1
P0CL66.1
Q0SLZ0.1


Q07337.1
G5IXI6.1
O07721.1
O53254.1
P75330.1
I6Y936.1
L7N649.1
L7N656.1


L7N693.1
Q79FK4.1
Q79FR3.1
Q79FR5.1
Q79G04.1
Q79FS8.1
Q6MWX1.1
Q79FV6.1


Q79FS5.1
Q79FQ7.1
Q79FP3.1
Q79FP2.1
Q79FK9.1
Q79FE6.1
I6XEF1.1
Q79FD4.1


Q6MX26.1
Q6MX50.1
L7N680.1
O53695.1
I6X8R2.1
O53246.1
I6Y0L1.1
Q2G282.1


P14283.1
P04977.1
P9WMX7.1
P9WFR1.1
P9WN09.1
O86345.1
P9WGU1.1
P9WGT9.1


P9WGT7.1
P9WPF7.1
P9WIB3.1
P9WMM9.1
P9WHM5.1
P9WQE9.1
Q8DQ08.1
Q8DQ07.1


I6Y231.1
P9WHV9.1
O05877.1
O07236.1
O86370.1
O06404.1
O06410.1
B8ZRL2.1


O06807.1
O33269.1
Q79FA9.1
Q79FK6.1
Q8VKN2.1
L7N675.1
Q79FK5.1
L0T7Y7.1


Q79FI9.1
Q79FE1.1
Q6MWX9.1
O84616.1
O84647.1
P9WQ27.1
O84288.1
I6X9S5.1


P9WJW3.1
P9WPS9.1
P95149.1
O53632.1
I6Y293.1
L0T243.1
P9WP43.1
P9WKC9.1


P96402.1
P71810.1
O06417.1
P96365.1
L0T532.1
P96264.1
P9WJK5.1
P9WJQ9.1


O84419.1
O84818.1
Q8YG32.1
O06608.1
O07175.1
P9WGA3.1
O53323.1
P96354.1


P9WIM9.1
B8ZRT2.1
P9WK93.1
P13423.1
O84583.1
P9WG63.1
P9WIM1.1
P9WKJ3.1


P9WNZ7.1
P9WK31.1
Q50701.1
P9WID3.1
Q8YC41.1
P9WPL3.1
P9WNI3.1
P9WNI7.1


P9WNI5.1
P9WQ49.1
P9WMG1.1
Q2GGR3.1
P9WK71.1
O33192.1
P9WND5.1
P9WFL9.1


P9WMB7.1
P9WJ79.1
P9WND7.1
Q63RA7.1
Q631D0.1
I6YET7.1
Q9S010.1
P9WGC9.1


Q50700.1
Q5NFR6.1
P9WGK3.1
P9WHI1.1
P9WHV3.1
Q5NIA7.1
P9WG27.1
P9WF73.1


P9WGA1.1
P9WIB9.1
P9WGL3.1
O51381.1
P9WI83.1
P9WI79.1
P9WFT7.1
Q8YGS6.1


P05788.1
P17835.1
P9WIK9.1
Q5NHP7.1
P9WJU5.1
P9WGE7.1
Q2G2B2.1
P04958.1


P9WG67.1
P9WKE1.1
O07226.1
P9WJ13.1
P9WHF3.1
P9WF43.1
Q7D7L0.1
P9WMF9.1


P9WGN1.1
P9WKJ9.1
P60230.1
P9WKH7.1
O53699.1
P9WHT7.1
P9WJS5.1
Q5NII0.1


Q8YDZ3.1
Q9RPX7.1
P9WN67.1
O05576.1
Q5NHL4.1
P9WN15.1
P9WMD5.1
P9WMF5.1


P9WG85.1
P9WJW7.1
P9WIH1.1
P9WIG1.1
P9WIG3.1
P9WIF5.1
P9WIF1.1
P9WIE7.1


P9WHW9.1
P9WI41.1
P9WI39.1
P9WI37.1
P9WI25.1
Q11031.1
P9WI47.1
P9WI23.1


P9WI19.1
P9WI11.1
P9WI45.1
P9WI07.1
P9WI05.1
Q79FH3.1
P9WI43.1
P9WHZ7.1


P9WHZ5.1
P9WHZ3.1
P9WHY9.1
P9WHY7.1
P9WHY5.1
Q6MX07.1
P9WHY3.1
Q6MWY2.1


Q50703.1
P9WHX3.1
P96221.1
Q7D589.1
P9WMA3.1
P9WKW1.1
P9WKS9.1
P9WM29.1


P9WGC1.1
P9WLZ5.1
P9WLZ3.1
P9WLX1.1
P9WLV9.1
P9WLS7.1
P9WLQ1.1
P9WLJ1.1


P9WLH9.1
P9WLF3.1
P9WL97.1
P9WL87.1
P9WL85.1
P9WL83.1
P9WL67.1
P9WL63.1


P9WL51.1
P9WL47.1
P9WNH3.1
P9WGL7.1
P9WQM5.1
P9WPD9.1
A0A098A1N7.1
A0A098A2B0.1


A2RGM0.1
A5LVF6.1
A5MKZ9.1
B8ZQI8.1
B8ZQM3.1
B8ZQT5.1
B8ZR82.1
B8ZRH1.1


B8ZS71.1
B8ZS85.1
B8ZS86.1
B8ZSJ5.1
B8ZSL3.1
B8ZSL7.1
B8ZSM6.1
B8ZT30.1


B8ZTD0.1
B8ZTS2.1
B8ZTV5.1
B8ZU53.1
B8ZUA4.1
B8ZUE5.1
B8ZUF0.1
B8ZUT6.1


B8ZUX6.1
C0R9U8.1
C6DPT8.1
C6DQ35.1
E1XJN6.1
G8W6L3.1
G8W6L7.1
G8W6U7.1


H6MNY3.1
H6MQD5.1
H8HRN0.1
H8HW90.1
H8L8K3.1
I6TQ53.1
I6TX52.1
P0C5B9.1


Q1BYS7.1
R4MDK6.1
S5F815.1
W6GWM1.1
P9WFC9.1
P9WFJ9.1
P14916.1
P69996.1


P9WFC5.1
Q8VKQ6.1
P9WHS3.1
A5MKI6.1
















TABLE 5





LIST OF ACCESSION NUMBERS FOR FUNGAL ANTIGENS FROM IEDB and UNIPROT






















Q5ANA3.1
Q5A3P6.1
Q59VM7.1
Q5A1A9.1
Q5APF0.1
Q8J0P4.1
Q4WHG0.1
Q4WQ87.1


Q59X67.1
Q59Z17.1
Q59ZI3.1
Q5AA33.1
B8N4Q9.1
Q4WAW6.1
Q4WAJ6.1
Q4X1V0.1


A0A1D8PQ86.1
Q59ZB1.1
Q873N2.1
Q59L72.1
B8NIF0.1
P46075.1
Q4WCL1.1
Q4WRP2.1


Q59L12.1
Q59LC9.1
P48989.1
Q5AFC2.1
B8N406.1
Q4WGL5.1
Q9HEQ8.1
Q4WVI6.1


P46593.1
P82611.1
Q5ADV5.1
Q59SG9.1
P41750.1
O00092.1
Q4WEN1.1
Q4WCV3.1


P0DJ06.1
O94038.1
Q59WD3.1
Q59RQ0.1
B8NM71.1
Q4WLW8.1
Q4WI37.1
Q4WNI1.1


P29717.1
P46589.1
Q59W04.1
Q59RK9.1
B8MYS6.1
Q8X176.1
Q4WZS1.1
Q4WQH4.1


Q9UW14.1
Q5AF56.1
Q59VN0.1
P31353.1
B8N8Q9.1
Q96UX3.1
Q4WDA4.1
Q4WDE1.1


Q92207.1
P83773.1
Q59WB9.1
Q5ACM4.1
B8N8R3.1
Q4WPF5.1
Q4WLS7.1
Q4WJT7.1


Q5A8T7.1
Q59YU1.1
Q59P53.1
Q5ACI8.1
B8N417.1
Q92450.1
Q4WWM6.1
Q4WLG1.1


Q5A8T4.1
Q59YV2.1
Q5A432.1
Q5AB93.1
B8N8R0.1
Q4WAW9.1
Q4WP81.1
Q4WQR6.1


P43076.1
Q5ABE5.1
Q5AK64.1
Q5ALL8.1
B8NM74.1
A4GYZ0.1
Q6MYT0.1
Q4WZS2.1


Q5AP53.1
Q59LF2.1
A0A1D8PNZ7.1
Q5A4X8.1
B8N106.1
Q4WAW3.1
Q4WTL0.1
Q4WXP0.1


Q5AL52.1
Q8NJN3.1
Q59Q30.1
Q5AD34.1
B8NHY4.1
Q70J59.1
Q4WXV2.1
Q4WU59.1


P43079.1
Q5ALN1.1
A0A1D8PN12.1
Q59V02.1
B8NJG8.1
Q4X1A4.1
Q4X0Z3.1
Q4WUG4.1


Q5AD07.1
Q59S72.1
Q5AK24.1
Q5AHC0.1
B8NM66.1
E9R876.1
Q4WN25.1
Q4WIK9.1


Q5A0E5.1
Q59K86.1
Q5AFT2.1
Q59Y11.1
B8MYL0.1
M4VQY9.1
Q4WN21.1
Q4WYP0.1


Q5AKU6.1
Q5AGD1.1
Q5A0W6.1
Q59QA5.1
B8NM62.1
Q4WF53.1
Q4X1N0.1
Q4X0B5.1


Q59RL7.1
P79023.1
P0CB63.1
Q5AMJ5.1
B8NGT5.1
Q4WZ64.1
Q4WQV2.1
Q4WYK9.1


G1UB61.1
Q59LP6.1
Q59U11.1
Q5AMF7.1
B8NM64.1
Q4WAZ0.1
Q4WZP2.1
Q4WY33.1


Q5ABC6.1
Q5AP87.1
P83775.1
Q5ABW2.1
B8NV37.1
Q4WR16.1
Q4WVK2.1
Q4X1F8.1


A0A1D8PQB9.1
P22274.1
Q5APF2.1
Q5APJ9.1
B8N151.1
Q4WLB9.1
Q4WUA0.1
Q4WA45.1


P87020.1
Q5AC48.1
Q59VP2.1
Q5AM72.1
B8NEJ3.1
Q4WQS0.1
A4DA84.1
Q4WKD7.1


P0CY27.1
Q5AP59.1
Q5AEE1.1
Q5ACU3.1
B8N8M2.1
Q4WEP7.1
Q4WJX0.1
Q4WCH5.1


Q59XX2.1
Q59MV1.1
Q5AMR5.1
Q5A1V3.1
B8MYV0.1
E9R9Y3.1
Q4WP38.1
Q4WXY3.1


Q59U10.1
Q5AL27.1
Q59SU5.1
Q59RF7.1
B8N7I7.1
P41748.1
Q4X1D7.1
Q4WPL7.1


Q59RW5.1
Q5AJD2.1
Q59VP1.1
Q5ACN3.1
B8NJG3.1
Q4WYG3.1
Q4W9Z9.1
Q4X136.1


Q59MQ0.1
P0CU38.1
Q5ADQ0.1
Q5AHE8.1
B8N8R1.1
P87184.1
Q4WE62.1
Q4WZ44.1


Q5ABU7.1
Q59QC5.1
Q5AK59.1
Q5AHA4.1
B8NJH2.1
Q4WBS1.1
Q4WZL3.1
Q4WTC7.1


Q9Y7F0.1
Q5A5N6.1
Q59RH5.1
Q5AEG7.1
B8NQ51.1
Q70DX9.1
Q4WB37.1
Q4WMK2.1


Q5AC08.1
Q59Q79.1
Q5ACW8.1
Q59V01.1
B8NM63.1
Q4WG16.1
Q4W9Z4.1
Q4WNC9.1


P30575.1
Q5AH38.1
Q5AGM0.1
Q5AK97.1
B8NM73.1
Q96X30.1
Q4WDD0.1
Q4WY67.1


Q5AAG6.1
Q5AMN3.1
Q59VN2.1
Q5A1B2.1
B8NYX0.1
Q4WV19.1
Q4WKB9.1
Q4WU12.1


O74189.1
Q5A1Z5.1
O94069.1
Q5AJK6.1
B8N3P7.1
Q4WAZ6.1
Q4WU07.1
Q4WA61.1


Q59W62.1
Q5A6K2.1
P0CY20.1
Q59L96.1
B8NJH1.1
Q4W944.1
Q4WBL6.1
Q4WA58.1


P0CY34.1
Q59L25.1
Q59XQ1.1
Q59MD0.1
B8MXJ7.1
Q4WTV7.1
Q4WX13.1
Q4WA60.1


Q5A1D3.1
Q5A922.1
O94048.1
Q5AG46.1
B8NJB0.1
Q4WMJ9.1
Q4WV71.1
Q4WX36.1


Q5AJU7.1
Q5AFG1.1
Q5ADX2.1
Q59VW6.1
B8NPS7.1
Q4WZ65.1
Q4X0C2.1
Q4WA62.1


Q5A4H5.1
Q5ALR8.1
P46586.1
Q5A8I6.1
B8N7Z8.1
A0A067Z9B6.1
Q4WRU4.1
Q4WA59.1


Q59Y31.1
Q5AEI2.1
P83776.1
Q9UW24.1
B8NSV5.1
Q66WM4.1
Q4WGS4.1
Q4WXQ7.1


P0CY29.1
Q5AI71.1
Q5A895.1
Q59Q38.1
B8MZA3.1
Q6T267.1
Q4WP13.1
Q4WVA0.1


Q5ANJ4.1
Q5A3A6.1
Q59PP0.1
Q5ADL0.1
B8NLY9.1
Q4WLW5.1
Q4WHG5.1
Q4WDN4.1


Q59NH8.1
Q5A3X0.1
Q5AHH4.1
Q5AH11.1
B8NR69.1
Q4WMJ0.1
Q4WPF7.1
Q4WK03.1


P0CY33.1
Q5A4N0.1
Q96UX5.1
Q59W55.1
B8MZ41.1
Q4WQU0.1
Q4WH83.1
Q4WCG2.1


Q00310.1
Q59TN9.1
P87206.1
Q5AC37.1
B8N7S7.1
Q4WMJ8.1
Q4WXW1.1
Q4WX99.1


Q5A0W9.1
Q5A5S7.1
Q5A029.1
Q5A7Q3.1
B8NR71.1
Q4WWN8.1
Q8NJM2.1
Q4WV10.1


Q5A4M8.1
Q59UG3.1
Q5A1E0.1
Q59PV6.1
A0A0D9MRV9.1
Q4WZ63.1
Q4WWD3.1
Q4WIS6.1


Q5AJC0.1
P0C075.1
Q59XL0.1
P0CH96.1
P55790.1
Q4WVN4.1
Q4WPU8.1
Q4WP65.1


Q59SU1.1
Q59R09.1
Q5A6U1.1
P83782.1
B8NM72.1
Q4WAY8.1
Q4WN99.1
Q4WUK1.1


Q5AG71.1
Q9B8D4.1
Q5A8I8.1
Q5A660.1
B8MW78.1
Q4WY07.1
P0C959.1
Q4WKN3.1


Q5AMT2.1
Q9B8D3.1
Q59PR9.1
Q59YT1.1
Q9P900.1
Q4WZ66.1
Q4X0S7.1
Q4WG58.1


Q59KY8.1
Q9B8D5.1
O74261.1
P53709.1
B8NDE2.1
Q4WQZ5.1
Q4WPW2.1
Q4WXX9.1


Q59LY1.1
Q59LR2.1
Q96VB9.1
Q5ACX1.1
B8NJF4.1
O42630.1
Q4X1U0.1
Q4WC37.1


Q59UT4.1
Q5AED9.1
Q5AQ47.1
Q5ADP9.1
B8NIV9.1
P0C7S9.1
Q4WP57.1
Q4X1Y0.1


Q5ABC5.1
Q5A4W8.1
Q5A985.1
Q92210.1
B8NG16.1
Q4WI46.1
Q4WPH9.1
Q4WZL8.1


Q59MV9.1
Q5ANH2.1
Q59ZW2.1
Q59MA3.1
B8NX60.1
Q4WQY4.1
Q4WDK5.1
Q4WR80.1


Q59MD2.1
Q5A649.1
P83784.1
Q5AFK3.1
B8NM75.1
Q4WAY3.1
Q4WI71.1
Q4WY53.1


Q5A8N2.1
Q5AI22.1
Q59P11.1
Q59S63.1
B8MZZ6.1
Q4WT66.1
Q4WYS7.1
Q4WL88.1


P40953.1
Q5A950.1
Q5ADN8.1
Q5A0Y2.1
B8NM67.1
Q6MY57.1
Q4WY08.1
Q4WGV9.1


Q5APR8.1
Q5ANC9.1
Q5A849.1
Q5ALW7.1
B8NRX2.1
P0C954.1
Q4WND3.1
Q4WC29.1


P10613.1
Q59UH7.1
Q5A7R7.1
Q59W52.1
B8NXJ2.1
Q4W946.1
Q4X1D2.1
Q4WKV8.1


Q5A5Q6.1
Q5ALX8.1
Q59XB0.1
Q59S42.1
B8NMD3.1
Q4WMJ5.1
Q6MY91.1
Q4WYA5.1


Q5A4F3.1
Q5AI37.1
Q59P96.1
Q5A961.1
B8NBI2.1
Q70GH4.1
Q4WRV2.1
Q4WCM6.1


P43094.1
Q5ABV4.1
Q59SR6.1
Q59ST6.1
B8NPA4.1
Q4WUL6.1
Q4WRX4.1
Q4WKB2.1


Q9P940.1
Q5AKU4.1
Q9P975.1
Q59N74.1
B8N803.1
P61832.1
Q4WP03.1
Q4WNG7.1


Q5AJY5.1
Q59VY1.1
O94083.1
Q5A6P6.1
B8NPT0.1
Q4WG11.1
Q4WTA6.1
Q4WRE8.1


P39827.1
Q59Z51.1
Q5AIA4.1
Q59XM0.1
B8MXP5.1
Q4WYU4.1
Q4WZJ0.1
Q9P8P4.1


Q59WF4.1
Q59LV8.1
Q59YF4.1
Q5A4N5.1
B8NIB8.1
Q4WYR6.1
Q4W9S8.1
Q4WJS4.1


P83774.1
Q59X11.1
Q59XW9.1
Q5A6M2.1
B8N9H4.1
Q4WNE1.1
Q4X054.1
Q4WHW1.1


Q59Q46.1
Q5ABQ7.1
Q59WU8.1
Q5A5M7.1
B8NNK9.1
Q4WQZ6.1
Q4X1I3.1
Q4WYG7.1


Q59X23.1
Q59PZ3.1
Q5AAR0.1
Q5A6N8.1
B8NI03.1
Q4WWC6.1
Q4W9V1.1
Q4WJH4.1


P46614.1
O13332.1
Q5AQ62.1
Q9UVJ4.1
B8NM76.1
Q6Q487.1
Q4WDF1.1
Q4WJM6.1


Q5AQ33.1
Q5AHD6.1
Q59R35.1
Q59V88.1
B8NM79.1
P0C957.1
Q4WWN2.1
Q4WMB6.1


P82610.1
A0A1D8PPG4.1
Q5A847.1
Q59RA0.1
B8NJG9.1
Q4WM08.1
Q4WTH0.1
Q4WMU9.1


Q5AP80.1
Q5ADW3.1
Q5A6A4.1
Q59XU5.1
B8NPL7.1
Q4W9B8.1
Q4WJQ1.1
Q4WIF3.1


P46598.1
Q5AML6.1
Q5A4Q1.1
Q5AH12.1
B8NMR5.1
Q4WWJ1.1
Q4WKL7.1
Q4WEH7.1


Q5A506.1
Q5A846.1
P0CY22.1
Q59ZX3.1
B8NP65.1
E9RCR4.1
Q4WX90.1
Q4WT34.1


Q5A599.1
A0A1D8PPI5.1
P42800.1
Q5AB48.1
B8N5S6.1
Q4WM67.1
Q4WG69.1
Q4WT99.1


Q59NP5.1
P0CT51.1
Q59KI4.1
Q5A3Q0.1
B8NJ86.1
Q4WUN7.1
Q4WM32.1
Q4X0N1.1


Q5AHA0.1
Q59MA6.1
Q59JU3.1
Q5A6M0.1
P41747.1
E9QRF2.1
Q4W1I3.1
Q4WSA8.1


Q07730.1
Q5ALW2.1
P83777.1
Q5AL29.1
P41765.1
Q4WK60.1
Q4WHX4.1
Q4WLD1.1


Q5AD05.1
Q5ABU8.1
Q5A310.1
Q59KG2.1
B8N6V7.1
Q4WZ61.1
Q4WXE9.1
Q4WMU5.1


Q5AME2.1
Q5AEC6.1
Q59N80.1
O42825.1
B8NKE9.1
Q4W945.1
Q4X0X6.1
O13410.1


P41797.1
Q5A4X0.1
Q5AJ77.1
O59931.1
B8NGU6.1
Q4WMA6.1
Q4W8Z9.1
Q4WG40.1


P0CY24.1
Q59LX9.1
Q59ZV4.1
Q5AM44.1
B8NBP9.1
Q4WNS8.1
Q4WEB4.1
Q4WLD5.1


Q5ACZ2.1
Q59PE7.1
Q59XA7.1
Q59RP7.1
B8N8R2.1
Q4WDE9.1
Q4WDH3.1
Q4WLD4.1


Q5ABE2.1
Q5ACL9.1
Q59L13.1
Q5AK94.1
B8NKI4.1
Q4WUR1.1
Q4X1N4.1
Q4WLD2.1


Q59M56.1
Q5ABT8.1
Q5AG97.1
Q5AKB1.1
B8NQQ7.1
Q4WQ08.1
Q4WMP0.1
Q4WLC9.1


Q5AK51.1
Q5AMH3.1
Q5AB15.1
Q59VM4.1
B8NJH0.1
Q4WF61.1
A4D9B6.1
Q4WQ54.1


Q59UT5.1
Q5AEF0.1
Q59S66.1
Q5A246.1
B8NKB9.1
Q7LKT3.1
Q4WD45.1
Q4WAZ8.1


Q5AAF4.1
Q5AJC1.1
Q59KN8.1
Q5AJ92.1
B8NM78.1
Q4WQZ3.1
Q4WM95.1
Q4X161.1


G1UBC2.1
Q59VP0.1
Q5A8X9.1
Q5A2V2.1
B8NTP7.1
Q4WAZ3.1
Q4X0I8.1
Q4WB00.1


Q5ADT1.1
Q5AGC7.1
Q5AFP8.1
Q5ABP8.1
B8MWJ5.1
Q4WNV0.1
Q4WLV6.1
Q4WQ14.1


O59923.1
Q5AQ12.1
Q9P8W1.1
Q5AAV3.1
B8N7G5.1
Q4WRZ5.1
Q4W9R2.1
Q4WP12.1


Q5AL03.1
Q59X94.1
Q9P8W0.1
Q59SN0.1
B8NER4.1
Q4WPF2.1
Q4WAW8.1
Q4WCR3.1


Q5A2Z7.1
Q5AFX2.1
Q9P4E7.1
Q5ACU6.1
B8NJH3.1
Q8TFZ1.1
Q4WMS0.1
Q4WAQ9.1


Q59VH7.1
Q5A1E3.1
Q9P8V9.1
Q9Y7C4.1
B8NDL1.1
Q4WB03.1
Q4WAW5.1
Q6MYX6.1


Q59KZ1.1
O43101.1
Q5A7Q6.1
Q9HFQ7.1
B8NWY6.1
P40292.1
Q4WAX0.1
Q4WZJ6.1


Q5A960.1
Q59WU0.1
Q5A6N1.1
Q5A3J1.1
B8NC58.1
Q4WPN0.1
Q4WTQ4.1
Q4WP59.1


Q5AFA2.1
Q5A893.1
Q5AI58.1
P40910.1
B8NIM4.1
Q4X1D4.1
Q4WJ80.1
Q4WLC8.1


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Model Population

The method may comprise the step of selecting or defining a model human population. A suitable model population is one that is relevant to the human population or a subpopulation in which it is intended to use the peptides designed or prepared by the method to induce a T cell response. This may be referred to as the target population or the intent-to-treat population. The peptides or the encoded peptides designed or produced by the method are for use in a method of inducing a T cell response against the target polypeptide in a subject of the intent-to-treat population. A relevant population is one that is representative or similar to the intent-to-treat population. In some cases the model population is representative for the whole human race. In other cases the model population may be a disease- and/or subject-matched population (subpopulation), for example a subpopulation matched to the intent-to-treat population by ethnicity, geographical location, gender, age, disease or cancer, disease or cancer type or stage, genotype, and/or expression of one or more biomarkers (for example, women having the BRCA mutation for a breast cancer vaccine), and/or partially by HLA genotype (for example subjects have one or more particular HLA alleles). In some cases the intent-to-treat population may be subjects having cancer or a type of cancer, such as any described herein. For example, the model population may have HLA class I and/or class II genomes that are representative of those found in the world population, or a subject and/or disease matched subpopulation. In some cases the model population is representative for at least 70%, or 75% or 80% or 84% or 85% or 86% or 90% or 95% of the intent-to-treat population by HLA diversity and/or HLA frequency. In some cases the model population may comprise at least 100, or 200 or 300 or 400 or 500 or 1000 or 5000 or 10000 or 15000 subjects.


Each subject in the model population is minimally defined by their HLA class I or class II genotype, e.g. complete 4-digit HLA class I genotype. Data concerning the HLA genotype of the model population may be stored or recorded in or retrieved from a database or be an in silico model human population.


HLA-Binding Criteria

The method comprises the step of identifying, for each subject of the model population, amino acid sequences within the target polypeptide that meet certain HLA-binding criteria, such as comprising a T cell epitope that can bind to multiple HLA class I and/or class II HLA molecules as described herein. For example, amino acid sequences that comprise a T cell epitope that is capable of binding to at least three HLA class I alleles of a subject and/or a T cell epitope that is capable of binding to at least three or four HLA class II alleles of the subject are optimal for inducing CD4+ T cell and/or CD8+ T cell responses. In some cases the HLA class I-binding T cell epitope and the HLC class II binding T cell epitope may overlap. In some cases the HLA class I binding T cell epitope may be fully embedded in the sequence of the HLA class II binding T cell epitope. In some cases the multiple HLA class I and class II binding epitopes are within a minimum distance on one another, such as both within a 50, or 45, or 40, or 35, or 30, or 25 amino acid fragment of the target polypeptide.


The method comprises selecting a polypeptide fragment window length. The polypeptide fragment window length defines the fragment length across the target polypeptide used to identify hotspots where the maximum number of subjects in the model population have an amino acid sequence that meets the HLA-binding criteria. The polypeptide fragment window length may be from 9 to 50 amino acids long.


Peptides that comprise a hotspot sequence as identified by the method described herein may be particularly useful for inducing T cell responses in a high proportion of the subjects of the intent-to-treat population. Peptides comprising such sequences may accordingly be designed or prepared according to the present disclosure and used in methods of treatment.


The peptide may consist of the amino acid sequence of the hotspot fragment of the target polypeptide or may comprise the sequence of a longer fragment of the target polypeptide of which the hotpot sequence is a part. In some cases the target polypeptide fragment may be flanked at the N and/or C terminus of the peptide by additional amino acids that are not part of the consecutive sequence of the target polypeptide antigen. In some cases the fragment may be flanked by up to 30 or 25 or 20 or 15 or 10, or 9 or 8 or 7 or 6 or 5 or 4 or 3 or 2 or 1 additional amino acid at the N and/or C terminus.


In some cases the method of the disclosure may be repeated in an iterative process to identify further fragments of the target polypeptide antigen that meet the HLA-binding criteria in subjects of the model population. In some case the method may be repeated in up to 50, 45, 40, 35, 30, 25, 20, 19, 18, 17, 16, 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2 or 1 cycles of the method described herein.


In some cases, the object of the iterative process may be to identify the minimum number of peptides or hotspots that will induce the desired T cell responses (cytotoxic T cell response and/or helper T cell response) in the maximum number of subjects in the model or intent-to-treat population. In this case it is desirable to remove from the model population those subjects for whom the hotspots or peptides selected in any previous rounds already meet the desired criteria before repeating the method in a further cycle. The iterative method may in some cases be continued until either no more sequences meeting the HLA-binding criteria can be identified or a pre-defined number of cycles, number of hotspots, or pre-defined minimal coverage of the model or intent-to-treat population is reached.


In some cases further predefined criteria may be applied to the hotspot selection process. If a particular hotspot sequence does not meet such additional criteria then the hotspot may be disregarded and another amino acid sequence of the selected window length and meeting the HLA-binding criteria for the next highest number of subjects in the model population may be selected, until a sequence is reached that meets the additional predefined criteria. In an iterative process, the subjects of the model population for which the selected sequence meets all of the HLA-binding criteria and other criteria should be removed from the model population before proceeding to the next cycle.


In one example, the additional predefined criteria may relate to features of the peptide sequence that influence manufacturing feasibility. For example, in some cases a peptide/hotspot sequence may be rejected in it comprises a particular amino acid residue, such as a cysteine, or a particular amino acid motif, or if the peptide/hotspot sequence has less than a minimum level of hydrophilicity.


The method of the disclosure may be used to provide peptides that are useful for inducing T cell responses against a given polypeptide, or to provide an ideal set of peptides from which to select a peptide for inducing T cell responses against one or more given polypeptides in a specific subject of a given human population.


In other cases the method may be repeated for a set of polypeptides, for example a set of polypeptides that are associated with the same disease or condition, such as polypeptides that are expressed by the same pathogen or type of pathogen, or associated with the same cancer or type of cancer, such as those disclosed herein. The method may then provide an ideal set of peptides from which to select peptides to treat the disease or condition in a specific subject of a given human population.


Panels of Peptides

In some cases the disclosure provides a panel of peptides or a panel of polynucleic acids or vectors encoding a panel of peptides. The panel may be suitable for use in a method of inducing a T cell response against one or more target polypeptides in a subject of an intent-to-treat human population. The intent-to-treat human population may be a population as described herein and may be defined by the HLA genotype distribution in the subjects of the intent-to-treat population as described herein.


In some cases the panel is a panel designed and/or prepared according to the methods described herein. In other cases the panel comprises or encodes two or more peptides designed and/or prepared according to the method described herein.


In other cases the panel comprises or encodes two or more peptides, wherein each peptide comprises a fragment of the one or more target polypeptide, wherein the fragment comprises, in a high proportion of the intent-to-treat population, a sequence that meets any of the HLA-binding criteria described herein. In some cases a “high” percentage may be at least or more than 1%, 2%, 5%, 10%, 12%, 15%, 16%, 17%, 18%, 19%, 20%, 21%, 22%, 23%, 24%, 25%, 26%, 27%, 28%, 29%, 30%, 31%, 32%, 33%, 34%, 35%, 36%, 37%, 38%, 39%, 40%, 41%, 42%, 43%, 44%, 45%, 46%, 47%, 48%, 49% or 50% of an intent-to-treat population as described herein.


The peptides of the panel may have any of the characteristics of a peptide described herein. For example, each peptide may be 9-50 amino acids in length; may comprise a fragment of the one or more target polypeptides that is 9-50 amino acids in length and meets the HLA-binding requirements; the target polypeptide fragment may be flanked at the N and/or C terminus of the peptide by additional amino acids that are not part of the consecutive sequence of the target polypeptide antigen; and/or the target polypeptide(s) may be any described herein, for example any of those listed in Tables 2 to 5.


In some cases the target polypeptide of each peptide of the panel may be the same; i.e each peptide comprises a different fragment of the target polypeptide, each of which meets the HLA-binding requirements in a high proportion of the intent-to-treat population. The panel then represents a selection of peptides that may be used to induce T cell responses against the same target polypeptide in different HLA-matched subjects. In some cases the fragments of the target polypeptide in the peptides of the panel do not overlap or do not comprise any common T cell epitopes or PEPIs.


In other cases the panel may comprise peptides that are designed to induce T cell responses against different target polypeptides, that is the selected fragments of the target polypeptides comprised in the peptides are from different target polypeptides. In some cases the panel comprises such fragments from at least 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39 or 40 different target polypeptides.


The different target polypeptides may be any different polypeptides that it is useful to target or that can be selectively targeted with different PEPIs as described herein. In some cases different target polypeptide antigens are non-homologues or non-paralogues or have less than 95%, or 90%, or 85% or 80% or 75% or 70% or 60% or 50% sequence identity across the full length of each polypeptide.


In some cases the different target polypeptides targeted by the peptides of a panel are each expressed by or associated with the same disease, condition, pathogen or cancer, such as any described herein. Such a panel of peptides may be ideal for use in treatment of the disease or condition in a subject in need thereof, particularly if the peptides are HLA/PEPI matched to the specific subject as described herein.


In some cases one or more or each of the target polypeptides is present in a sample taken from a human subject. This indicates that the polypeptide(s) are expressed in the subject, for example a cancer- or tumor-associated antigen, TSA or CTA expressed by cancer cells of the subject.


In some cases 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, or 25 or more or each of the target polypeptide antigens is a TSA and/or a CTA.


Selection of Polypeptides and Patients

The peptides described herein may be used to induce T cell responses or provide vaccination or immunotherapy in a subject in need therefore. More than one peptide will typically be selected for treatment of a subject. Each peptide may be selected for treatment of a subject based on (i) the disease or condition to be treated in the subject; and/or (ii) the HLA genotype of the subject.


Each peptide selected for treatment of a subject may comprise a fragment as described herein of a target polypeptide antigen that is associated with the disease or condition to be treated in the subject, or expressed by target cells of the treatment, such as cancer cells. The disease or condition and the target polypeptide antigens may be any described herein. Typically each peptide selected for treatment of the subject will comprise a fragment as described herein of a different target polypeptide antigen. The target polypeptide antigens may be selected because they are known to be expressed by target cells in the subject. For example the target polypeptide antigens may have been detected in a sample obtained from the subject, such as a tumor biopsy. In other cases, the target polypeptide antigens may be selected based on their expression rate in the cells that are targeted by the treatment, for example the expression rate of a particular TAA in cancer or a particular type of cancer, such as any described herein. Typically the peptides selected for the treatment of the subject are those that comprise a fragment as described herein of the polypeptide antigens associated with the condition at the highest expression rates for the condition to be treated. Further the fragments typically have been predicted to induce a T cell response in the specific subject, as further described herein.


Polypeptide antigens, and particularly short peptides derived from polypeptide antigens, that are commonly used in vaccination and immunotherapy, induce immune responses in only a fraction of human subjects. The peptides of the present disclosure are specifically selected to induce immune responses in a high proportion of the general population, or a high proportion of a given intent-to-treat population. However, but they may not be effective in all individuals or all subjects of the intent-to-treat population due to HLA genotype heterogeneity.


In some cases the present disclosure provides a method of predicting that a specific human subject will have a T cell response (cytotoxic and/or helper) to administration of any of the peptides, panels of peptides or pharmaceutical compositions or kits described herein. As provided herein T cell epitope presentation by multiple HLAs of an individual is generally needed to trigger a T cell response. The best predictor of a cytotoxic (CD8+) T cell response to a given polypeptide is the presence of at least one T cell epitope that is presented by at least three HLA class I alleles of a subject (≥1 PEPI3+). Similarly the presence of at least one T cell epitope that is presented by at least three or four HLA class II alleles of a subject may be predictive of a helper (CD4+) T cell response. If such T cell epitopes correspond to a fragment of a target polypeptide antigen, such as any target polypeptide antigen described herein, then the subject is predicted to mount a T cell response that targets cells in the subject that express the target polypeptide, if present. Accordingly in some cases the method may be for predicting a T cell response in a subject to a target polypeptide antigen, such as any described herein.


The inventors have further discovered that the presence in a vaccine or immunotherapy composition of at least two T cell epitopes that (i) correspond to fragments of one or more target polypeptide antigens, and (ii) can bind to at least three HLA class I alleles of an individual is predictive for a clinical response. For example, if an individual has a total of ≥2 PEPI3+ within the active ingredient peptide(s) of a vaccine or immunotherapy composition, and these PEPI3+s are derived from polypeptide antigens that are in fact expressed by target cells in the individual (for example, target tumor cells of the individual express the target tumor-associated antigens), then the individual is a likely clinical responder (i.e. a clinically relevant immune responder).


A “clinical response” or “clinical benefit” as used herein may be the prevention or a delay in the onset of a disease or condition, the amelioration of one or more symptoms, the induction or prolonging of remission, or the delay of a relapse or recurrence or deterioration, or any other improvement or stabilisation in the disease status of a subject. Where appropriate, a “clinical response” may correlate to “disease control” or an “objective response” as defined by the Response Evaluation Criteria In Solid Tumors (RECIST) guidelines.


Accordingly some aspects of the disclosure relate to a method of predicting that a specific human subject will have a clinical response to a method of treatment as described herein or to administration of a pharmaceutical composition or the peptides, nucleic acids or vectors of a pharmaceutical kit described herein.


In some cases the method comprises determining that the active ingredient peptide(s) for treatment of the subject comprise two or more different amino acid sequences each of which is a) a fragment of a target polypeptide antigen expressed by target cells of the subject (for example, polypeptide antigens that have been detected in a biopsy); and b) a T cell epitope capable of binding to at least three HLA class I of the subject.


In some cases the likelihood that a subject will have a clinical response to a peptide vaccine or immunotherapy composition, such as those described herein, can be determined without knowing whether the target antigens are expressed in target cells, such as cancer cells of the subject and/or without determining the HLA class I genotype of the subject. Known antigen expression frequencies in the disease (e.g. MAGE-A3 in a tumor type like gastric cancer) and/or known frequencies for HLA class I and class II genotype of subjects in the target population (e.g ethnic population, general population, diseased population) may be used instead.


The likelihood that a subject will respond to treatment is increased by (i) the presence of more multiple HLA-binding PEPIs in the active ingredient polypeptides; (ii) the presence of PEPIs in more target polypeptide antigens; and (iii) expression of the target polypeptide antigens in the subject or in diseased cells of the subject. The probability that target cells in the subject (over-)express a specific or any combination of target polypeptide antigens may be determined using population expression frequency data (expression rates), e.g. probability of expression of an antigen in gastric cancer. The population expression frequency data may relate to a subject- and/or disease-matched population or the intent-to-treat population. For example, the frequency or probability of expression of a particular cancer-associated antigen in a particular cancer or subject having a particular cancer, for example breast cancer, can be determined by detecting the antigen in tumor, e.g. breast cancer tumor samples. Such expression frequencies may be determined from published figures and scientific publications. In some cases a method of the disclosure may comprise a step of determining the expression frequency of a relevant target polypeptide antigen in a relevant population.


Disclosed is a range of pharmacodynamic biomarkers to predict the activity/effect of vaccines in individual human subjects as well as in populations of human subjects. These biomarkers expedite more effective vaccine development and also decrease the development cost and may be used to assess and compare different compositions. Exemplary biomarkers are as follows.

    • AG95—potency of a vaccine: The number of antigens in a cancer vaccine that a specific tumor type expresses with 95% probability. AG95 is an indicator of the vaccine's potency, and is independent of the immunogenicity of the vaccine antigens. AG95 is calculated from the tumor antigen expression rate data. Such data may be obtained from experiments published in peer reviewed scientific journals. Technically, AG95 is determined from the binomial distribution of antigens in the vaccine, and takes into account all possible variations and expression rates.
    • PEPI3+ count—immunogenicity of a vaccine in a subject: Vaccine-derived PEPI3+ are personal epitopes that bind to at least 3 HLAs of a subject and induce T cell responses. PEPI3+ can be determined using the PEPI3+ Test in subjects who's complete 4-digit HLA genotype is known.
    • AP count—antigenicity of a vaccine in a subject: Number of vaccine antigens with PEPI3+. Vaccines contain sequences from target polypeptide antigens expressed by diseased cells. AP count is the number of antigens in the vaccine that contain PEPI3+, and the AP count represents the number of antigens in the vaccine that can induce T cell responses in a subject. AP count characterizes the vaccine-antigen specific T cell responses of the subject since it depends only on the HLA genotype of the subject and is independent of the subject's disease, age, and medication. The correct value is between 0 (no PEPI presented by the antigen) and maximum number of antigens (all antigens present PEPIs).
    • AP50—antigenicity of a vaccine in a population: The mean number of vaccine antigens with a PEPI in a population. The AP50 is suitable for the characterization of vaccine-antigen specific T cell responses in a given population since it depends on the HLA genotype of subjects in a population.
    • AGP count—effectiveness of a vaccine in a subject: Number of vaccine antigens expressed in the tumor with PEPI. The AGP count indicates the number of tumor antigens that vaccine recognizes and induces a T cell response against (hit the target). The AGP count depends on the vaccine-antigen expression rate in the subject's tumor and the HLA genotype of the subject. The correct value is between 0 (no PEPI presented by expressed antigen) and maximum number of antigens (all antigens are expressed and present a PEPI).
    • AGP50—effectiveness of a cancer vaccine in a population: The mean number of vaccine antigens expressed in the indicated tumor with PEPI (i.e., AGP) in a population. The AGP50 indicates the mean number of tumor antigens that the T cell responses induced by the vaccine can recognize. AGP50 is dependent on the expression rate of the antigens in the indicated tumor type and the immunogenicity of the antigens in the target population. AGP50 can estimate a vaccine's effectiveness in different populations and can be used to compare different vaccines in the same population. The computation of AGP50 is similar to that used for AG50, except the expression is weighted by the occurrence of the PEPI3+ in the subject on the expressed vaccine antigens. In a theoretical population, where each subject has a PEPI from each vaccine antigen, the AGP50 will be equal to AG50. In another theoretical population, where no subject has a PEPI from any vaccine antigen, the AGP50 will be 0. In general, the following statement is valid: 0≤AGP50≤AG50.
    • mAGP—a candidate biomarker for the selection of likely responders: Likelihood that a cancer vaccine induces T cell responses against multiple antigens expressed in the indicated tumor. mAGP is calculated from the expression rates of vaccine-antigens in the tumor and the presence of vaccine derived PEPIs in the subject. Technically, based on the AGP distribution, the mAGP is the sum of probabilities of the multiple AGP (≥2 AGPs).


The results of a prediction as set out above may be used to inform a physician's decisions concerning treatment of the subject. Accordingly, in some cases the method of the disclosure predicts that a subject will have or is likely to have a T cell response and/or a clinical response to a treatment as described herein, and the method further comprises selecting the treatment for the human subject. In some cases a subject is selected for treatment if their likelihood of a response targeted at a predefined number of target polypeptide antigens, optionally wherein the target polypeptide antigens are (predicted to be) expressed, is above a predetermined threshold. In some cases the number of target polypeptide antigens or epitopes is two. In some cases the number of target polypeptide antigens or epitopes is three, or four, or five, or six, or seven, or eight, or nine, or ten. The method may further comprise administering the treatment to the human subject. Alternatively, the method may predict that the subject will not have an immune response and/or a clinical response and further comprise selecting a different treatment for the subject.


Pharmaceutical Compositions, Methods of Treatment and Modes of Administration

In some aspects the disclosure relates to a pharmaceutical composition or kit comprising one or more of the peptides, polynucleic acids or vectors described herein. Such pharmaceutical compositions or kits may be for use in a method of inducing an immune response, treating, vaccinating or providing immunotherapy to a subject. The pharmaceutical composition or kit may be a vaccine or immunotherapy composition or kit. Such treatment may comprise administering the pharmaceutical composition or the peptides, polynucleic acids or vectors of the kit to the subject.


The pharmaceutical compositions or kits described herein may comprise, in addition to one or more peptides, nucleic acids or vectors, a pharmaceutically acceptable excipient, carrier, diluent, buffer, stabiliser, preservative, adjuvant or other materials well known to those skilled in the art. Such materials are preferably non-toxic and preferably do not interfere with the pharmaceutical activity of the active ingredient(s). The pharmaceutical carrier or diluent may be, for example, water containing solutions. The precise nature of the carrier or other material may depend on the route of administration, e.g. oral, intravenous, cutaneous or subcutaneous, nasal, intramuscular, intradermal, and intraperitoneal routes.


The pharmaceutical compositions of the disclosure may comprise one or more “pharmaceutically acceptable carriers”. These are typically large, slowly metabolized macromolecules such as proteins, saccharides, polylactic acids, polyglycolic acids, polymeric amino acids, amino acid copolymers, sucrose (Paoletti et al., 2001, Vaccine, 19:2118), trehalose (WO 00/56365), lactose and lipid aggregates (such as oil droplets or liposomes). Such carriers are well known to those of ordinary skill in the art. The pharmaceutical compositions may also contain diluents, such as water, saline, glycerol, etc. Additionally, auxiliary substances, such as wetting or emulsifying agents, pH buffering substances, and the like, may be present. Sterile pyrogen-free, phosphate buffered physiologic saline is a typical carrier (Gennaro, 2000, Remington: The Science and Practice of Pharmacy, 20th edition, ISBN:0683306472).


The pharmaceutical compositions of the disclosure may be lyophilized or in aqueous form, i.e. solutions or suspensions. Liquid formulations of this type allow the compositions to be administered direct from their packaged form, without the need for reconstitution in an aqueous medium, and are thus ideal for injection. The pharmaceutical compositions may be presented in vials, or they may be presented in ready filled syringes. The syringes may be supplied with or without needles. A syringe will include a single dose, whereas a vial may include a single dose or multiple doses.


Liquid formulations of the disclosure are also suitable for reconstituting other medicaments from a lyophilized form. Where a pharmaceutical composition is to be used for such extemporaneous reconstitution, the disclosure provides a kit, which may comprise two vials, or may comprise one ready-filled syringe and one vial, with the contents of the syringe being used to reconstitute the contents of the vial prior to injection.


The pharmaceutical compositions of the disclosure may include an antimicrobial, particularly when packaged in a multiple dose format. Antimicrobials may be used, such as 2-phenoxyethanol or parabens (methyl, ethyl, propyl parabens). Any preservative is preferably present at low levels. Preservative may be added exogenously and/or may be a component of the bulk antigens which are mixed to form the composition (e.g. present as a preservative in pertussis antigens).


The pharmaceutical compositions of the disclosure may comprise detergent e.g. Tween (polysorbate), DMSO (dimethyl sulfoxide), DMF (dimethylformamide). Detergents are generally present at low levels, e.g. <0.01%, but may also be used at higher levels, e.g. 0.01-50%.


The pharmaceutical compositions of the disclosure may include sodium salts (e.g. sodium chloride) and free phosphate ions in solution (e.g. by the use of a phosphate buffer).


In certain embodiments, the pharmaceutical composition may be encapsulated in a suitable vehicle either to deliver the peptides into antigen presenting cells or to increase the stability. As will be appreciated by a skilled artisan, a variety of vehicles are suitable for delivering a pharmaceutical composition of the disclosure. Non-limiting examples of suitable structured fluid delivery systems may include nanoparticles, liposomes, microemulsions, micelles, dendrimers and other phospholipid-containing systems. Methods of incorporating pharmaceutical compositions into delivery vehicles are known in the art.


In order to increase the immunogenicity of the composition, the pharmacological compositions may comprise one or more adjuvants and/or cytokines.


Suitable adjuvants include an aluminum salt such as aluminum hydroxide or aluminum phosphate, but may also be a salt of calcium, iron or zinc, or may be an insoluble suspension of acylated tyrosine, or acylated sugars, or may be cationically or anionically derivatised saccharides, polyphosphazenes, biodegradable microspheres, monophosphoryl lipid A (MPL), lipid A derivatives (e.g. of reduced toxicity), 3-O-deacylated MPL [3D-MPL], quil A, Saponin, QS21, Freund's Incomplete Adjuvant (Difco Laboratories, Detroit, Mich.), Merck Adjuvant 65 (Merck and Company, Inc., Rahway, N.J.), AS-2 (Smith-Kline Beecham, Philadelphia, Pa.), CpG oligonucleotides, bioadhesives and mucoadhesives, microparticles, liposomes, polyoxyethylene ether formulations, polyoxyethylene ester formulations, muramyl peptides or imidazoquinolone compounds (e.g. imiquamod and its homologues). Human immunomodulators suitable for use as adjuvants in the disclosure include cytokines such as interleukins (e.g. IL-1, IL-2, IL-4, IL-5, IL-6, IL-7, IL-12, etc), macrophage colony stimulating factor (M-CSF), tumour necrosis factor (TNF), granulocyte, macrophage colony stimulating factor (GM-CSF) may also be used as adjuvants.


In some embodiments, the compositions comprise an adjuvant selected from the group consisting of Montanide ISA-51 (Seppic, Inc., Fairfield, N.J., United States of America), QS-21 (Aquila Biopharmaceuticals, Inc., Lexington, Mass., United States of America), GM-CSF, cyclophosamide, bacillus Calmette-Guerin (BCG), Corynbacterium parvum, levamisole, azimezone, isoprinisone, dinitrochlorobenezene (DNCB), keyhole limpet hemocyanins (KLH), Freunds adjuvant (complete and incomplete), mineral gels, aluminum hydroxide (Alum), lysolecithin, pluronic polyols, polyanions, oil emulsions, dinitrophenol, diphtheria toxin (DT).


By way of example, the cytokine may be selected from the group consisting of a transforming growth factor (TGF) such as but not limited to TGF-α and TGF-β; insulin-like growth factor-I and/or insulin-like growth factor-II; erythropoietin (EPO); an osteoinductive factor; an interferon such as but not limited to interferon-α, -β, and -γ; a colony stimulating factor (CSF) such as but not limited to macrophage-CSF (M-CSF); granulocyte-macrophage-CSF (GM-CSF); and granulocyte-CSF (G-CSF). In some embodiments, the cytokine is selected from the group consisting of nerve growth factors such as NGF-β; platelet-growth factor; a transforming growth factor (TGF) such as but not limited to TGF-α, and TGF-β; insulin-like growth factor-I and insulin-like growth factor-II; erythropoietin (EPO); an osteoinductive factor; an interferon (IFN) such as but not limited to IFN-α, IFN-β, and IFN-γ; a colony stimulating factor (CSF) such as macrophage-CSF (M-CSF); granulocyte-macrophage-CSF (GM-CSF); and granulocyte-CSF (G-CSF); an interleukin (I1) such as but not limited to IL-1, IL-1.alpha., IL-2, IL-3, IL-4, IL-5, IL-6, IL-7, IL-8, IL-9, IL-10, IL-11, IL-12; IL-13, IL-14, IL-15, IL-16, IL-17, IL-18; LIF; kit-ligand or FLT-3; angiostatin; thrombospondin; endostatin; a tumor necrosis factor (TNF); and LT.


It is expected that an adjuvant or cytokine can be added in an amount of about 0.01 mg to about 10 mg per dose, preferably in an amount of about 0.2 mg to about 5 mg per dose. Alternatively, the adjuvant or cytokine may be at a concentration of about 0.01 to 50%, preferably at a concentration of about 2% to 30%.


In certain aspects, the pharmaceutical compositions of the disclosure are prepared by physically mixing the adjuvant and/or cytokine with the PEPIs under appropriate sterile conditions in accordance with known techniques to produce the final product.


Examples of suitable compositions of polypeptide fragments and methods of administration are provided in Esseku and Adeyeye (2011) and Van den Mooter G. (2006). Vaccine and immunotherapy composition preparation is generally described in Vaccine Design (“The subunit and adjuvant approach” (eds Powell M. F. & Newman M. J. (1995) Plenum Press New York). Encapsulation within liposomes, which is also envisaged, is described by Fullerton, U.S. Pat. No. 4,235,877.


In some embodiments, the compositions disclosed herein are prepared as a nucleic acid vaccine. In some embodiments, the nucleic acid vaccine is a DNA vaccine. In some embodiments, DNA vaccines, or gene vaccines, comprise a plasmid with a promoter and appropriate transcription and translation control elements and a nucleic acid sequence encoding one or more polypeptides of the disclosure. In some embodiments, the plasmids also include sequences to enhance, for example, expression levels, intracellular targeting, or proteasomal processing. In some embodiments, DNA vaccines comprise a viral vector containing a nucleic acid sequence encoding one or more polypeptides of the disclosure. In additional aspects, the compositions disclosed herein comprise one or more nucleic acids encoding peptides determined to have immunoreactivity with a biological sample. For example, in some embodiments, the compositions comprise one or more nucleotide sequences encoding 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, or more peptides comprising a fragment that is a T cell epitope capable of binding to at least three HLA class I molecules and/or at least three or four HLA class II molecules of a patient. In some embodiments, the peptides are derived from an antigen that is expressed in cancer. In some embodiments the DNA or gene vaccine also encodes immunomodulatory molecules to manipulate the resulting immune responses, such as enhancing the potency of the vaccine, stimulating the immune system or reducing immunosuppression. Strategies for enhancing the immunogenicity of DNA or gene vaccines include encoding of xenogeneic versions of antigens, fusion of antigens to molecules that activate T cells or trigger associative recognition, priming with DNA vectors followed by boosting with viral vector, and utilization of immunomodulatory molecules. In some embodiments, the DNA vaccine is introduced by a needle, a gene gun, an aerosol injector, with patches, via microneedles, by abrasion, among other forms. In some forms the DNA vaccine is incorporated into liposomes or other forms of nanobodies. In some embodiments, the DNA vaccine includes a delivery system selected from the group consisting of a transfection agent; protamine; a protamine liposome; a polysaccharide particle; a cationic nanoemulsion; a cationic polymer; a cationic polymer liposome; a cationic nanoparticle; a cationic lipid and cholesterol nanoparticle; a cationic lipid, cholesterol, and PEG nanoparticle; a dendrimer nanoparticle. In some embodiments, the DNA vaccines are administered by inhalation or ingestion. In some embodiments, the DNA vaccine is introduced into the blood, the thymus, the pancreas, the skin, the muscle, a tumor, or other sites.


In some embodiments, the compositions disclosed herein are prepared as an RNA vaccine. In some embodiments, the RNA is non-replicating mRNA or virally derived, self-amplifying RNA. In some embodiments, the non-replicating mRNA encodes the peptides disclosed herein and contains 5′ and 3′ untranslated regions (UTRs). In some embodiments, the virally derived, self-amplifying RNA encodes not only the peptides disclosed herein but also the viral replication machinery that enables intracellular RNA amplification and abundant protein expression. In some embodiments, the RNA is directly introduced into the individual. In some embodiments, the RNA is chemically synthesized or transcribed in vitro. In some embodiments, the mRNA is produced from a linear DNA template using a T7, a T3, or an Sp6 phage RNA polymerase, and the resulting product contains an open reading frame that encodes the peptides disclosed herein, flanking UTRs, a 5′ cap, and a poly(A) tail. In some embodiments, various versions of 5′ caps are added during or after the transcription reaction using a vaccinia virus capping enzyme or by incorporating synthetic cap or anti-reverse cap analogues. In some embodiments, an optimal length of the poly(A) tail is added to mRNA either directly from the encoding DNA template or by using poly(A) polymerase. The RNA may encode one or more peptides comprising a fragment that is a T cell epitope capable of binding to at least three HLA class I and/or at least three or four HLA class II molecules of a patient. In some embodiments, the fragments are derived from an antigen that is expressed in cancer. In some embodiments, the RNA includes signals to enhance stability and translation. In some embodiments, the RNA also includes unnatural nucleotides to increase the half-life or modified nucleosides to change the immunostimulatory profile. In some embodiments, the RNAs is introduced by a needle, a gene gun, an aerosol injector, with patches, via microneedles, by abrasion, among other forms. In some forms the RNA vaccine is incorporated into liposomes or other forms of nanobodies that facilitate cellular uptake of RNA and protect it from degradation. In some embodiments, the RNA vaccine includes a delivery system selected from the group consisting of a transfection agent; protamine; a protamine liposome; a polysaccharide particle; a cationic nanoemulsion; a cationic polymer; a cationic polymer liposome; a cationic nanoparticle; a cationic lipid and cholesterol nanoparticle; a cationic lipid, cholesterol, and PEG nanoparticle; a dendrimer nanoparticle; and/or naked mRNA; naked mRNA with in vivo electroporation; protamine-complexed mRNA; mRNA associated with a positively charged oil-in-water cationic nanoemulsion; mRNA associated with a chemically modified dendrimer and complexed with polyethylene glycol (PEG)-lipid; protamine-complexed mRNA in a PEG-lipid nanoparticle; mRNA associated with a cationic polymer such as polyethylenimine (PEI); mRNA associated with a cationic polymer such as PEI and a lipid component; mRNA associated with a polysaccharide (for example, chitosan) particle or gel; mRNA in a cationic lipid nanoparticle (for example, 1,2-dioleoyloxy-3-trimethylammoniumpropane (DOTAP) or dioleoylphosphatidylethanolainine (DOPE) lipids); snRNA complexed with cationic lipids and cholesterol; or mRNA complexed with cationic lipids, cholesterol and PEG-lipid. In some embodiments, the RNA vaccine is administered by inhalation or ingestion. In some embodiments, the RNA is introduced into the blood, the thymus, the pancreas, the skin, the muscle, a tumor, or other sites, and/or by an intradermal, intramuscular, subcutaneous, intranasal, intranodal, intravenous, intrasplenic, intratumoral or other delivery route.


Polynucleotide or oligonucleotide components may be naked nucleotide sequences or be in combination with cationic lipids, polymers or targeting systems. They may be delivered by any available technique. For example, the polynucleotide or oligonucleotide may be introduced by needle injection, preferably intradermally, subcutaneously or intramuscularly. Alternatively, the polynucleotide or oligonucleotide may be delivered directly across the skin using a delivery device such as particle-mediated gene delivery. The polynucleotide or oligonucleotide may be administered topically to the skin, or to mucosal surfaces for example by intranasal, oral, or intrarectal administration.


Uptake of polynucleotide or oligonucleotide constructs may be enhanced by several known transfection techniques, for example those including the use of transfection agents. Examples of these agents include cationic agents, for example, calcium phosphate and DEAE-Dextran and lipofectants, for example, lipofectam and transfectam. The dosage of the polynucleotide or oligonucleotide to be administered can be altered.


Administration is typically in a “prophylactically effective amount” or a “therapeutically effective amount” (as the case may be, although prophylaxis may be considered therapy), this being sufficient to result in a clinical response or to show clinical benefit to the individual, e.g. an effective amount to prevent or delay onset of the disease or condition, to ameliorate one or more symptoms, to induce or prolong remission, or to delay relapse or recurrence.


The dose may be determined according to various parameters, especially according to the substance used; the age, weight and condition of the individual to be treated; the route of administration; and the required regimen. The amount of antigen in each dose is selected as an amount which induces an immune response. A physician will be able to determine the required route of administration and dosage for any particular individual. The dose may be provided as a single dose or may be provided as multiple doses, for example taken at regular intervals, for example 2, 3 or 4 doses administered hourly. Typically peptides, polynucleotides or oligonucleotides are typically administered in the range of 1 pg to 1 mg, more typically 1 pg to 10 μg for particle mediated delivery and 1 μg to 1 mg, more typically 1-100 μg, more typically 5-50 μg for other routes. Generally, it is expected that each dose will comprise 0.01-3 mg of antigen. An optimal amount for a particular vaccine can be ascertained by studies involving observation of immune responses in subjects.


Examples of the techniques and protocols mentioned above can be found in Remington's Pharmaceutical Sciences, 20th Edition, 2000, pub. Lippincott, Williams & Wilkins.


In some cases the method of treatment may comprise administration to a subject of more than one peptide, polynucleic acid or vector. These may be administered together/simultaneously and/or at different times or sequentially. The use of combinations of different peptides, optionally targeting different antigens, may be important to overcome the challenges of genetic heterogeneity of tumors and HLA heterogeneity of individuals. The use of peptides of the disclosure in combination expands the group of individuals who can experience clinical benefit from vaccination. Multiple pharmaceutical compositions of PEPIs, manufactured for use in one regimen, may define a drug product. In some cases different peptides, polynucleic acids or vectors of a single treatment may be administered to the subject within a period of, for example, 1 year, or 6 months, or 3 months, or 60 or 50 or 40 or 30 days.


Routes of administration include but are not limited to intranasal, oral, subcutaneous, intradermal, and intramuscular. The subcutaneous administration is particularly preferred. Subcutaneous administration may for example be by injection into the abdomen, lateral and anterior aspects of upper arm or thigh, scapular area of back, or upper ventrodorsal gluteal area.


The compositions of the disclosure may also be administered in one, or more doses, as well as, by other routes of administration. For example, such other routes include, intracutaneously, intravenously, intravascularly, intraarterially, intraperitnoeally, intrathecally, intratracheally, intracardially, intralobally, intramedullarly, intrapulmonarily, and intravaginally. Depending on the desired duration of the treatment, the compositions according to the disclosure may be administered once or several times, also intermittently, for instance on a monthly basis for several months or years and in different dosages.


Solid dosage forms for oral administration include capsules, tablets, caplets, pills, powders, pellets, and granules. In such solid dosage forms, the active ingredient is ordinarily combined with one or more pharmaceutically acceptable excipients, examples of which are detailed above. Oral preparations may also be administered as aqueous suspensions, elixirs, or syrups. For these, the active ingredient may be combined with various sweetening or flavoring agents, coloring agents, and, if so desired, emulsifying and/or suspending agents, as well as diluents such as water, ethanol, glycerin, and combinations thereof.


One or more compositions of the disclosure may be administered, or the methods and uses for treatment according to the disclosure may be performed, alone or in combination with other pharmacological compositions or treatments, for example chemotherapy and/or immunotherapy and/or vaccine. The other therapeutic compositions or treatments may for example be one or more of those discussed herein, and may be administered either simultaneously or sequentially with (before or after) the composition or treatment of the disclosure.


In some cases the treatment may be administered in combination with checkpoint blockade therapy/checkpoint inhibitors, co-stimulatory antibodies, cytotoxic or non-cytotoxic chemotherapy and/or radiotherapy, targeted therapy or monoclonal antibody therapy. It has been demonstrated that chemotherapy sensitizes tumors to be killed by tumor specific cytotoxic T cells induced by vaccination (Ramakrishnan et al. J Clin Invest. 2010; 120(4):1111-1124). Examples of chemotherapy agents include alkylating agents including nitrogen mustards such as mechlorethamine (HN2), cyclophosphamide, ifosfamide, melphalan (L-sarcolysin) and chlorambucil; anthracyclines; epothilones; nitrosoureas such as carmustine (BCNU), lomustine (CCNU), semustine (methyl-CCNU) and streptozocin (streptozotocin); triazenes such as decarbazine (DTIC; dimethyltriazenoimidazole-carboxamide; ethylenimines/methylmelamines such as hexamethylmelamine, thiotepa; alkyl sulfonates such as busulfan; Antimetabolites including folic acid analogues such as methotrexate (amethopterin); alkylating agents, antimetabolites, pyrimidine analogs such as fluorouracil (5-fluorouracil; 5-FU), floxuridine (fluorodeoxyuridine; FUdR) and cytarabine (cytosine arabinoside); purine analogues and related inhibitors such as mercaptopurine (6-mercaptopurine; 6-MP), thioguanine (6-thioguanine; TG) and pentostatin (2′-deoxycoformycin); epipodophylotoxins; enzymes such as L-asparaginase; biological response modifiers such as IFNα, IL-2, G-CSF and GM-CSF; platinum coordination complexes such as cisplatin (cis-DDP), oxaliplatin and carboplatin; anthracenediones such as mitoxantrone and anthracycline; substituted urea such as hydroxyurea; methylhydrazine derivatives including procarbazine (N-methylhydrazine, MIH) and procarbazine; adrenocortical suppressants such as mitotane (o,p′-DDD) and aminoglutethimide; taxol and analogues/derivatives; hormones/hormonal therapy and agonists/antagonists including adrenocorticosteroid antagonists such as prednisone and equivalents, dexamethasone and aminoglutethimide, progestin such as hydroxyprogesterone caproate, medroxyprogesterone acetate and megestrol acetate, estrogen such as diethylstilbestrol and ethinyl estradiol equivalents, antiestrogen such as tamoxifen, androgens including testosterone propionate and fluoxymesterone/equivalents, antiandrogens such as flutamide, gonadotropin-releasing hormone analogs and leuprolide and non-steroidal antiandrogens such as flutamide; natural products including vinca alkaloids such as vinblastine (VLB) and vincristine, epipodophyllotoxins such as etoposide and teniposide, antibiotics such as dactinomycin (actinomycin D), daunorubicin (daunomycin; rubidomycin), doxorubicin, bleomycin, plicamycin (mithramycin) and mitomycin (mitomycin C), enzymes such as L-asparaginase, and biological response modifiers such as interferon alphenomes.


In some cases the method of treatment is a method of vaccination or a method of providing immunotherapy. As used herein, “immunotherapy” is the treatment of a disease or condition by inducing or enhancing an immune response in an individual. In certain embodiments, immunotherapy refers to a therapy that comprises the administration of one or more drugs to an individual to elicit T cell responses. In a specific embodiment, immunotherapy refers to a therapy that comprises the administration or expression of polypeptides that contain one or more PEPIs to an individual to elicit a T cell response to recognize and kill cells that display the one or more PEPIs on their cell surface in conjunction with a class I HLA. In another specific embodiment, immunotherapy comprises the administration of one or more PEPIs to an individual to elicit a cytotoxic T cell response against cells that display tumor associated antigens (TAAs), tumor specific antigens (TSAs) or cancer testis antigens (CTAs) comprising the one or more PEPIs on their cell surface. In another embodiment, immunotherapy refers to a therapy that comprises the administration or expression of polypeptides that contain one or more PEPIs presented by class II HLAs to an individual to elicit a T helper response to provide co-stimulation to cytotoxic T cells that recognize and kill diseased cells that display the one or more PEPIs on their cell surface in conjunction with a class I HLAs. In still another specific embodiment, immunotherapy refers to a therapy that comprises administration of one or more drugs to an individual that re-activate existing T cells to kill target cells. The theory is that the cytotoxic T cell response will eliminate the cells displaying the one or more PEPIs, thereby improving the clinical condition of the individual. In some instances, immunotherapy may be used to treat tumors. In other instances, immunotherapy may be used to treat intracellular pathogen-based diseases or disorders.


In some cases the disclosure relates to the treatment of cancer or any specific type of cancer described herein. In some other cases the disclosure relates to the treatment of a viral, bacterial, fungal or parasitic infection, or any other disease or condition that may be treated by immunotherapy.


Further Embodiments of the Disclosure

1. A pharmaceutical composition, comprising two or more different peptides, wherein each peptide is up to 50 amino acids in length and comprises the amino acid sequence of any of SEQ ID NOs: 1 to 2786 and/or 5432 to 5931.


2. The pharmaceutical composition of item 1, comprising at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, or at least 12 different peptides, wherein each peptide is up to 50 amino acids in length and comprises the amino acid sequence of any of SEQ ID Nos: 1 to 2786 and/or 5432 to 5931.


3. A pharmaceutical composition comprising one or more polynucleic acids or vectors that encode two or more peptides wherein each peptide is up to 50 amino acids in length and comprises the amino acid sequence of any of SEQ ID NOs: 1 to 2786 and/or 5432 to 5931.


4. The pharmaceutical composition of item 2 comprising at least 2, at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, or at least 12 polynucleic acids or vectors.


5. The pharmaceutical composition of item 1 or item 3, wherein each peptide or encoded peptide comprises at least one amino acid sequence selected from one of the following groups:

    • (a) the sequences listed in Table 25A and/or 25B and indicated in Table 25A or 25B to be a fragment of a breast cancer-associated antigen listed in Table 24;
    • (b) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a lung cancer-associated antigen listed in Table 24;
    • (c) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a prostate cancer-associated antigen listed in Table 24;
    • (d) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a colorectal cancer-associated antigen listed in Table 24;
    • (e) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a bladder cancer-associated antigen listed in Table 24;
    • (f) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a ovarian cancer-associated antigen listed in Table 24;
    • (g) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a pancreatic cancer-associated antigen listed in Table 24;
    • (h) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a brain cancer-associated antigen listed in Table 24;
    • (i) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a leukemia-associated antigen listed in Table 24;
    • (j) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a lymphoma-associated antigen listed in Table 24;
    • (k) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a hepatocellular cancer-associated antigen listed in Table 24;
    • (l) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a melanoma-associated antigen listed in Table 24;
    • (m) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a thyroid cancer-associated antigen listed in Table 24;
    • (n) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a pediatric cancer-associated antigen listed in Table 24;
    • (o) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a gastric cancer-associated antigen listed in Table 24;
    • (p) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a kidney cancer-associated antigen listed in Table 24;
    • (q) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a head and neck cancer-associated antigen listed in Table 24; and
    • (r) the sequences listed in Table 25A and/or Table 25B and indicated in Table 25A or 25B to be a fragment of a cervical cancer-associated antigen listed in Table 24.


6. The pharmaceutical composition according to any of items 1-5 further comprising a pharmaceutically acceptable adjuvant, diluent, carrier, preservative, or a combination thereof.


7. A kit comprising:

    • a. a first pharmaceutical composition comprising one or more peptides, wherein each peptide comprises a different one of the amino acid sequence of any one of SEQ ID NOs: 1 to 2786 and/or 5432 to 5931; and
    • b. a second different pharmaceutical composition comprising one or more peptides, wherein each peptide comprises a different one of the amino acid sequence of any one of SEQ ID NOs: 1 to 2786 and/or 5432 to 5931.


8. The kit of item 7, further comprising a package insert.


9. A method of inducing a cytotoxic T cell response and/or a helper T cell response in a subject of a target population, the method comprising administering a pharmaceutical composition according to any one of item 1 to item 7.


10. The method of item 9, further comprising prior to the administering step, determining if the subject is likely to have an have a clinical response to administration of the pharmaceutical composition by

    • a. determining that each peptide, or encoded peptide of the pharmaceutical composition comprises at least one amino acid sequence that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject; and
    • b. predicting that the subject will have a cytotoxic T cell response to each peptide, each encoded peptide, polynucleic acid or vector of the pharmaceutical composition.


11. A method of vaccination, providing immunotherapy or inducing a cytotoxic T cell response in a subject, the method comprising administering to the subject a pharmaceutical composition according to any one of item 1 to item 6.


12. The method of item 11 wherein the peptides, polynucleic acids or vectors of the pharmaceutical composition have been predicted to induce a cytotoxic T cell response and/or a helper T cell response in the subject using a method comprising:

    • a. determining that each peptide, or encoded peptide of the pharmaceutical composition comprises at least one amino acid sequence that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject; and
    • b. predicting that the subject will have a cytotoxic T cell response to each peptide, encoded peptide, polynucleic acid or vector of the pharmaceutical composition. 13. The method of item 12, wherein the peptides or encoded peptides of the pharmaceutical composition are fragments of two or more different cancer associated antigens selected from those listed in Table 22.


14. The method according to any one of item 9 to item 14 that is a method of treating cancer, optionally bladder cancer, brain cancer, breast cancer, colorectal cancer, gastric cancer, hepatocellular cancer, leukemia, lung cancer, lymphoma, melanoma, ovarian cancer, pancreatic cancer, pediatric cancer, thyroid cancer or prostate cancer.


15. A method of designing or preparing a peptide, or a polynucleic acid or vector that encodes

    • a peptide, or a panel of peptides, or one or more polynucleic acid or vectors that encode a panel of peptides, for use in a method of inducing a T cell response against a target polypeptide, the method comprising
      • (i) selecting or defining a model human population comprising a plurality of subjects each defined by HLA class I genotype and/or by HLA class II genotype;
      • (ii) identifying for each subject of the model population:
        • (a) amino acid sequences of the target polypeptide that are a T cell epitope capable of binding to at least three HLA class I molecules of the subject;
        • (b) amino acid sequences of the target polypeptide that are a T cell epitope capable of binding to at least four HLA class II molecules of the subject;
        • (c) amino acid sequences of the target polypeptide that comprise a T cell epitope capable of binding to at least three HLA class I molecules of the subject and a T cell epitope capable of binding to at least four HLA class II molecules of the subject; or
        • (d) amino acid sequences of the target polypeptide that both
          • a. are a T cell epitope capable of binding to at least four HLA class II molecules; and
          • b. comprise an amino acid sequence that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject;
      • (iii) selecting a polypeptide fragment window length of between 9 and 50 amino acids;
      • (iv) identifying a fragment of the target polypeptide that
        • (c) has the length selected in step (iii); and
        • (d) comprises an amino acid sequence identified in any one of step (ii) (a) to (d) in the highest proportion of subjects in the model population;
      • (v) optionally testing the fragment identified in step (iv) against additional pre-defined criteria, rejecting the fragment if the further pre-defined criteria are not met, and repeating step (iv) to identify an alternative fragment of the target polypeptide that
        • (a) has the length selected in step (iii); and
        • (b) comprises an amino acid sequence identified in step (iv) in the next highest proportion of subjects in the model population;
      • (vi) optionally repeating step (iv) and further optionally step (v) in one or more further rounds, wherein a further fragment of the target polypeptide is identified in each round, and wherein in each round subjects are excluded from the model population if any of the fragments selected in step (iv) and not rejected in step (v) of any of the preceding rounds comprises an amino acid sequence identified in step (ii) for that subject; and
      • (vii) designing or preparing a peptide, a polynucleic acid or vector that encodes a peptide, a panel of peptides, or one or more polynucleic acids or vectors that encode a panel of peptides, wherein each peptide comprises one or more of the target polypeptide fragments identified in step (iv), (v) or (vi), optionally wherein the polypeptide fragment is flanked at the N and/or C terminus by additional amino acids that are not part of the sequence of the target polypeptide antigen.


16. The method according to item 15, wherein the target polypeptide is expressed by pathogenic organism, a virus or a cancer cell, or is a cancer testes antigen, optionally wherein the target polypeptide is selected from the antigens listed in any of Tables 2 to 5.


17. The method according to item 15 or item 16, further comprising selecting two or more peptides, polynucleic acids or vectors designed or prepared according to the method of item 15 or 16 for use in a method of vaccinating, providing immunotherapy to, or inducing a cytotoxic and/or helper T cell response in a subject, optionally wherein each of the two or more peptides or encoded peptides comprises an amino acid sequence that is

    • (a) a fragment of a polypeptide that is expressed by a pathogenic organism, a virus or a cancer cell; and
    • (b) a T cell epitope capable of binding to at least three HLA class I molecules of the subject or a T cell epitope capable of binding to at least four HLA class II molecules of the subject;
    • and wherein the method further comprises administering the one or more peptides, polynucleic acids or vectors to the subject.


18. A pharmaceutical composition comprising a panel of peptides, polynucleic acids or vectors designed and/or prepared according to the method of item 15 or item 16, or comprising or encoding two or more peptides designed and/or prepared according to the method of item 15 or item 16.


19. A pharmaceutical composition comprising a panel of peptides, or one or more polynucleic acids or vectors encoding a panel of peptides, for use in a method of inducing a T cell response against one or more target polypeptides in a subject of a target human population, wherein each of the peptides, or encoded peptides, comprises an amino acid sequence that is

    • (a) 9 to 50 amino acids in length; and
    • (b) comprises a fragment of the one or more target polypeptides, wherein the fragment comprises, in at least 10% of subjects of the intent-to-treat human population:
      • a. an amino acid sequence of the target polypeptide that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject;
      • b. an amino acid sequence of the target polypeptide that is a T cell epitope capable of binding to at least four HLA class II molecules of the subject;
      • c. an amino acid sequence of the target polypeptide that comprise a T cell epitope capable of binding to at least three HLA class I molecules of the subject and a T cell epitope capable of binding to at least four HLA class II molecules of the subject; or
      • d. an amino acid sequence of the target polypeptide that both
        • i. is a T cell epitope capable of binding to at least four HLA class II molecules; and
        • ii. comprise an amino acid sequence that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject


20. The pharmaceutical composition according to item 18 or item 19, further comprising a pharmaceutically acceptable adjuvant, diluent, carrier, preservative, or a combination thereof.


21. A method of vaccination, providing immunotherapy or inducing a cytotoxic T cell response in a subject, the method comprising administering to the subject a pharmaceutical composition according to any of item 18 to item 20.


22. The method of item 21, wherein one or more or each of the peptides or the encoded peptides of the pharmaceutical composition comprises an amino acid sequence that is

    • (a) a fragment of a polypeptide that is expressed by a pathogenic organism, a virus or a cancer cell; and
    • (b) T cell epitope capable of binding to at least three HLA class I molecules of the subject or a T cell epitope capable of binding to at least four HLA class II molecules of the subject.


23. A method of providing immunotherapy to a subject in need thereof, the method comprising: administering to the individual a pharmaceutical composition, comprising i) two or more different peptides consisting of an amino acid sequence selected from the group consisting of SEQ ID Nos: 1 to 2786 and 5432 to 5931 and ii) a pharmaceutically acceptable adjuvant, diluent, carrier, preservative, or a combination thereof, thereby inducing an immune response.


24. The method of item 23, further comprising:

    • predicting that the subject will have a CD8+ T cell response and/or a CD4+ T cell response to each peptide of the pharmaceutical composition by,
    • (i) a) determining that each peptide comprises at least one amino acid sequence that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject; and
      • b) predicting that the subject will have a CD8+ T cell response to each peptide of the pharmaceutical composition or each peptide, polynucleic acid or vector of the kit; and
    • (ii) a) determining that each peptide comprises at least one amino acid sequence that is a T cell epitope capable of binding to at least three HLA class II molecules of the subject; and
      • b) predicting that the subject will have a CD4+ T cell response to each peptide of the pharmaceutical composition.


25. The method of item 23, wherein the pharmaceutical composition comprises at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, or at least 12 different peptides, wherein each peptide consists of an amino acid sequence selected from the group consisting of SEQ ID Nos: 1 to 2786 and 5432 to 5931.


26. The method of item 23, wherein the peptides of the pharmaceutical composition are from different cancer associated antigens selected from Table 24.


27. The method of item 23, wherein the adjuvant comprises an aluminium salt, saponin, Lipid A, or a water-in-oil emulsion.


28. The method according to item 23, wherein the immunotherapy is a treatment for cancer.


29. The method of item 28, wherein the cancer is bladder cancer, brain cancer, breast cancer, colorectal cancer, gastric cancer, hepatocellular cancer, leukemia, lung cancer, lymphoma, melanoma, ovarian cancer, pancreatic cancer, pediatric cancer, thyroid cancer, prostate cancer, kidney cancer, head and neck cancer, esophageal cancer and cervical cancer.


30. A pharmaceutical composition, comprising

    • (a) at least two peptides consisting of 15 to 50 amino acids in length, wherein each peptide comprises a different sequence and which binds to at least three HLA class II alleles and at least three HLA class I alleles; and
    • (b) an immunological adjuvant.


31. The pharmaceutical composition of item 30, wherein the at least two peptides each comprise a different sequence selected from SEQ ID Nos: 1 to 2786 and/or 5432 to 5931.


32. The pharmaceutical composition of item 30, comprising at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, or at least 12 different peptides, wherein each peptide comprises an amino acid sequence selected from the group consisting of SEQ ID Nos: 1 to 2786 and 5432 to 5931.


33. The pharmaceutical composition of item 30, wherein the peptides are from different cancer associated antigens selected from Table 24.


34. The pharmaceutical composition of item 30, wherein the adjuvant comprises an aluminium salt, saponin, Lipid A, or a water-in-oil emulsion.


35. A method of designing or preparing a peptide, or a polynucleic acid or vector that encodes a peptide, or a panel of peptides, or one or more polynucleic acid or vectors that encode a panel of peptides, for use in a method of inducing a T cell response against a target polypeptide, the method comprising

    • (i) selecting or defining a model human population comprising a plurality of subjects each defined by HLA class I genotype and/or by HLA class II genotype;
    • (ii) identifying for each subject of the model population:
      • (a) amino acid sequences of the target polypeptide that are a T cell epitope capable of binding to at least three HLA class I molecules of the subject;
      • (b) amino acid sequences of the target polypeptide that are a T cell epitope capable of binding to at least three HLA class II molecules of the subject;
      • (c) amino acid sequences of the target polypeptide that comprise a T cell epitope capable of binding to at least three HLA class I molecules of the subject and a T cell epitope capable of binding to at least three HLA class II molecules of the subject; or
      • (d) amino acid sequences of the target polypeptide that both
        • a. are a T cell epitope capable of binding to at least three HLA class II molecules; and
        • b. comprise an amino acid sequence that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject;
    • (iii) selecting a polypeptide fragment window length of between 9 and 50 amino acids;
    • (iv) identifying a fragment of the target polypeptide that
      • (a) has the length selected in step (iii); and
      • (b) comprises an amino acid sequence identified in any one of step (ii) (a) to (d) in the highest proportion of subjects in the model population; and
    • (v) designing or preparing a peptide, a polynucleic acid or vector that encodes a peptide, a panel of peptides, or one or more polynucleic acids or vectors that encode a panel of peptides, wherein each peptide comprises one or more of the target polypeptide fragments identified in step (iv).


36. The method of item 35, wherein the polypeptide fragment is flanked at the N and/or C terminus by additional amino acids that are not part of the sequence of the target polypeptide antigen.


37. The method of item 35, further comprising (v) testing the fragment identified in step (iv) against additional pre-defined criteria, rejecting the fragment if the further pre-defined criteria are not met, and repeating step (iv) to identify an alternative fragment of the target polypeptide that has the length selected in step (iii); and comprises an amino acid sequence identified in step (iv) in the next highest proportion of subjects in the model population.


38. The method of item 37, further comprising repeating step (iv) and step (v) in one or more further rounds, wherein a further fragment of the target polypeptide is identified in each round, and wherein in each round subjects are excluded from the model population if any of the fragments selected in step (iv) and not rejected in step (v) of any of the preceding rounds comprises an amino acid sequence identified in step (ii) for that subject.


39. The method according to item 35, wherein the target polypeptide is expressed by pathogenic organism, a virus or a cancer cell, or is a cancer testes antigen, optionally wherein the target polypeptide is selected from the antigens listed in any of Tables 2 to 5.


40. The method according to item 35, further comprising selecting two or more peptides, polynucleic acids or vectors designed or prepared according to the method of claim 9 for use in a method of vaccinating, providing immunotherapy to, or inducing a cytotoxic and/or helper T cell response in a subject, wherein each of the two or more peptides or encoded peptides comprises an amino acid sequence that is

    • (a) a fragment of a polypeptide that is expressed by a pathogenic organism, a virus or a cancer cell; and
    • (b) a T cell epitope capable of binding to at least three HLA class I molecules of the subject or a T cell epitope capable of binding to at least four HLA class II molecules of the subject;
    • and wherein the method further comprises administering the one or more peptides, polynucleic acids or vectors to the subject.


EXAMPLES
Example 1—HLA-Epitope Binding Prediction Process and Validation

Predicted binding between particular HLA and epitopes (9 mer peptides) was based on the Immune Epitope Database tool for epitope prediction (www.iedb.org).


The HLA I-epitope binding prediction process was validated by comparison with HLA class I-epitope pairs determined by laboratory experiments. A dataset was compiled of HLA I-epitope pairs reported in peer reviewed publications or public immunological databases.


The rate of agreement with the experimentally determined dataset was determined (Table 6). The binding HLA I-epitope pairs of the dataset were correctly predicted with a 93% probability. Coincidentally the non-binding HLA I-epitope pairs were also correctly predicted with a 93% probability.









TABLE 6







Analytical specificity and sensitivity of the HLA-epitope binding


prediction process.










True epitopes
False epitopes



(n = 327)
(n = 100)


HLA-epitope pairs
(Binder match)
(Non-binder match)





HIV
 91% (32)
 82% (14)


Viral
100% (35)
100% (11)


Tumor
 90% (172)
 94% (32)


Other (fungi, bacteria, etc.)
100% (65)
 95% (36)


All
 93% (304)
 93% (93)









The accuracy of the prediction of multiple HLA binding epitopes was also determined (Table 7). Based on the analytical specificity and sensitivity using the 93% probability for both true positive and true negative prediction and 7% (=100%-93%) probability for false positive and false negative prediction, the probability of the existence of a multiple HLA binding epitope in a person can be calculated. The probability of multiple HLA binding to an epitope shows the relationship between the number of HLAs binding an epitope and the expected minimum number of real binding. Per PEPI definition three is the expected minimum number of HLA to bind an epitope (bold).









TABLE 7







Accuracy of multiple HLA binding epitopes predictions.








Expected



minimum



number of real
Predicted number of HLAs binding to an epitope














HLA binding
0
1
2
3
4
5
6





1
35%
95%
100%
100%
100%
100%
100%


2
 6%
29%
 90%
 99%
100%
100%
100%



3

 1%
 4%
 22%
 84%
 98%
100%
100%


4
 0%
 0%
 2%
 16%
 78%
 96%
 99%


5
 0%
 0%
 0%
 1%
 10%
 71%
 94%


6
 0%
 0%
 0%
 0%
 0%
 5%
 65%









The validated HLA-epitope binding prediction process was used to determine all HLA-epitope binding pairs described in the Examples below.


Example 2—Epitope Presentation by Multiple HLA Predicts Cytotoxic T Lymphocyte (CTL) Response

This study investigates whether the presentation of one or more epitopes of a polypeptide antigen by one or more HLA class I molecule of an individual is predictive for a CTL response.


The study was carried out by retrospective analysis of six clinical trials, conducted on 71 cancer patients and 9 HIV-infected patients (Table 8). Patients from these studies were treated with an HPV vaccine, three different NY-ESO-1 specific cancer vaccines, one HIV-1 vaccine and a CTLA-4 specific monoclonal antibody (Ipilimumab) that was shown to reactivate CTLs against NY-ESO-1 antigen in melanoma patients. All of these clinical trials measured antigen specific CD8+ CTL responses (immunogenicity) in the study subjects after vaccination. In some cases, correlation between CTL responses and clinical responses were reported.


No patient was excluded from the retrospective study for any reason other than data availability. The 157 patient datasets (Table 8) were randomized with a standard random number generator to create two independent cohorts for training and evaluation studies. In some cases, the cohorts contained multiple datasets from the same patient, resulting in a training cohort of 76 datasets from 48 patients and a test/validation cohort of 81 datasets from 51 patients.









TABLE 8







Summary of patient datasets




















Immuno-








# Data
assay








sets
performed








(#antigen
in
HLA


Clinical
Immuno-
Target

#
×
the clinical
genotyping


trial
therapy
Antigen
Disease
Patients*
#patient)
trials**
method





1
VGX-
HPV16-
Cervical
17/18
5 × 17
IFN-γ
High



3100
E6
cancer


ELISPOT
Resolution




HPV16-




SBT




E7









HPV18-









E6









HPV18-









E7









HPV16/18







2
HIVIS
HIV-1
AIDS
 9/12
2 × 9
IFN-γ
Low-Medium



vaccine
Gag HIV-



ELISPOT
Resolution




1 RT




SSO


3
rNY-
NY-ESO-
Breast-and
18/18
 1 × 18
In vitro and
High



ESO-1
1
ovarian


Ex vivo IFN-
Resolution





cancers,


γ ELISPOT
SBT





melanoma









and sarcoma






4
Ipilimumab
NY-ESO-
Metastatic
19/20
 1 × 19
ICS after
Low to




1
melanoma


T-cell
medium








stimulation
resolution









typing, SSP









of genomic









DNA, high









resolution









sequencing


5
NY-ESO-1f
NY-ESO-
Esophageal-,
10/10
 1 × 10
ICS after
SSO probing




1 (91-110)
non-small-


T-cell
and SSP of





cell lung-


stimulation
genomic





and gastric



DNA





cancer






6
NY-ESO-1
NY-ESO-
Esophageal-
 7/9
1 × 7
ICS after
SSO probing



overlapping
1 (79-173)
and lung


T-cell
and SSP of



peptides

cancer,


stimulation
genomic





melanoma



DNA


Total
6
7

80
157









The reported CD8+ T cell responses of the training dataset were compared with the HLA class I restriction profile of epitopes (9 mers) of the vaccine antigens. The antigen sequences and the HLA class I genotype of each patient were obtained from publicly available protein sequence databases or peer reviewed publications and the HLA I-epitope binding prediction process was blinded to patients' clinical CD8+ T cell response data where CD8+ T cells are IFN-γ producing CTL specific for vaccine peptides (9 mers). The number of epitopes from each antigen predicted to bind to at least 1 (PEPI1+), or at least 2 (PEPI2+), or at least 3 (PEPI3+), or at least 4 (PEPI4+), or at least 5 (PEPI5+), or all 6 (PEPI6) HLA class I molecules of each patient was determined and the number of HLA bound were used as classifiers for the reported CTL responses. The true positive rate (sensitivity) and true negative rate (specificity) were determined from the training dataset for each classifier (number of HLA bound) separately.


ROC analysis was performed for each classifier. In a ROC curve, the true positive rate (Sensitivity) was plotted in function of the false positive rate (1-Specificity) for different cut-off points (FIG. 1). Each point on the ROC curve represents a sensitivity/specificity pair corresponding to a particular decision threshold (epitope (PEPI) count). The area under the ROC curve (AUC) is a measure of how well the classifier can distinguish between two diagnostic groups (CTL responder or non-responder).


The analysis unexpectedly revealed that predicted epitope presentation by multiple class I HLAs of a subject (PEPI2+, PEPI3+, PEPI4+, PEPI5+, or PEPI6), was in every case a better predictor of the CD8+ T cell response or CTL response than epitope presentation by merely one or more HLA class I (PEPI1+, AUC=0.48, Table 9).









TABLE 9







Determination of diagnostic value of the


PEPI biomarker by ROC analysis












Classifiers
AUC








PEPI1+
0.48




PEPI2+
0.51




PEPI3+
0.65




PEPI4+
0.52




PEPI5+
0.5




PEPI6+
0.5










The CTL response of an individual was best predicted by considering the epitopes of an antigen that could be presented by at least 3 HLA class I alleles of an individual (PEPI3+, AUC=0.65, Table 9). The threshold count of PEPI3+(number of antigen-specific epitopes presented by 3 or more HLA of an individual) that best predicted a positive CTL response was 1 (Table 10). In other words, at least one antigen-derived epitope is presented by at least 3 HLA class I of a subject (≥1 PEPI3+), then the antigen can trigger at least one CTL clone, and the subject is a likely CTL responder. Using the ≥1 PEPI3+ threshold to predict likely CTL responders (“≥1 PEPI3+ test”) provided 76% true positive rate (diagnostic sensitivity) (Table 10).









TABLE 10







Determination of the ≥1 PEPI3+ threshold to predict likely CTL


responders in the training dataset.


PEPI3+ Count




















1
2
3
4
5
6
7
8
9
10
11
12






















Sensitivity:
0.76
0.60
0.31
0.26
0.14
0.02
0
0
0
0
0
0


1-Specificity:
0.59
0.24
0.21
0.15
0.09
0.06
0.06
0.03
0.03
0.03
0.03
0.03









Example 3—Retrospective Validation of the ≥1 PEPI3+ Threshold as Novel Biomarker for PEPI Test

In a retrospective analysis, the test cohort of 81 datasets from 51 patients was used to validate the ≥1 PEPI3+ threshold to predict an antigen-specific CD8+ T cell response or CTL response. For each dataset in the test cohort it was determined whether the ≥1 PEPI3+ threshold was met (at least one antigen-derived epitope presented by at least three class I HLA of the individual). This was compared with the experimentally determined CD8+ T cell responses (CTL responses) reported from the clinical trials (Table 11).


The retrospective validation demonstrated that a PEPI3+ peptide induces CD8+ T cell response (CTL response) in an individual with 84% probability. 84% is the same value that was determined in the analytical validation of the PEPI3+ prediction, epitopes that binds to at least 3 HLAs of an individual (Table 7). These data provide strong evidences that immune responses are induced by PEPIs in individuals.









TABLE 11







Diagnostic performance characteristics of the ≥1 PEPI3+ test (n = 81).









Performance characteristic
Description
Result













Positive
100%[A/(A + B)]
The likelihood that an individual that meets the
84%


predictive

≥1 PEPI3+ threshold has antigen-specific CTL



value (PPV)

responses after treatment with immunotherapy.



Sensitivity
100%[A/(A + C)]
The proportion of subjects with antigen-specific
75%




CTL responses after treatment with





immunotherapy who meet the ≥1 PEPI3+





threshold.



Specificity
100%[D/(B + D)]
The proportion of subjects without antigen-
55%




specific CTL responses after treatment with





immunotherapy who do not meet the ≥1 PEPI3+





threshold.



Negative
100%[D/(C + D)]
The likelihood that an individual who does not
42%


predictive

meet the ≥1 PEPI3+ threshold does not have



value

antigen-specific CTL responses after treatment



(NPV)

with immunotherapy.



Overall
100%[(A + D)/N]
The percentage of predictions based on the ≥1
70%


percent

PEPI3+ threshold that match the experimentally



agreement

determined result, whether positive or negative.



(OPA)





Fisher's


 0.01


exact (p)









ROC analysis determined the diagnostic accuracy, using the PEPI3+ count as cut-off values (FIG. 2). The AUC value=0.73. For ROC analysis an AUC of 0.7 to 0.8 is generally considered as fair diagnostic value.


A PEPI3+ count of at least 1 (≥1 PEPI3+) best predicted a CTL response in the test dataset (Table 12). This result confirmed the threshold determined during the training (Table 9).









TABLE 12







Confirmation of the ≥1 PEPI3+ threshold to predict likely CTL


responders in the test/validation dataset.


PEPI3+ Count




















1
2
3
4
5
6
7
8
9
10
11
12






















Sensitivity:
0.75
0.52
0.26
0.23
0.15
0.13
0.08
0.05
0
0
0
0


1-Specificity:
0.45
0.15
0.05
0
0
0
0
0
0
0
0
0









Example 4—Clinical Validation of the ≥1 PEPI3+ Threshold as Novel Biomarker for PEPI Test

The PEPI3+ biomarker-based vaccine design has been tested first time in a phase I clinical trial in metastatic colorectal cancer (mCRC) patients in the OBERTO phase I/II clinical trial (NCT03391232). In this study, we evaluated the safety, tolerability and immunogenicity of a single or multiple dose(s) of PolyPEPI1018 as an add-on to maintenance therapy in subjects with mCRC. PolyPEPI1018 is a peptide vaccine containing 12 unique epitopes derived from 7 conserved TSAs frequently expressed in mCRC (WO2018158455 A1). These epitopes were designed to bind to at least three autologous HLA alleles that are more likely to induce T-cell responses than epitopes presented by a single HLA (See Examples 2 & 3). mCRC patients in the first line setting received the vaccine (dose: 0.2 mg/peptide) just after the transition to maintenance therapy with a fluoropyrimidine and bevacizumab. Vaccine-specific T-cell responses were first predicted by identification of PEPI3+-s in silico (using the patient's complete HLA genotype and antigen expression rate specifically for CRC) and then measured by ELISpot after one cycle of vaccination (phase I part of the trial).


Seventy datasets from 10 patients (Phase 1 cohort and dataset of OBERTO trial) was used to prospectively validate that PEPI3+ biomarker predicts antigen-specific CTL responses. For each dataset, predicted PEPI3+-s were determined in silico and compared to the vaccine-specific immune responses measured by ELISPOT assay from the patients' blood. Diagnostic characteristics (positive predictive value, negative predictive value, overall percent agreement) determined this way were then compared with the retrospective validation results described in Example 3.


The overall percent agreement was 64%, with high positive predictive value of 79%, representing 79% probability that the patient with predicted PEPI3+ will produce CD8 T cell specific immune response against the analyzed antigen. Clinical trial data were significantly correlated with the retrospective trial results (p=0.01) and provides evidence for the PEPI3+ calculation with PEPI test to predict antigen-specific T cell responses based on the complete HLA-genotype of patients (Table 13).









TABLE 13







Prospective validation of the ≥1 PEPI3+ and PEPI test













Prospective




Retrospective
validation




validation
(OBERTO)


Parameter
Definition
n = 81*
n = 70**





PPV
The likelihood that an
84%
79%


Positive
individual with a positive




Predictive
PEPI test result has




Value
antigen-specific T cell





responses




NPV
The likelihood that an
42%
51%


Negative
individual with a negative




Predictive
PEPI test result does not




Value
have antigen-specific





T cell responses




OPA
The percentage of results
70%
64%


Overall Percent
that are true results,




Agreement
whether positive or





negative




Fisher's exact

0.01
0.01


probability test





(p)





*51 patients; 6 clinical trials; 81 dataset


**10 patients; Treos phase I clinical trial (OBERTO); 70 datasets






Example 5—the ≥1 PEPI3+ Test Predicts CD8+ T Cell Reactivities

Supporting data were obtained to show that the ≥1 PEPI3+ correlates with clinical immunogenicity data but the state-of-art mono-HLA specific epitope determination does not show correlation with vaccine-specific immunogenicity.


The ≥1 PEPI3+ calculation was compared with a state-of-art method for predicting a specific human subject's CTL response to peptide antigens.


The HLA genotypes of 28 cervical cancer and VIN-3 patients that received HPV-16 specific synthetic long peptide vaccine (LPV) in two different clinical trials were determined from DNA samples. The LPV consists of long peptides covering the HPV-16 viral oncoproteins E6 and E7. The amino acid sequence of the LPV was obtained from M. J. Welters, et al. Induction of tumor-specific CD4+ and CD8+ T-cell immunity in cervical cancer patients by a human papillomavirus type 16 E6 and E7 long peptides vaccine. Clin Cancer Res 14, 178-187 (2008)., G. G. Kenter, et al. Vaccination against HPV-16 oncoproteins for vulvar intraepithelial neoplasia. N Engl J Med 361, 1838-1847 (2009). M. J. Welters, et al. Success or failure of vaccination for HPV16-positive vulvar lesions correlates with kinetics and phenotype of induced T-cell responses. Proc Natl Acad Sci USA 107, 11895-11899 (2010). The publications also report the T cell responses of each vaccinated patient to pools of overlapping peptides of the vaccine. 25 (20 having VIN-3 and 5 having cervical cancer) patients had immune response data available, and 25 had clinical response data available.


For each patient, epitopes (9 mers) of the LPV that are presented by at least three patient class I HLA (PEPI3+s) were identified and their distribution among the peptide pools was determined. Peptides that comprised at least one PEPI3+(≥1 PEPI3+) were predicted to induce a CD8+ T cell response. Peptides that comprised no PEPI3+ were predicted not to induce a CD8+ T cell response.


The ≥1 PEPI3+ threshold correctly predicted 529 out of 555 negative CD8+ T cell responses (95% true negative (TN) rate) and 9 out of 45 positive CD8+ T cell responses (20% true positive (TP) rate) measured after vaccination (FIG. 3A). Overall, the agreement between the ≥1 PEPI3+ threshold and experimentally determined CD8+ T cell reactivity was 90% (p<0.001). For each patient the distribution among the peptide pools of epitopes that are presented by at least one patient class I HLA (≥1 PEPI1+, HLA restricted epitope prediction, prior art method) was also determined. Forty-two HLA class I binding epitopes predicted 45 CD8+ T cell responses (93% TP rate). In contrast, of the 555 negative T cell responses, only 105 were ruled out by HLA binding epitopes (19% TN rate) (FIG. 3B). Overall, the agreement between a single HLA class I allele binding epitope and CD8+ T cell response was 25%, which was not statistically significant.


Example 6—Prediction of HLA Class II Restricted CD4+ Helper T Cell Epitopes

The 28 cervical cancer and VIN-3 patients that received the HPV-16 synthetic long peptide vaccine (LPV) in two different clinical trials (as detailed in Example 5) were investigated for CD4+ T helper responses following LPV vaccination (FIGS. 4A-B). The TP rate of the prediction of HLA class II restricted epitopes was 95%, since the State of Art tool predicted 112 positive responses (positive CD4+ T cell reactivity to a peptide pool for a person's HLA class II alleles) out of 117. The TN rate was 0% since it could rule out 0 of 33 negative T cell responses. Overall, the agreement between HLA-restricted class II PEPI prediction and CD4+ T cell reactivity was 75% (not significant).


The HLA class II-binding PEPI3+-s predicted 86 of 117 positive CD4+ T-cell responses (73% TP rate) and ruled out 17 of 33 negative T-cell responses (52% TN rate). Overall, the agreement between HLA class II PEPI3+-s and CD4+ T-cell response was 69% (p=0.005) (FIG. 4A).


Example 7—the ≥1 PEPI3+ Test Predicts T Cell Responses to Full Length LPV Polypeptides

Using the same studies as reported in Examples 5 and 6, the ≥1 PEPI3+ test was used to predict patient CD8+ and CD4+ T cell responses to the full length E6 and E7 polypeptide antigens of the LPV vaccine. Results were compared to the experimentally determined responses reported. The test correctly predicted the CD8+ T cell reactivity (PEPI3+) of 11 out of 15 VIN-3 patients with positive CD8+ T cell reactivity test results (sensitivity 70%, PPV 85%) and of 2 out of 5 cervical cancer patients (sensitivity 40%, PPV 100%) (FIG. 5A). The CD4+ T cell reactivities (PEPI3+) were correctly predicted 100% both of VIN-3 and cervical cancer patients (FIG. 5B). Class I and class II HLA restricted PEPI3+ count was also observed to correlate with the reported clinical benefit to LPV vaccinated patients. Patients with higher PEPI3+ counts had either complete or partial response already after 3 months. There was also a correlation between the number of PEPIs and clinical response in VIN-3 patients for HLA class II PEPIs but not HLA class I PEPIs, confirming the post-hoc analysis results from the clinical trial (FIGS. 5C and 5D).


Example 8—Case Study, PEPI3+ Correlation with Vaccine-Specific Immunogenicity

“Vaccine-1” is an HPV16 based DNA vaccine containing full length E6 and E7 antigens with a linker in between. “Vaccine-2” is an HPV18 based DNA vaccine containing full length E6 and E7 antigens with a linker in between (FIG. 6A). A Phase II clinical trial investigated the T cell responses of 17 HPV-infected patients with cervical cancer who were vaccinated with both “Vaccine-1” and “Vaccine-2” (“Vaccine-3” vaccination, Bagarazzi et al. Science Translational Medicine. 2012; 4(155):155ra138.).



FIG. 6B shows for two illustrative patients (patient 12-11 and patient 14-5) the position of each epitope (9 mer) presented by at least 1 (PEPI1+), at least 2 (PEPI2+), at least 3 (PEPI3+), at least 4 (PEPI4+), at least 5 (PEPI5+), or all 6 (PEPI6) class I HLA of these patients within the full length sequence of the two HPV-16 and two HPV-18 antigens.


Patient 12-11 had an overall PEPI1+ count of 54 for the combined vaccines (54 epitopes presented by one or more class I HLA). Patient 14-5 had a PEPI1+ count of 91. Therefore, patient 14-5 has a higher PEPI1+ count than patient 12-11 with respect to the four HPV antigens. The PEPI1+s represent the distinct vaccine antigen specific HLA restricted epitope sets of patients 12-11 and 14-5. Only 27 PEPI1+s were common between these two patients. For the PEPI3+ counts (number of epitopes presented by three or more patient class I HLA), the results for patients 12-11 and 14-5 were reversed. Patient 12-11 had a PEPI3+ count of 8, including at least one PEPI3+ in each of the four HPV16/18 antigens. Patient 14-5 had a PEPI3+ count of 0 (FIG. 6C).


The reported immune responses of these two patients matched the PEPI3+ counts, not the PEPI1+ counts. Patient 12-11 developed immune responses to each of the four antigens post-vaccination as measured by ELISpot, whilst patient 14-5 did not develop immune responses to any of the four antigens of the vaccines. A similar pattern was observed when the PEPI1+ and PEPI3+ sets of all 17 patients in the trial were compared. There was no correlation between the PEPI1+ count and the experimentally determined T cell responses reported from the clinical trial. However, correlation between the T cell immunity predicted by the ≥1 PEPI3+ test and the reported T cell immunity was observed. The ≥1 PEPI3+ test predicted the immune responders to HPV DNA vaccine.


Moreover, the diversity of the patient's PEPI3+ set resembled the diversity of T cell responses generally found in cancer vaccine trials. Patients 12-3 and 12-6, similar to patient 14-5, did not have PEPI3+s predicting that the HPV vaccine could not trigger T cell immunity. All other patients had at least one PEPI3 predicting the likelihood that the HPV vaccine can trigger T cell immunity. 11 patients had multiple PEPI3+ predicting that the HPV vaccine likely triggers polyclonal T cell responses. Patients 15-2 and 15-3 could mount high magnitude T cell immunity to E6 of both HPV, but poor immunity to E7. Other patients 15-1 and 12-11 had the same magnitude response to E7 of HPV18 and HPV16, respectively.


Example 9—Design of a Model Population for Conducting in Silico Trials and Identifying Candidate Precision Vaccine Targets for Large Population

An in silico human trial cohort of 433 subjects with complete 4-digit HLA class I genotype (2×HLA-A*xx:xx; 2×HLA-B*xx:xx; 2×HLA-C*xx:xx) and demographic information was compiled. This Model Population has subjects with mixed ethnicity having a total of 152 different HLA alleles that are representative for >85% of presently known allele G-groups.


A database of a “Big Population” containing 7,189 subjects characterized with 4-digit HLA genotype and demographic information was also established. The Big Population has 328 different HLA class I alleles. The HLA allele distribution of the Model Population significantly correlated with the Big Population (Table 14) (Pearson p<0.001). Therefore, the 433 patient Model Population is representative for a 16 times larger population. The Model Population is representative for 85% of the human race as given by HLA diversity as well as HLA frequency.









TABLE 14







Statistical analysis of HLA distributions in “Model Population” vs.


“Big Population”.











Group
Group
Pearson R




name 1
name 2
value
Correlation
P Value














433 Model
7,189 Big
0.89
Strong
P < 0.001


Population
Population












Example 10—in Silico Trial Based on the Identification of Multiple HLA Binding Epitopes in a Multi-Peptide Vaccine IMA901 Predict the Reported Clinical Trial Immune Response Rate
Probability of Targeting Multiple Antigens in the Tumor of RCC Patients

IMA901 is a therapeutic vaccine for renal cell cancer (RCC) comprising 9 peptides derived from tumor-associated antigens (TUMAPs). It was demonstrated that TUMAPs are naturally presented in human cancer tissue, they are overexpressed antigens shared by a subset of patients with the given cancer entity (Table 15). We estimated the probability that a TSA is expressed in a subject treated with IMA901 vaccine using available data from the scientific literature (FIG. 7). We used the Bayesian convention assuming that the expression probabilities follow a Beta-distribution.


We defined AG50 as the number of TSAs (AG) in the cancer vaccine that a specific tumor type expresses with 50% probability. The AG50 modelling of cancer vaccines assumes that each AG produces an effect proportional to the expression rate of the AG in the tumor type (if each AG in the vaccine is immunogenic).


For IMA901 vaccine targeting 9 antigens (9 TUMAPs), the AG50 value is 4.7, meaning that about half of the antigens are overexpressed in 50% of patients' tumor. Moreover, the probability of targeting 2 expressed antigens is 100% and 3 antigens is 96%. These results suggest high potency of IMA901 vaccine based on target antigen selection.









TABLE 15







Overexpression of TAAs in RCC tumors selected for IMA901 vaccine










Published expression rate
Estimated expression


TAA (AG)
in RCC tumors*
rate (95% CI)













ADF-001
 5/111
46%
(21%, 72%)


ADF-002
5/11
46%
(21%, 72%)


APO-001
 9/112
77%
(52%, 95%)


CCN-001
4/11
38%
(15%, 65%)


GUC-001
0/22
25%
(1%, 71%)


K67-001
2/2
75%
(29%, 99%)


MET-001
11/11
92%
(74%, 100%)


MUC-001
0/11
8%
(0%, 26%)


RGS-001
7/11
62%
(35%, 85%)





*expression is defined as overexpression in tumors compared to healthy tissues provided in the source publications



1Walter S et al, Multipeptide immune response to cancer vaccine IMA901 after single-dose cyclophosphamide associates with longer patient survival, Nature Medicine, (2012), 18, 1254-1261




2Krüger T et al, Lessons to be learned from primary renal cell carcinomas, Cancer Immunol, Immunother, 2005, 54, 826-836







Probability of Inducing Immune Responses Against Multiple Antigens in the Tumor of RCC Patients

A total of 96 HLA-A*02+ subjects with advanced RCC were treated with IMA901 in two independent clinical studies (Phase I and Phase II) (Walter S et al, Multipeptide immune response to cancer vaccine IMA901 after single-dose cyclophosphamide associates with longer patient survival, Nature Medicine, (2012), 18, 1254-1261). Each of the 9 peptides in IMA901 have been identified as HLA-A*02-restricted epitopes. Based on currently accepted standards, all 9 peptides are strong candidates to boost T cell responses against renal cancer since their presence has been detected in renal cancer patients, and because the trial patients were specifically selected to have at least one HLA molecule (HLA-A*02) capable of presenting each of the peptides. Despite this restriction the immune response rate of the phase I and phase II clinical trials measured for at least one peptide of the vaccine was 74% and 64%, respectively. We analyzed by in silico prediction the HLA binding properties of each TUMAP in IMA901 and found that 8 out of the 9 TUMAPs can bind to many HLA-A*02 alleles confirming the identification process (FIGS. 8A-B). However, we found that each TUMAP can bind to many other HLA-B* and HLA-C* alleles (FIG. 8A).


Since the complete 4-digit HLA genotype of subjects who participated in IMA901 clinical trials were not available, we used the genotype data of 51 HLA-A*02 selected RCC subjects from another clinical trial, to characterize the immunogenicity of IMA901 vaccine (REF: Chowell D, Morris L G T, Grigg C M, Weber J K, Samstein R M, et al. Patient HLA class I genotype influences cancer response to checkpoint blockade immunotherapy. Science. 2018; 359 (6375): 582-587.). As presented on FIG. 8B, only few TUMAPs are able to bind to multiple HLAs of the same subject. The most immunogenic peptide in this context turned to be MET-001 capable of generating PEPI in 35% of RCC patients. However, CCN-001 could not generate PEPI in any of the patients, in agreement with FIG. 8A; CCN-001 can bind only to HLA-A*02 alleles. Based on FIG. 8A, MUC-001 is theoretically able to bind other alleles, too (both HLA-B and HLA-C), however those alleles were not present in the patients of our model population, therefore this peptide could not generate PEPI, either.


The immunogenicity of IMA901 vaccine determined in the 2 clinical trials was compared with the PEPI response rate determined using the PEPI test in our RCC model population. We found 67% (CI95 53-78%) immune response to at least one peptide of the IMA901 vaccine. According to PEPI test, 33% (CI95 22-47%) of these HLA-A*02+ subjects did not have 3 HLAs binding to any TUMAPs. Interestingly, IMA901 did not induce T cell responses in 25% and 36% of HLA-A*02 selected subjects in the Phase I and Phase II clinical trials, respectively. Furthermore, PEPI test predicted 30% (CI95 19-43%) of subjects with 1 PEPI to one TUMAP, and 37% (CI95 25-51%) have ≥2 PEPIs to at least two IMA901 peptides, which is in agreement with the average 40% and 27% immune response to 1 or ≥2 TUMAPs in both clinical trials (Table 16). The differences between the immunogenicity found in the 3 cohorts can be explained by the differences in the HLA genotype of the study subjects as well as the potential errors in measuring T cell responses and in determining PEPIs with the PEPI test (see Example 1). The phase I and phase II study results show the variability of the immune response rates of the same vaccine in different trial cohorts. However, the agreements between PEPI response rates and immunogenicity of peptide vaccines are determined by the host HLA sequences.









TABLE 16







Immunogenicity of IMA901 vaccine is determined by the host HLA


genotype (multiple HLAs)















RCC model


Immune



population


responses to
Phase I
Phase II
Phase I + II
(n = 51)**


TUMAPs
(n = 27)*
(n = 61)*
(n = 88)
(CI95%)















No peptide
25%
36%
33%
33%
(22-47%)













≥1
peptide
74%
64%
67%
67%
(53-78%)


1
peptide
44%
38%
40%
30%
(19-43%)


≥2
peptides
29%
26%
27%
37%
(25-51%)





*reported immunological data for the trials conducted with IMA901vaccine (REF: Walter Nat Med 2012);


**Predicted by PEPI test






Similarly to the AG50, we defined AP50 as the average number of antigens with PEPI of a vaccine which shows how the vaccine can induce immune response against the antigens targeted by the composition (cancer vaccine specific immune response). AP, therefore is depending of the HLA heterogeneity of the analyzed population and is independent on the expression of the antigen on the tumor. The IMA901 composition can induce immune response against an average of 1.06 vaccine antigens (AP50=1.06) meaning that in the HLA-A*02 selected RCC model population it can induce immune response against at least one vaccine antigen. This result is far less compared to the designed intention of immunogenicity (HLA-matched patients treated with 9 peptides).


Comparison of Immunogenicity and Clinical Response of TUMAPs in the IMA901 Peptide Vaccine

An immune response induced by a vaccine against a single antigen might not be sufficient for clinical activity, as the given antigen might not be expressed in the patient. Therefore, we defined AGP as the immune response which targets an expressed antigen, taking into account both the immunogenicity and expression probability of the vaccine antigen on the tumor, presented above. AGP depends on the antigen (AG) expression rate in the indicated tumor and the HLA genotype of subjects capable to make PEPI (P) in the study population.


Therefore, we investigated the correlation between immune responses against different number of antigens (TUMAPs) and the immune responses against likely expressed antigens (AGP). We found that an immune response elicited by one peptide (1 TUMAP) corresponds to 0.98 AGP, meaning that there is 98% probability that the immune response induced by any peptide of the IMA901 vaccine will target an expressed antigen on the tumor (FIG. 9). However, immune responses elicited by 2 or 3 TUMAPs correspond to only 1.44 and 2.21 AGP, respectively. 0.35 AGP corresponding to 0 TUMAP indicates the cumulated error of PEPI test prediction (see Example 1).


characterize the potency of a cancer vaccine we defined AGP50, a parameter showing the number of antigens that the vaccine induced CTLs can recognize in a tumor with 50% probability. The computation is similar to the AG50 but in addition to the expression, the occurrence of the PEPI presentation on certain vaccine antigen is also considered. AGP50 for IMA901 vaccine for the RCC model population is 1.10.


In a retrospective analysis, IMA901 clinical trial investigators found that significantly more subjects who responded to multiple TUMAPs of IMA901 experienced disease control (DC, stable disease or partial response) compared with subjects who had no response or responded to only 1 TUMAP (Table 17). Since the presence of PEPIs accurately predicted the responders to TUMAPs, we investigated the relationship between disease control rate in the TUMAP responder subpopulation and AGP. Similarly, to the investigators we analyzed the percentage of patients who are likely to have immune response against an expressed antigen (i.e.: ≥1 AGP) for the subpopulations predicted to have immune response to 0, 1 or 2 TUMAPs using our RCC model population. Interestingly, percentage of patients with 1 AGP is similar to the percentage of patients with disease control in the subpopulations: i.e.: 33% of patients had disease control vs 47% (CI95 23-67%) had 1 AGP and considerably more patients had disease control and AGP in the subgroup with immune response to 2 TUMAPs 75% vs 90% (CI95 70, 97%), respectively. These results suggest that only those patients are likely to experience clinical benefit, who have immune response against at least one expressed tumor antigen. Moreover, the percentage of patients with 1 AGP in our RCC model population is similar to the disease control rate of the phase I and phase II trials conducted with IMA901 vaccine (Table 17).









TABLE 17







Correlation between clinical benefit and AGP










% of pts with DC




in the clinical
% pts with 1 AGP in the


Subpopulation
subpopulation
model subpopulation (CI95)













No IR
14%
5%
(0%, 18%)


IR to 1 TUMAP
33%
47%
(23%, 67%)


IR to ≥2 TUMAPs
75%
90%
(70%, 97%)


Phase I
40%
49%
(35%, 61%)


Phase II
31%









Analysis of IMA901 Vaccine Potency in Multiple Populations

As shown in Table 18, AG50 value of 4.7 was observed for IMA901 vaccine, suggesting high potency based on target antigen selection. However, AP50 for IMA901 in both the unselected general population and HLA-A*02 selected subjects were only 0.75 and 1.12, respectively. Similar results were obtained for unselected RCC model population and HLA-A*02 selected populations. This results demonstrate that HLA-A*02 enrichment improved the antigenicity of IMA901, however did not ensure the immunogenicity of the vaccine. Consequently, the AGP50 values describing the potency of the vaccine are low in each population.









TABLE 18







Potency of IMA901 vaccine in in unselected population and


HLA-A*02 selected subjects










Model Population
AG50
AP50
AGP50













All Subjects (n = 433)
4.7
0.75
0.49


HLA-A*02 Subjects (n = 180)
4.7
1.12
0.81


RCC population (n = 129)
4.7
0.61
0.70


RCC subpopulation A*02 (n = 51)
4.7
1.06
1.10









Example 11—in Silico Trials Based on the Identification of Multiple HLA Binding Epitopes Predict the Reported T Cell Response Rates of Clinical Trials

The objective of this study was to determine whether a model population, such as the one described in Example 9, may be used to predict CTL reactivity rates of vaccines, i.e. used in an in silico efficacy trial and to determine the correlation between the clinical outcome of vaccine trials and PEPI.


Published clinical trial results were collected from studies with therapeutic vaccines, which included 1,790 subjects in 64 clinical studies, treated with 42 therapeutic vaccines covering 61 different antigens (Table 19). The same vaccines used in those clinical trials were used to perform in silico trials with the model population of 433 human leukocyte antigen (HLA)-genotyped subjects (described in Example 9). No subjects were excluded for reasons other than data availability. IRR was defined as the proportion of subjects in the study population with T cell responses induced by the study vaccine. ORR was defined as the proportion of subjects in the study population with objective response (complete and partial response) after vaccination. The proportion of subjects with PEPIs (personal epitopes that bind to 3 HLA alleles of a subject), multiple PEPIs, and PEPIs in multiple antigens were computed in the in silico trials to obtain the PEPI Score, MultiPEPI Score, and MultiAgPEPI Score, respectively. The immune and objective response rates (IRR and ORR) from the published clinical trials were compared with the PEPI Score, MultiPEPI Score, and MultiAgPEPI Score. All reported and calculated scores are summarized in Table 20.









TABLE 19







Summary of patient demographics in the published clinical trials









Characteristic
Count
Percentage












Total subjects
1,790



Total studies
64



Subjects with HIV infection
12
 1%


Subjects with neoplasia or dysplasia
172
 9%


Subjects with cancer
1606
90%


Subjects with solid tumors
1503
84%


Subjects with liquid tumors
103
 6%


Subjects with metastatic tumors
788
44%


Subjects with non-metastatic tumors
818
46%


HLA selected subjects
918
51%


Non- HLA selected subjects
872
49%


Trials with HLA selected subjects
32
50%


Trials without HLA selected subjects
32
50%
















TABLE 20







Response rates and PEPI Scores
















Multi
MultiAg





PEPI
PEPI
PEPI


Immunotherapy
IRR
ORR
Score
Score
Score





PSMA-Survivin pulsed DC

18%
  3%
 0%
 0%


vaccine







Peptide vaccine

 3%
 10%
 0%
 0%


HPV-SLP
 83%
60%
 73%
70%
34%



100%
60%
 73%
70%
34%


VGX-3100
 78%
50%
 87%
56%
64%


Melanoma peptide vaccine
 52%
12%
 42%
 6%
 6%


GAA peptides vaccine
 55%
15%
 18%
 0%
 0%


KRM-20 peptide vaccine
 40%
13%
 36%
15%
15%


Peptide vaccine
100%
25%
 81%
 3%
 1%


S-288310 peptide vaccine
 67%
17%
 44%
 8%
 8%


KIF20A-66 peptide
 70%
26%
 38%
 7%



PepCan
 65%
52%
 62%
26%



Iplilimumab (NYESO-1
 72%
25%
 84%
65%



specific response)







p53 SLP70-248
 88%
 0%
 77%
52%




100%
 0%
 77%
52%




  0%

 77%
52%



p53 SLP70-235
 21%

 75%
52%



GVX301
 64%
 0%
 65%
 7%



TroVax vaccine (OXB-301)
 65%
 0%
 94%
83%




 57%
 0%
 94%
83%



StimuVax
 21%

  2%




IMA901
 74%

 48%
27%
27%



 64%

 48%
27%
27%


ICT107
 33%

 52%




ProstVac
 67%

 50%
23%




 45%

 50%
23%




 76%

 50%
23%




 67%

 50%
23%




 50%

 50%
23%




 72%

 50%
23%



Synchrotopc TA2M
 46%

 24%
 7%



MELITAC 12.1
 49%

 47%
19%



HIVIS
 50%

 88%





 80%

 93%




ImMucin
 90%

 95%
70%




100%
47%
 95%
70%



NY-ESO-1 OLP
 71%

 84%
65%




 82%
 0%
 84%
65%



WT1 vaccine
 83%

 80%
77%



WT1 peptide vaccine
 72%
 6%
 86%




RHAMM-R3 peptide vaccine
 44%
 0%
  0%




GMMG-MM5 peptides
 35%

 86%
21%
21%


INGN-225 p53 vaccine
 58%
 4%
 82%
61%



HR2822
  8%

  3%




GV1001
 17%

  3%





 45%

  3%




Vx-001
 51%

 33%





 66%
 7%
 33%





 58%
 4%
 33%





 71%
 0%
 33%




NY-ESO-1f
 90%
 0%
 55%
18%



GL-08I7 (MAGE-A3 Trojan)
 33%

 29%
 3%




 57%
 0%
 29%
 3%




  0%
 0%
 29%
 3%



DPX0907 (per peptide)
  0%

 22%





 11%

 18%





 11%

  7%





 11%

 39%





 17%

 12%





 17%

  5%





 22%

 31%




CV9103 mRNA vaccine
 80%

100%




TG4010 vaccine
 38%
13%
 43%
 6%




 26%
 0%
 43%
 6%




 21%

 43%
 6%





 0%





SVN-2B peptide vaccine
 60%

 35%




TSPP peptide vaccine

 5%
 72%
31%



Her2/neu peptide vaccine (p369)
 62%

  4%




Her2/neu peptide vaccine (p688)
 31%

  1%




Her2/neu peptide vaccine (p971)
 54%

  0%




MART-1 Peptide Vaccine
 15%

  0%











We investigated the correlation between ≥1 PEPI3+ Score and immune response rate in a previous study of 12 peptide vaccines derived from cancer antigens that induced T cell responses in a subpopulation of 172 subjects from 19 clinical trials, that were identified from peer reviewed publications. The experimentally determined response rates reported from the trials were compared with the ≥1 PEPI3+ Scores and linear correlation between ≥1 PEPI3+ Score and response rate (R2=0.70) was found (p=0.001) (FIG. 10A). The correlation between ≥1 PEPI3+ Score and immune response rate was then confirmed by the analysis of 59 clinical trials involving 1,343 subjects who were treated with 40 different vaccines. Each vaccine was analyzed by comparing the published IRR from the clinical trial to the PEPI Score from the model population (FIG. 10B). The correlation between the IRR and PEPI Score was significant (r2=0.465 and p=0.001). This result demonstrated that the PEPI Score determined by in silico trials in the MP accurately predicts the IRRs observed in clinical trials.


To test whether polyclonal T cell response increases the likelihood of tumor shrinkage, ORR and MultiPEPI Score were compared. Preliminary experiments analyzed the relationship between clinical response (either ORR or DCR) and MultiPEPI Score in 17 clinical trials conducted with peptide- and DNA-based immunotherapy vaccines. The results from these experiments demonstrated a significant correlation between clinical response rate and MultiPEPI Score (r2=0.75, p<0.001). To confirm these findings, ORR data from 27 clinical trials with 21 different vaccines, involving 600 subjects, were collected and analyzed (Error! Reference source not found.). The MultiPEPI Score was calculated as the percentage of subjects in the model population with multiple PEPIs from the study vaccine. The results from this experiment demonstrated that ORR does not correlate with MultiPEPI Score (Error! Reference source not found.).


Results from previous studies suggested that T cell responses against multiple antigens were associated with longer progression free- and overall survival. Consequently, we hypothesized that the induction of T cell responses against multiple tumor antigens increases the likelihood of tumor shrinkage. To test this hypothesis, ORR data from 10 clinical trials conducted with 9 different vaccines, involving 263 subjects, that were treated with multiantigen-targeting vaccine were collected and analyzed. The MultiAg PEPI Score was calculated as the percentage of subjects with vaccine-specific PEPIs on at least two antigens. The results from this experiment demonstrated a significant correlation between ORR and MultiAg PEPI Score (r2=0.64; p=0.01), and ORR and MultiPEPI Score (r2=0.88 and p=0.001) (Error! Reference source not found. and F, respectively). These results suggest that T cell responses against multiple tumor antigens may recognize a larger tumor cell population, thereby increasing the likelihood of tumor shrinkage.


The next analysis explored whether PEPI-specific T cell responses against antigens expressed in the tumor of interest, increase the likelihood of tumor shrinkage. A total of 15 clinical trials enrolled subjects with target antigen positive disease and 11 clinical trials had no subject preselection based on antigen expression. The proportion of subjects with objective response was significantly higher in CTs with target antigen-positive subjects compared with CTs without pre-selection (21.0% vs. 3.6%, respectively, p=0.03)


The correlation between ORR and MultiPEPI Score was statistically significant in subjects with confirmed expression of target antigens (r2=0.56, p=0.005) (FIG. 10G). These results emphasize the importance of the presence of cognate PEPI in the tumor, and also that the presence of the cognate PEPI in the tumor increases the likelihood of tumor shrinkage.


This study demonstrated that the link between a subject's HLA genotype and PEPI is the most important factor in predicting clinical response to a vaccine. This study also showed that the PEPI Score can predict the clinical outcome of therapeutic vaccines.


Example 12—Study Design of OBERTO Phase I/II Clinical Trial and Preliminary Safety Data

OBERTO trial is a Phase I/II trial of PolyPEPI1018 Vaccine and CDx for the Treatment of Metastatic Colorectal Cancer (NCT03391232). Study design is shown on FIG. 11.


Enrollment Criteria





    • Histologically confirmed metastatic adenocarcinoma originating from the colon or the rectum

    • Presence of at least 1 measurable reference lesion according to RECIST 1.1

    • PR or stable disease during first-line treatment with a systemic chemotherapy regimen and 1 biological therapy regimen

    • Maintenance therapy with a fluoropyrimidine (5-fluorouracil or capecitabine) plus the same biologic agent (bevacizumab, cetuximab or panitumumab) used during induction, scheduled to initiate prior to the first day of treatment with the study drug

    • Last CT scan at 3 weeks or less before the first day of treatment





Subject Withdrawal and Discontinuation.





    • During the initial study period (12 W), if a patient experiences disease progression and needs to start a second-line therapy, the patient will be withdrawn from the study.

    • During the second part of the study (after 2nd dose) if a patient experiences disease progression and needs to start a second-line therapy, the patient will remain in the study, receive the third vaccination as scheduled and complete follow-up.

    • Transient local erythema and edema at the site of vaccination were observed as expected, as well as a flu-like syndrome with minor fever and fatigue. These reactions are already well-known for peptide vaccination and usually are associated with the mechanism of action, because fever and flu-like syndrome might be the consequence and sign for the induction of immune responses (this is known as typical vaccine reactions for childhood vaccinations).

    • Only one serious adverse event (SAE) “possibly related” to the vaccine was recorded (Table 21).

    • One dose limiting toxicity (DLT) not related to the vaccine occurred (syncope).


      Safety results are summarized in Table 21.












TABLE 21







Serious adverse events reported in the OBERTO clinical trial.


No related SAE occurred (only 1 “possibly related”).









Patient ID
SAE
Relatedness












010001
Death due to disease progression
Unrelated


010004
Embolism
Unlikely Related


010004
Abdominal pain
Unrelated


010007
Bowel Obstruction
Unrelated


020004
Non-Infectious Acute Encephalitis
Possibly Related









Example 13—Expression Frequency Based Target Antigen Selection During Vaccine Design and It's Clinical Validation for mCRC

Shared tumor antigens enable precise targeting of all tumor types—including the ones with low mutational burden. Population expression data collected previously from 2,391 CRC biopsies represents the variability of antigen expression in CRC patients worldwide (FIG. 12A).


PolyPEPI1018 is a peptide vaccine we designed to contain 12 unique epitopes derived from 7 conserved testis specific antigens (TSAs) frequently expressed in mCRC. In our model we supposed, that by selecting the TSA frequently expressed in CRC, the target identification will be correct and will eliminate the need for tumor biopsy. We have calculated that the probability of 3 out of 7 TSAs being expressed in each tumor is greater than 95%. (FIG. 12B)


In a phase I study we evaluated the safety, tolerability and immunogenicity of PolyPEPI1018 as an add-on to maintenance therapy in subjects with metastatic colorectal cancer (mCRC) (NCT03391232) (See also in Example 4).


Immunogenicity measurements proved pre-existing immune responses and indirectly confirmed target antigen expression in the patients. Immunogenicity was measured with enriched Fluorospot assay (ELISPOT) from PBMC samples isolated prior to vaccination and in different time points following a following single immunization with PolyPEPI1018 to confirm vaccine-induced T cell responses; PBMC samples were in vitro stimulated with vaccine-specific peptides (9mers and 30mers) to determine vaccine-induced T cell responses above baseline. In average 4, at least 2 patients had pre-existing CD8 T cell responses against each target antigen (FIG. 12C). 7 out of 10 patients had pre-existing immune responses against at least 1 antigen (average 3) (FIG. 12D). These results provide proof for the proper target selection, because CD8+ T cell response for a CRC specific target TSA prior to vaccination with PolyPEPI1018 vaccine confirms the expression of that target antigen in the analyzed patient. Targeting the real (expressed) TSAs is the prerequisite for an effective tumor vaccine.


Example 14—Pre-Clinical and Clinical Immunogenicity of PolyPEPI1018 Vaccine Proves Proper Peptide Selection

PolyPEPI1018 vaccine contains six 30mer peptides, each designed by joining two immunogenic 15mer fragments (each involving a 9mer PEPI, consequently there are 2 PEPIs in each 30mer by design) derived from 7 TSAs (FIG. 13). These antigens are frequently expressed in CRC tumors based on analysis of 2,391 biopsies (FIG. 12).


Preclinical immunogenicity results calculated for the Model Population (n=433) and for a CRC cohort (n=37) resulted in 98% and 100% predicted immunogenicity based on PEPI test predictions and this was clinically proved in the OBERTO trial (n=10), with immune responses measured for at least one antigen in 90% of patients. More interestingly, 90% of patients had vaccine peptide specific immune responses against at least 2 antigens and 80% had CD8+ T cell response against 3 or more different vaccine antigens, showing evidence for appropriate target antigen selection during the design of PolyPEPI1018. CD4+ T cell specific and CD8+ T cell specific clinical immunogenicity is detailed in Table 22. High immune response rates were found for both effector and memory effector T cells, both for CD4+ and CD8+ T cells, and 9 of 10 patients' immune responses were boosted or de novo induced by the vaccine. Also, the fractions of CRC-reactive, polyfunctional CD8+ and CD4+ T cells have been increased in patient's PBMC after vaccination by 2.5- and 13-fold, respectively.









TABLE 22







Clinical immunogenicity results for PolyPEPI1018 in mCRC.








Immunological responses
% Patients (n)












CD4+ T cell responses
100%
(10/10)


CD8+ T cell responses against ≥3 antigens
80%
(8/10)


Both CD8+ and CD4+ T cell responses
90%
(9/10)


Ex vivo detected CD8+ T cell response
71%
(5/7)


Ex vivo detected CD4+ T cell response
86%
(6/7)








Average increase of the fraction of
 0.39%


polyfunctional (IFN-γ and TNF-α positive)



CD8+ T cells compared to pre-vaccination



Average increase of the fraction of
0.066%


polyfunctional (IL-2 and TNF-α positive)



CD4+ T cells compared to pre-vaccination









Example 15—Clinical Response for PolyPEPI1018 Treatment

The OBERTO clinical trial (NCT03391232), that has been further described in Examples 4, 12, 13 and 14 was analyzed for preliminary objective tumor response rates (RECIST 1.1) (FIGS. 14A-C). Of the eleven vaccinated patients on maintenance therapy, 5 had stable disease (SD) at the time point of the preliminary analysis (12 weeks), 3 experienced unexpected tumor responses (partial response, PR) observed on treatment (maintenance therapy+ vaccination) and 3 had progressed disease (PD) according to RECIST 1.1 criteria. Stable disease as best response was achieved in 69% of patients on maintenance therapy (capecitabine and bevacizumab). Patient 020004 had durable treatment effect after 12 weeks, and patient 010004 had long lasting treatment effect, qualified for curative surgery. Following the 3rd vaccination this patient had no evidence of disease thus being complete responder, as shown on the swimmer plot on FIGS. 14A-C.


After one vaccination, ORR was 27%, DCR was 63%, and in patients receiving at least 2 doses (out of the 3 doses), 2 of 5 had ORR (40%) and DCR was as high as 80% (SD+PR+CR in 4 out of 5 patients) (Table 23).









TABLE 23







Clinical response for PolyPEPI1018 treatment after ≥1 and


≥2 vaccination dose









Number of
Objective Response Rate
Disease Control Rate


vaccination dose
(CR + PR)
(SD + PR + CR)














≥1
27%
(3/11)
63%
(7/11)


≥2
40%
(2/5)
80%
(4/5)









Based on the data of the 5 patients receiving multiple doses of PolyPEPI1018 vaccine in the OBERTO-101 clinical trial, preliminary data suggests that higher AGP count (>2) is associated with longer PFS and elevated tumor size reduction (FIGS. 14B and C).


Example 16—Selection of Peptides for Treatment of Cancer

Based on the discovery of the role of PEPIs in T cell activation as described herein, a method was developed for designing peptides for the treatment of cancer. Specifically the peptides were designed to stimulate T cell responses against known tumor associated antigens in the maximum number of human subjects.


192 TSAs were selected that are known to be expressed in one or more of 19 cancer indications (Table 24). Data concerning expression rates of the TSA in the different cancer indications, where available in peer reviewed publications, was used to rank the TSA in each indication by expression frequency. The ranking order for the TSA is different in each indication.









TABLE 24







TSA by indication and Expression Rate (ER)













AG





#
ID NO
Antigen
%











BREAST












1
111
PIWIL1
100% 



2
112
PIWIL2
94%



3
131
SPAG9
88%



4
8
AKAP-4
85%



5
36
EpCAM
76%



6
62
JARID1B
76%



7
27
CTCFL
74%



8
154
TSGA10
70%



9
140
Survivin
68%



10
19
CDCA1
64%



11
102
ODF4
63%



12
110
PEPP2
60%



13
71
MAGE-A11
59%



14
160
XAGE-1
58%



15
42
FMR1NB
55%



16
168
ATAD2
52%



17
191
WBP2NL
50%



18
31
DBPC
50%



19
116
PRAME
49%



20
59
HOM-TES-85
47%



21
96
NY-BR-1
47%



22
129
SP17
47%



23
79
MAGE-A9
44%



24
43
FSIP1
42%



25
2
ACRBP
40%



26
7
AKAP-3
40%



27
145
TDRD1
38%



28
41
FBXO39
38%



29
123
SCP-1
37%



30
66
LDHC
35%



31
67
LEMD1
35%



32
70
MAGE-A10
34%



33
69
MAGE-A1
31%



34
49
GAGE-7
31%



35
130
SPAG1
31%



36
22
CT46
29%



37
185
SPAG8
29%



38
74
MAGE-A3
28%



39
138
SSX-4
27%



40
132
SPAN-Xc
26%



41
184
SPAG6
21%



42
33
DKKL1
20%



43
86
MAGE-C2
19%



44
85
MAGE-C1
16%



45
20
CRISP2
15%



46
98
NY-ESO-1
15%



47
77
MAGE-A6
15%



48
21
CT45
15%



49
55
HAGE
14%



50
44
FTHL17
14%



51
30
CXorf61
13%



52
65
Lage-1
12%



53
72
MAGE-A12
12%



54
153
TRAG-3
10%



55
10
BAGE-1
 9%



56
135
SSX-1
 9%



57
75
MAGE-A4
 9%



58
76
MAGE-A5
 9%



59
63
KOC1
 8%



60
136
SSX-2
 7%



61
159
WT1
 7%



62
127
SLCO6A1
 7%



63
115
PLAC1
 4%



64
23
CT47
 4%



65
121
SAGE1
 2%



66
95
NXF2
 2%



67
149
TEX15
 0%



68
147
TEX101
 0%



69
142
TAF7L
 0%



70
139
SSX-5
 0%



71
137
SSX-3
 0%



72
134
SPO11
 0%



73
101
ODF3
 0%



74
88
MORC1
 0%



75
17
CALR3
 0%



76
4
ADAM2
 0%







OVARIAN












1
36
EpCAM
92%



2
131
SPAG9
90%



3
8
AKAP-4
89%



4
113
PIWIL3
88%



5
140
Survivin
85%



6
153
TRAG-3
83%



7
27
CTCFL
82%



8
62
JARID1B
71%



9
111
PIWIL1
68%



10
2
ACRBP
65%



11
179
KIF20A
65%



12
159
WT1
63%



13
129
SP17
62%



14
112
PIWIL2
61%



15
116
PRAME
59%



16
33
DKKL1
57%



17
7
AKAP-3
48%



18
66
LDHC
43%



19
63
KOC1
43%



20
70
MAGE-A10
38%



21
79
MAGE-A9
37%



22
75
MAGE-A4
37%



23
154
TSGA10
35%



24
143
TAG-1
35%



25
21
CT45
33%



26
59
HOM-TES-85
32%



27
130
SPAG1
31%



28
35
DPPA2
31%



29
74
MAGE-A3
30%



30
124
SCP3a
25%



31
69
MAGE-A1
24%



32
98
NY-ESO-1
23%



33
65
Lage-1
22%



34
115
PLAC1
21%



35
31
DBPC
20%



36
85
MAGE-C1
20%



37
161
XAGE-1b
18%



38
123
SCP-1
15%



39
88
MORC1
14%



40
20
CRISP2
14%



41
144
TAG-2a
13%



42
138
SSX-4
13%



43
162
XAGE-1c
11%



44
136
SSX-2
 7%



45
73
MAGE-A2
 7%



46
163
XAGE-1d
 6%



47
160
XAGE-1
 5%



48
135
SSX-1
 2%



49
139
SSX-5
 0%



50
137
SSX-3
 0%



51
134
SPO11
 0%



52
132
SPAN-Xc
 0%



53
18
CCDC62
 0%



54
4
ADAM2
 0%







PANCREATIC












1
171
CCDC110
100% 



2
181
MSLN
96%



3
130
SPAG1
93%



4
36
EpCAM
85%



5
174
DKK1
84%



6
140
Survivin
83%



7
159
WT1
72%



8
111
PIWIL1
71%



9
179
KIF20A
63%



10
1
5T4
62%



11
31
DBPC
60%



12
172
CEA
60%



13
63
KOC1
54%



14
115
PLAC1
44%



15
64
KU-CT-1
33%



16
123
SCP-1
31%



17
27
CTCFL
29%



18
69
MAGE-A1
27%



19
170
CASC5
27%



20
178
hTERT
21%



21
138
SSX-4
21%



22
46
GAGE-2
17%



23
74
MAGE-A3
11%



24
65
Lage-1
 7%



25
136
SSX-2
 4%



26
98
NY-ESO-1
 4%



27
75
MAGE-A4
 2%



28
70
MAGE-A10
 1%



29
137
SSX-3
 0%



30
135
SSX-1
 0%



31
132
SPAN-Xc
 0%



32
85
MAGE-C1
 0%







BRAIN












1
166
ZNF165
100% 



2
109
PBK
100% 



3
178
hTERT
100% 



4
175
EZH2
100% 



5
37
EPHA2
95%



6
61
IL13RA2
95%



7
157
TYR
91%



8
140
Survivin
87%



9
54
gp100
85%



10
71
MAGE-A1l
85%



11
154
TSGA10
83%



12
44
FTHL17
82%



13
159
WT1
81%



14
111
PIWIL1
76%



15
112
PIWIL2
64%



16
165
XAGE-3
60%



17
131
SPAG9
60%



18
128
SOX-6
60%



19
179
KIF20A
58%



20
116
PRAME
56%



21
3
ACTL8
54%



22
1
5T4
50%



23
103
O1P5
48%



24
186
SPINLW1
47%



25
74
MAGE-A3
42%



26
45
GAGE-1
42%



27
69
MAGE-A1
41%



28
63
KOC1
38%



29
55
HAGE
38%



30
29
CXorf48
35%



31
86
MAGE-C2
34%



32
108
PASD1
31%



33
73
MAGE-A2
28%



34
127
SLCO6A1
19%



35
160
XAGE-1
18%



36
95
NXF2
18%



37
36
EpCAM
16%



38
123
SCP-1
14%



39
129
SP17
13%



40
85
MAGE-C1
13%



41
134
SPO11
12%



42
75
MAGE-A4
11%



43
59
HOM-TES-85
10%



44
27
CTCFL
 9%



45
39
FAM46D
 8%



46
84
MAGE-B6
 6%



47
136
SSX-2
 4%



48
138
SSX-4
 4%



49
98
NY-ESO-1
 4%



50
65
Lage-1
 2%



51
153
TRAG-3
 0%



52
152
TPTE
 0%



53
187
SSX-7
 0%



54
139
SSX-5
 0%



55
137
SSX-3
 0%



56
135
SSX-1
 0%



57
121
SAGE1
 0%



58
87
MART1
 0%



59
83
MAGE-B4
 0%



60
81
MAGE-B2
 0%



61
80
MAGE-B1
 0%



62
30
CXorf61
 0%



63
21
CT45
 0%



64
14
BRDT
 0%



65
80
MAGE-B1
 0%



66
30
CXorf61
 0%



67
21
CT45
 0%



68
14
BRDT
 0%







HCC












1
19
CDCA1
100% 



2
129
SP17
87%



3
159
WT1
86%



4
2
ACRBP
70%



5
135
SSX-1
69%



6
63
KOC1
66%



7
109
PBK
64%



8
81
MAGE-B2
61%



9
132
SPAN-Xc
60%



10
146
TEKT5
60%



11
60
IGFS11
60%



12
69
MAGE-A1
56%



13
27
CTCFL
55%



14
140
Survivin
54%



15
166
ZNF165
52%



16
131
SPAG9
52%



17
171
CCDC110
50%



18
7
AKAP-3
50%



19
40
FATE1
49%



20
138
SSX-4
48%



21
80
MAGE-B1
47%



22
136
SSX-2
46%



23
78
MAGE-A8
45%



24
36
EpCAM
41%



25
115
PLAC1
41%



26
111
PIWIL1
40%



27
31
DBPC
40%



28
16
CAGE1
39%



29
152
TPTE
39%



30
86
MAGE-C2
37%



31
139
SSX-5
37%



32
65
Lage-1
36%



33
77
MAGE-A6
36%



34
72
MAGE-A12
36%



35
71
MAGE-A11
36%



36
156
TSPY1
35%



37
74
MAGE-A3
34%



38
160
XAGE-1
33%



39
62
JARID1B
29%



40
153
TRAG-3
26%



41
123
SCP-1
25%



42
73
MAGE-A2
25%



43
29
CXorf48
25%



44
154
TSGA10
20%



45
85
MAGE-C1
20%



46
59
HOM-TES-85
19%



47
98
NY-ESO-1
17%



48
70
MAGE-A10
15%



49
188
TDRD4
14%



50
130
SPAG1
11%



51
75
MAGE-A4
 7%



52
79
MAGE-A9
 5%



53
18
CCDC62
 0%







THYROID












1
159
WT1
97%



2
112
PIWIL2
88%



3
36
EpCAM
83%



4
131
SPAG9
78%



5
63
KOC1
65%



6
116
PRAME
60%



7
140
Survivin
53%



8
108
PASD1
25%



9
66
LDHC
25%



10
85
MAGE-C1
22%



11
74
MAGE-A3
22%



12
95
NXF2
20%



13
55
HAGE
20%



14
69
MAGE-A1
17%



15
51
GASZ
13%



16
129
SP17
10%



17
73
MAGE-A2
 9%



18
39
FAM46D
 8%



19
136
SSX-2
 8%



20
98
NY-ESO-1
 7%



21
65
Lage-1
 4%



22
70
MAGE-A10
 2%



23
157
TYR
 0%



24
149
TEX15
 0%



25
145
TDRD1
 0%



26
142
TAF7L
 0%



27
139
SSX-5
 0%



28
138
SSX-4
 0%



29
137
SSX-3
 0%



30
135
SSX-1
 0%



31
134
SPO11
 0%



32
123
SCP-1
 0%



33
121
SAGE1
 0%



34
119
RAGE-1
 0%



35
92
NKX3.1
 0%



36
88
MORC1
 0%



37
87
MART1
 0%



38
86
MAGE-C2
 0%



39
75
MAGE-A4
 0%



40
44
FTHL17
 0%



41
33
DKKL1
 0%



42
20
CRISP2
 0%



43
1
5T4
 0%



44
1
5T4
 0%







LUNG












1
179
KIF20A
95%



2
173
CEP55
94%



3
32
DCAF12
89%



4
19
CDCA1
85%



5
36
EpCAM
78%



6
130
SPAG1
71%



7
192
ZNF645
68%



8
115
PLAC1
68%



9
112
PIWIL2
66%



10
116
PRAME
63%



11
63
KOC1
62%



12
140
Survivin
59%



13
131
SPAG9
56%



14
62
JARID1B
55%



15
153
TRAG-3
54%



16
77
MAGE-A6
51%



17
39
FAM46D
50%



18
171
CCDC110
50%



19
22
CT46
47%



20
7
AKAP-3
46%



21
81
MAGE-B2
43%



22
161
XAGE-1b
43%



23
185
SPAG8
43%



24
69
MAGE-A1
42%



25
170
CASC5
41%



26
73
MAGE-A2
40%



27
177
HSPB9
40%



28
93
NLRP4
38%



29
64
KU-CT-1
38%



30
14
BRDT
37%



31
74
MAGE-A3
37%



32
152
TPTE
36%



33
27
CTCFL
36%



34
30
CXorf61
34%



35
55
HAGE
32%



36
21
CT45
32%



37
150
THEG
31%



38
158
VCX
31%



39
72
MAGE-A12
31%



40
31
DBPC
30%



41
35
DPPA2
30%



42
20
CRISP2
29%



43
184
SPAG6
29%



44
108
PASD1
29%



45
66
LDHC
29%



46
51
GASZ
29%



47
65
Lage-1
28%



48
42
FMR1NB
28%



49
75
MAGE-A4
27%



50
86
MAGE-C2
27%



51
160
XAGE-1
25%



52
44
FTHL17
25%



53
8
AKAP-4
25%



54
70
MAGE-A10
24%



55
167
COX6B2
24%



56
168
ATAD2
23%



57
166
ZNF165
21%



58
149
TEX15
21%



59
182
PTTG-1
20%



60
2
ACRBP
20%



61
85
MAGE-C1
19%



62
88
MORC1
18%



63
98
NY-ESO-1
17%



64
132
SPAN-Xc
17%



65
169
CABYR
16%



66
111
PIWIL1
15%



67
95
NXF2
15%



68
29
CXorf48
15%



69
121
SAGE1
15%



70
23
CT47
14%



71
16
CAGE1
14%



72
80
MAGE-B1
13%



73
138
SSX-4
13%



74
163
XAGE-1d
13%



75
61
IL13RA2
12%



76
33
DKKL1
12%



77
129
SP17
12%



78
141
SYCE1
11%



79
59
HOM-TES-85
11%



80
10
BAGE-1
10%



81
136
SSX-2
10%



82
146
TEKT5
10%



83
142
TAF7L
 9%



84
17
CALR3
 9%



85
135
SSX-1
 8%



86
113
PIWIL3
 7%



87
5
ADAM29
 7%



88
127
SLCO6A1
 7%



89
145
TDRD1
 5%



90
176
HORMAD2
 5%



91
139
SSX-5
 4%



92
123
SCP-1
 1%



93
4
ADAM2
 1%



94
162
XAGE-1c
 0%



95
156
TSPY1
 0%



96
134
SPO11
 0%



97
83
MAGE-B4
 0%



98
82
MAGE-B3
 0%



99
68
LIPI
 0%



100
41
FBXO39
 0%



101
40
FATE1
 0%







BLADDER












1
19
CDCA1
100% 



2
89
MPHOSPH1
90%



3
112
PIWIL2
82%



4
131
SPAG9
81%



5
140
Survivin
62%



6
79
MAGE-A9
61%



7
78
MAGE-A8
57%



8
36
EpCAM
54%



9
24
CTAGE1
53%



10
25
CTAGE2
49%



11
109
PBK
43%



12
74
MAGE-A3
42%



13
154
TSGA10
38%



14
69
MAGE-A1
34%



15
98
NY-ESO-1
31%



16
65
Lage-1
30%



17
72
MAGE-A12
29%



18
145
TDRD1
29%



19
2
ACRBP
28%



20
70
MAGE-A10
28%



21
85
MAGE-C1
27%



22
75
MAGE-A4
27%



23
77
MAGE-A6
25%



24
73
MAGE-A2
25%



25
55
HAGE
24%



26
44
FTHL17
22%



27
149
TEX15
21%



28
63
KOC1
20%



29
22
CT46
20%



30
116
PRAME
19%



31
86
MAGE-C2
19%



32
95
NXF2
19%



33
136
SSX-2
13%



34
121
SAGE1
12%



35
138
SSX-4
11%



36
142
TAF7L
10%



37
132
SPAN-Xc
 9%



38
135
SSX-1
 7%



39
123
SCP-1
 2%



40
156
TSPY1
 0%



41
81
MAGE-B2
 0%



42
80
MAGE-B1
 0%



43
59
HOM-TES-85
 0%







LEUKEMIAS












1
131
SPAG9
100% 



2
38
FAM133A
83%



3
26
cTAGE5
74%



4
24
CTAGE1
72%



5
85
MAGE-C1
70%



6
74
MAGE-A3
65%



7
98
NY-ESO-1
65%



8
62
JARID1B
60%



9
166
ZNF165
52%



10
65
Lage-1
49%



11
124
SCP3a
47%



12
28
CTNNA2
45%



13
86
MAGE-C2
37%



14
75
MAGE-A4
36%



15
135
SSX-1
31%



16
138
SSX-4
30%



17
139
SSX-5
24%



18
116
PRAME
23%



19
72
MAGE-A12
21%



20
69
MAGE-A1
20%



21
136
SSX-2
12%



22
156
TSPY1
12%



23
123
SCP-1
11%



24
73
MAGE-A2
11%



25
79
MAGE-A9
 9%



26
68
LIPI
 6%



27
4
ADAM2
 6%



28
148
TEX14
 5%



29
80
MAGE-B1
 5%



30
105
PAGE2
 4%



31
132
SPAN-Xc
 4%



32
137
SSX-3
 4%



33
83
MAGE-B4
 3%



34
70
MAGE-A10
 0%







MELANOMA












1
62
JARID1B
100% 



2
140
Survivin
96%



3
116
PRAME
90%



4
87
MART1
89%



5
157
TYR
87%



6
54
gp100
82%



7
132
SPAN-Xc
70%



8
77
MAGE-A6
65%



9
179
KIF20A
64%



10
151
TMEM31
63%



11
73
MAGE-A2
62%



12
74
MAGE-A3
60%



13
119
RAGE-1
60%



14
171
CCDC110
60%



15
71
MAGE-A11
54%



16
161
XAGE-1b
50%



17
72
MAGE-A12
49%



18
63
KOC1
46%



19
85
MAGE-C1
45%



20
70
MAGE-A10
45%



21
86
MAGE-C2
45%



22
108
PASD1
44%



23
17
CALR3
44%



24
66
LDHC
44%



25
163
XAGE-1d
43%



26
98
NY-ESO-1
37%



27
69
MAGE-A1
37%



28
136
SSX-2
35%



29
65
Lage-1
35%



30
75
MAGE-A4
30%



31
162
XAGE-1c
29%



32
39
FAM46D
28%



33
149
TEX15
27%



34
27
CTCFL
27%



35
10
BAGE-1
26%



36
154
TSGA10
25%



37
135
SSX-1
25%



38
76
MAGE-A5
25%



39
33
DKKL1
25%



40
11
BAGE-2
23%



41
107
PAGE5
22%



42
81
MAGE-B2
22%



43
142
TAF7L
21%



44
138
SSX-4
21%



45
80
MAGE-B1
19%



46
88
MORC1
19%



47
55
HAGE
17%



48
51
GASZ
17%



49
123
SCP-1
16%



50
164
XAGE-2
14%



51
12
BAGE-3
14%



52
164
XAGE-2
14%



53
12
BAGE-3
14%



54
79
MAGE-A9
12%



55
78
MAGE-A8
10%



56
13
BAGE-5
 9%



57
95
NXF2
 8%



58
160
XAGE-1
 7%



59
134
SPO11
 6%



60
20
CRISP2
 6%



61
139
SSX-5
 5%



62
121
SAGE1
 5%



63
4
ADAM2
 3%



64
165
XAGE-3
 0%



65
145
TDRD1
 0%



66
68
LIPI
 0%



67
64
KU-CT-1
 0%



68
44
FTHL17
 0%



69
168
ATAD2
 0%







GASTRIC












1
140
Survivin
100% 



2
35
DPPA2
100% 



3
171
CCDC110
100% 



4
36
EpCAM
90%



5
7
AKAP-3
89%



6
60
IGFS11
88%



7
30
CXorf61
80%



8
16
CAGE1
77%



9
111
PIWIL1
76%



10
155
TSP50
57%



11
1
5T4
52%



12
63
KOC1
52%



13
31
DBPC
50%



14
103
OIP5
48%



15
108
PASD1
44%



16
168
ATAD2
43%



17
146
TEKT5
40%



18
17
CALR3
40%



19
74
MAGE-A3
37%



20
73
MAGE-A2
31%



21
69
MAGE-A1
31%



22
70
MAGE-A10
30%



23
75
MAGE-A4
24%



24
138
SSX-4
23%



25
29
CXorf48
21%



26
116
PRAME
21%



27
123
SCP-1
14%



28
65
Lage-1
14%



29
135
SSX-1
13%



30
98
NY-ESO-1
12%



31
39
FAM46D
11%



32
153
TRAG-3
10%



33
86
MAGE-C2
10%



34
166
ZNF165
 9%



35
161
XAGE-1b
 9%



36
121
SAGE1
 8%



37
21
CT45
 8%



38
18
CCDC62
 7%



39
95
NXF2
 6%



40
85
MAGE-C1
 6%



41
41
FBXO39
 4%



42
136
SSX-2
 3%



43
40
FATE1
 2%



44
156
TSPY1
 0%



45
152
TPTE
 0%



46
139
SSX-5
 0%



47
132
SPAN-Xc
 0%



48
81
MAGE-B2
 0%



49
80
MAGE-B2
 0%



50
51
GASZ
 0%



51
19
CDCA1
 0%



52
2
ACRBP
 0%







Cervical












1
112
PIWIL2
100% 



2
1
5T4
100% 



3
16
CAGE1
98%



4
140
Survivin
92%



5
8
AKAP-4
86%



6
66
LDHC
83%



7
111
PIWIL1
83%



8
131
SPAG9
82%



9
63
KOC1
68%



10
129
SP17
61%



11
108
PASD1
58%



12
51
GASZ
50%



13
98
NY-ESO-1
42%



14
39
FAM46D
37%



15
36
EpCAM
36%



16
179
KIF20A
35%



17
134
SPO11
33%



18
33
DKKL1
33%



19
27
CTCFL
32%



20
65
Lage-1
26%



21
75
MAGE-A4
23%



22
138
SSX-4
20%



23
19
CDCA1
18%



24
69
MAGE-A1
17%



25
20
CRISP2
17%



26
74
MAGE-A3
16%



27
159
WT1
 5%



28
136
SSX-2
 4%



29
135
SSX-1
 4%



30
88
MORC1
 0%



31
70
MAGE-A10
 0%



32
4
ADAM2
 0%







PROSTATE












1
115
PLAC1
100% 



2
112
PIWIL2
100% 



3
106
PAGE4
100% 



4
62
JARID1B
100% 



5
36
EpCAM
98%



6
27
CTCFL
98%



7
133
SPATA19
88%



8
19
CDCA1
85%



9
140
Survivin
83%



10
92
NKX3.1
70%



11
8
AKAP-4
65%



12
32
DCAF12
59%



13
145
TDRD1
47%



14
31
DBPC
40%



15
66
LDHC
38%



16
20
CRISP2
38%



17
90
MUC-1
34%



18
39
FAM46D
33%



19
108
PASD1
29%



20
136
SSX-2
28%



21
130
SPAG1
27%



22
94
NR6A1
25%



23
4
ADAM2
25%



24
34
DMRT1
24%



25
67
LEMD1
23%



26
77
MAGE-A6
23%



27
55
HAGE
22%



28
18
CCDC62
22%



29
98
NY-ESO-1
21%



30
73
MAGE-A2
18%



31
154
TSGA10
15%



32
74
MAGE-A3
15%



33
95
NXF2
14%



34
69
MAGE-A1
13%



35
149
TEX15
13%



36
33
DKKL1
13%



37
146
TEKT5
11%



38
129
SP17
10%



39
116
PRAME
10%



40
100
ODF2
10%



41
99
ODF1
10%



42
70
MAGE-A10
10%



43
64
KU-CT-1
10%



44
65
Lage-1
 8%



45
135
SSX-1
 7%



46
86
MAGE-C2
 6%



47
72
MAGE-A12
 5%



48
111
PIWIL1
 4%



49
2
ACRBP
 4%



50
H7
PRSS55
 1%



51
142
TAF7L
 0%



52
134
SPO11
 0%



53
102
ODF4
 0%



54
101
ODF3
 0%



55
88
MORC1
 0%



56
81
MAGE-B2
 0%



57
80
MAGE-B1
 0%



58
75
MAGE-A4
 0%



59
63
KOC1
 0%



60
44
FTHL17
 0%



61
42
FMR1NB
 0%



62
10
BAGE-1
 0%



63
168
ATAD2
 0%







CRC












1
180
MCAK
100% 



2
H3
PIWIL3
96%



3
67
LEMD1
94%



4
159
WT1
91%



5
31
DBPC
90%



6
155
TSP50
89%



7
36
EpCAM
88%



8
140
Survivin
87%



9
1
5T4
85%



10
7
AKAP-3
83%



11
27
CTCFL
80%



12
H2
PIWIL2
80%



13
16
CAGE1
74%



14
8
AKAP-4
74%



15
131
SPAG9
71%



16
63
KOC1
65%



17
2
ACRBP
63%



18
168
ATAD2
58%



19
130
SPAG1
55%



20
60
IGES11
55%



21
146
TEKT5
50%



22
171
CCDC110
50%



23
111
PIWIL1
48%



24
108
PASD1
44%



25
78
MAGE-A8
44%



26
35
DPPA2
44%



27
166
ZNF165
43%



28
177
HSPB9
40%



29
19
CDCA1
40%



30
41
FBXO39
39%



31
106
PAGE4
33%



32
26
cTAGE5
31%



33
97
NYD-TSPG
30%



34
115
PLAC1
27%



35
132
SPAN-Xc
24%



36
51
GASZ
22%



37
39
FAM46D
22%



38
77
MAGE-A6
22%



39
74
MAGE-A3
22%



40
40
FATE1
21%



41
24
CTAGE1
19%



42
75
MAGE-A4
18%



43
73
MAGE-A2
18%



44
29
CXorf48
17%



45
17
CALR3
16%



46
66
LDHC
15%



47
55
HAGE
15%



48
69
MAGE-A1
14%



49
65
Lage-1
13%



50
18
CCDC62
13%



51
107
PAGE5
11%



52
21
CT45
10%



53
95
NXF2
 9%



54
119
RAGE-1
 8%



55
76
MAGE-A5
 7%



56
22
CT46
 7%



57
153
TRAG-3
 7%



58
72
MAGE-A12
 6%



59
123
SCP-1
 6%



60

SSX-2
 5%



61
154
TSGA10
 5%



62
86
MAGE-C2
 4%



63
152
TPTE
 4%



64
116
PRAME
 4%



65
98
NY-ESO-1
 3%



66
70
MAGE-A10
 3%



67
135
SSX-1
 2%



68
139
SSX-5
 2%



69
85
MAGE-C1
 I%



70
121
SAGE1
 I%



71
149
TEX15
 0%



72
145
TDRD1
 0%



73
142
TAF7L
 0%



74
137
SSX-3
 0%



75
134
SPO11
 0%



76
104
PAGE1
 0%



77
88
MORC1
 0%



78
81
MAGE-B2
 0%



79
80
MAGE-B1
 0%



80
68
LIPI
 0%



81
44
FTHL17
 0%



82
33
DKKL1
 0%



83
20
CRISP2
 0%



84
10
BAGE-1
 0%



85
4
ADAM2
 0%



86
10
BAGE-1
 0%



87
4
ADAM2
 0%







LYMPHOMAS












1
123
SCP-1
39%



2
74
MAGE-A3
17%



3
138
SSX-4
16%



4
136
SSX-2
16%



5
59
HOM-TES-85
14%



6
85
MAGE-C1
13%



7
98
NY-ESO-1
11%



8
69
MAGE-A1
 9%



9
135
SSX-1
 6%



10
156
TSPY1
 0%



11
86
MAGE-C2
 0%







PEDIATRIC












1
37
EPHA2
100% 



2
77
MAGE-A6
80%



3
135
SSX-1
76%



4
74
MAGE-A3
76%



5
116
PRAME
75%



6
122
SART3
73%



7
138
SSX-4
67%



8
73
MAGE-A2
60%



9
61
IL13RA2
58%



10
160
XAGE-1
53%



11
136
SSX-2
44%



12
69
MAGE-A1
44%



13
98
NY-ESO-1
42%



14
75
MAGE-A4
41%



15
72
MAGE-A12
41%



16
86
MAGE-C2
40%



17
85
MAGE-C1
39%



18
70
MAGE-A10
33%



19
164
XAGE-2
14%



20
65
Lage-1
 7%







Kidney












1
19
CDCA1
100% 



2
131
SPAG9
88%



3
17
CALR3
80%



4
66
LDHC
57%



5
36
EpCAM
55%



6
79
MAGE-A9
55%



7
111
PIWIL1
52%



8
112
PIWIL2
49%



9
107
PAGE5
44%



10
116
PRAME
40%



11
140
Survivin
40%



12
119
RAGE-1
37%



13
149
TEX15
33%



14
74
MAGE-A3
27%



15
68
LIPI
25%



16
18
CCDC62
25%



17
63
KOC1
22%



18
75
MAGE-A4
17%



19
20
CRISP2
14%



20
64
KU-CT-1
13%



21
130
SPAG1
11%



22
69
MAGE-A1
11%



23
31
DBPC
10%



24
4
ADAM2
 9%



25
123
SCP-1
 8%



26
73
MAGE-A2
 7%



27
55
HAGE
 6%



28
156
TSPY1
 5%



29
121
SAGE1
 5%



30
72
MAGE-A12
 4%



31
98
NY-ESO-1
 2%



32
136
SSX-2
 2%



33
65
Lage-1
 2%



34
70
MAGE-A10
 1%



35
145
TDRD1
 0%



36
142
TAF7L
 0%



37
139
SSX-5
 0%



38
138
SSX-4
 0%



39
137
SSX-3
 0%



40
135
SSX-1
 0%



41
134
SPO11
 0%



42
95
NXF2
 0%



43
88
MORC1
 0%



44
85
MAGE-C1
 0%



45
81
MAGE-B2
 0%



46
80
MAGE-B1
 0%



47
77
MAGE-A6
 0%



48
44
FTHL17
 0%



49
42
FMR1NB
 0%



50
33
DKKL1
 0%



51
14
BRDT
 0%



52
10
BAGE-1
 0%



53
2
ACRBP
 0%







HEAD and NECK












1
140
Survivin
91%



2
171
CCDC110
67%



3
116
PRAME
61%



4
77
MAGE-A6
58%



5
81
MAGE-B2
45%



6
79
MAGE-A9
44%



7
75
MAGE-A4
42%



8
160
XAGE-1
40%



9
135
SSX-1
40%



10
74
MAGE-A3
40%



11
45
GAGE-1
39%



12
73
MAGE-A2
38%



13
71
MAGE-A11
37%



14
72
MAGE-A12
34%



15
63
KOC1
29%



16
138
SSX-4
29%



17
86
MAGE-C2
29%



18
29
CXorf48
27%



19
69
MAGE-A1
23%



20
145
TDRD1
22%



21
55
HAGE
20%



22
98
NY-ESO-1
20%



23
121
SAGE1
17%



24
136
SSX-2
17%



25
85
MAGE-C1
15%



26
70
MAGE-A10
12%



27
165
XAGE-3
12%



28
123
SCP-1
12%



29
103
OIP5
12%



30
18
CCDC62
12%



31
65
Lage-1
11%



32
20
CRISP2
11%



33
149
TEX15
11%



34
142
TAF7L
10%



35
44
FTHL17
10%



36
49
GAGE-7
 9%



37
139
SSX-5
 7%



38
130
SPAG1
 7%



39
10
BAGE-1
 6%



40
164
XAGE-2
 6%



41
107
PAGES
 6%



42
95
NXF2
 5%



43
59
HOM-TES-85
 4%



44
96
NY-BR-1
 2%



45
152
TPTE
 0%



46
146
TEKT5
 0%



47
134
SPO11
 0%



48
68
LIPI
 0%



49
66
LDHC
 0%







Esophageal












1
1
5T4
100% 



2
189
TTK
97%



3
159
WT1
88%



4
36
EpCAM
81%



5
129
SP17
81%



6
75
MAGE-A4
76%



7
63
KOC1
74%



8
111
PIWIL1
70%



9
77
MAGE-A6
68%



10
140
Survivin
67%



11
74
MAGE-A3
66%



12
27
CTCFL
56%



13
79
MAGE-A9
55%



14
153
TRAG-3
55%



15
73
MAGE-A2
53%



16
69
MAGE-A1
46%



17
22
CT46
35%



18
127
SLCO6A1
33%



19
65
Lage-1
31%



20
98
NY-ESO-1
31%



21
21
CT45
28%



22
70
MAGE-A10
27%



23
55
HAGE
27%



24
72
MAGE-A12
26%



25
121
SAGE1
22%



26
19
CDCA1
22%



27
18
CCDC62
21%



28
149
TEX15
20%



29
177
HSPB9
20%



30
95
NXF2
17%



31
169
CABYR
17%



32
179
KIF20A
15%



33
23
CT47
15%



34
85
MAGE-C1
12%



35
86
MAGE-C2
11%



36
145
TDRD1
10%



37
42
FMR1NB
 8%



38
138
SSX-4
 7%



39
10
BAGE-1
 6%



40
123
SCP-1
 2%



41
142
TAF7L
 0%



42
136
SSX-2
 0%



43
135
SSX-1
 0%



44
132
SPAN-Xc
 0%



45
44
FTHL17
 0%










A model population was used that comprises 15,693 subjects with up to 500 male and 500 female subjects from each of a broad range of ethnicities. The full 6 HLA class I and DQ & DRB1 class II alleles is available for each subject. The number of HLA class II bindings was duplicated to simulate the full genome.


For each of the 15,693 subjects all 15mer amino acid sequences in each TSA were identified that met the following HLA-binding criteria: (i) predicted to bind to at least four HLA class II alleles of the subject (HLA class II-binding PEPI4+); and (ii) comprise a 9mer amino acid sequence that is predicted to bind to at least three HLA class I of the subject (HLA class I-binding PEPI3+).


A hotspot was identified in the amino acid sequence of each TSA, wherein the hotspot is a 20mer that comprises a 15mer that meets the HLA binding criteria for the maximum number of subjects in the 15,693 subject population. The hotspot analysis is illustrated in FIG. 15.


The hotspot analysis was repeated in a further 29 cycles, or until no more sequences meeting the HLA-binding criteria could be identified. Hotspot sequences were screened against manufacturing feasibility criteria. Any hotspot sequence that contained a cysteine residue, or that had a calculated hydrophilicity of less than 33%, was rejected and a different hotspot sequence comprising a 15mer that met the HLA binding criteria for the next highest number of subjects was selected instead.


In each cycle subjects for whom the HLA-binding criteria were met for any hotspot sequence selected in any previous cycle were excluded. In this way the hotspots that were selected maximized, for each cycle, the number of subjects in the population for whom a hotspot sequence had been selected that is predicted to induce both CD4+ and CD8+ T cell responses. The hotspot sequences selected in each cycle and the TSA of which they are a fragment are shown in Table 25. A total of 3286 hotspot sequences were selected. FIG. 16 shows the distribution of hotspot sequence selection across the 192 CTA.









TABLE 25A







Hotspot Sequences and corresponding TAA

















Source



Source





Antigen(s)



Antigen(s)



SEQ

[AA posi-

SEQ

[AA posi-


Cy-
ID

tion in
Cy-
ID

tion in


cle
NO
Sequence
Antigen]
cle
NO
Sequence
Antigen]





 1
   1
PTSSASSFSSSAPFLASAVS
5T4
11
1394
AESMYGDFQEAMTHLQHKLI
FAM46D





[34, 53]



[204, 223]





 1
   2
VESTPMIMENIQELIRSAQE
ACRBP
11
1395
VAQTSLEEFNVLEMEVMARQ
FATE1





[275, 294]



[121, 140]





 1
   3
LNWEGVQYLWSFVLENHRRE
ACTL8
11
1396
KYRKLIESELSYFVIVYSVM
FBXO39





[73, 92]



[423, 442]





 1
   4
PHNFRVYSYSGTGIMKPLDQ
ADAM2
11
1397
STEPGSFKVDTASNLNSGKE
FSIP1





[67, 86]



[35, 54]





 1
   5
RIVEIVVVIDNYLYIRYERN
ADAM29 11

1398
LENFFRYFLALSDDKMEHAQ
FTHL17





[198, 217]



[49, 68]





 1
   6
RETFMNKFIYEIARRHPFLY
AFP
11
1399
PVNSQKITLEWASPQNFTSV
GASZ





[155, 174]



[382, 401]





 1
   7
DEVSFYANALTNLVIAMARK
AKAP-3
11
1400
NAPLIKPKRALSAARRAGTS
GATA-3





[122, 141]



[298, 317]





 1
   8
IDDLSFYVNRLSSLVIQMAH
AKAP-4
11
1401
EAFEIVVRHAKNYTNAMFKN
Glypican-3





[214, 233]



[113, 132]





 1
   9
RTKKELASALKSALSGHLET
ANXA2
11
1402
QLHDPSGYLAEADLSYTWDF
gp100





[78, 97]



[243, 262]





 1
  10
ARAVFLALSAQLLQARLMKE
BAGE-1
11
1403
IPEELVSMAERFKAHQQKRE
HAGE





[3, 22]



[613, 632]





 1
  11
GVVFLALSAQLLQARLMKEE
BAGE-2
11
1404
KQQTDIAVNWAGGLHHAKKS
HDAC1





[4, 23];



[126, 145]





BAGE-3









[4, 23]









 1
  12
GAVFLALSAQLLQARLMKEE
BAGE-5
11
1405
HNLLLNYGLYRKMEIYAPHK
HDAC2





[4, 23]



[40, 59]





 1
  13
NQEYKDAYKFAADVRLMFMN
BRDT
11
1406
RFHSEDYIDFLQRVSPTNMQ
HDAC3





[328, 347]



[60, 79]





 1
  14
PSNINQFAAAYFQELTMYRG
CABYR
11
1407
TLVVTANRGSSPQVMSRSNG
IGFS11





[30, 49]



[371, 390]





 1
  15
KRASQLASKMHSLLALMVGL
CAGE1
11
1408
IRSSYFTFQLQNIVKPLPPV
IL13RA2





[608, 627]



[223, 242]





 1
  16
QTTQNGRFYAISARFKPFSN
CALR3
11
1409
RDYTLRTFGEMADAFKSDYF
JARID1B





[67, 86]



[375, 394]





 1
  17
SPASELIAIQDSHSLGSSKS
CCDC62
11
1410
EEIPLKILAHNNFVGRLIGK
KOC1





[566, 585]



[275, 294]





 1
  18
AKRTSRFLSGIINFIHFREA
CDCA1
11
1411
GGLKKLLSFAENSTIPDIQK
KU-CT-1





[114, 133]



[274, 293]





 1
  19
EGKDPAFTALLTTQLQVQRE
CRISP2
11
1412
DLQHGSLFFSTSKITSGKDY
LDHC





[20, 39]



[64, 83]





 1
  20
QGPTAVRKRFFESIIKEAAR
CT45
11
1413
VKNTRKVAVSLSVHIKNLLK
LIPI





[152, 171]



[147, 166]





 1
  21
ATAQLQRTPMSALVFPNKIS
CT46
11
1414
KVLEYVIKVSARVRFFFPSL
MAGE-A1





[2, 21]



[278, 297]





 1
  22
LDMVHSLLHRLSHNDHILIE
CT47
11
1415
TSLGLTYDGMLSDVQSMPKT
MAGE-A10





[124, 143]



[205, 224]





 1
  23
GNNFIQNFYLPQNYIDQFLL
CTAGE1
11
1416
SFSQDILHDKIIDLVHLLLR
MAGE-A11





[22, 41]



[216, 235]





 1
  24
FAVLFLWRSFRSVTSRLYVR
CTAGE2
11
1417
APEEKIWEELSVLEASDGRE
MAGE-A12





[24, 43]



[216, 235]





 1
  25
FAVLFFLWRSFRSVRSRLYV
cTAGE5
11
1418
ELVHFLLLKYRAREPVTKAE
MAGE-A2





[53, 72]



[115, 134];









MAGE-A3









[115, 134]





 1
  26
HTRFTQSGTMKIHILQKHGE
CTCFL
11
1419
ESAGPPQSPQGASALPTTIS
MAGE-A4





[404, 423]



[58, 77]





 1
  27
KKNATMLYTASQAFLRHPDV
CTNNA2
11
1420
GSVVGNWQYFFPVIFSKASD
MAGE-A6





[214, 233]



[137, 156]





 1
  28
NEDNIYISNSIYFSIAIVSE
CXorf48
11
1421
TKAEMLESVIKNYKNHFPDI
MAGE-A8





[122, 141]



[134, 153]





 1
  29
NTGEMSSNSTALALVRPSSS
CXorf61
11
1422
EPRKLLTQDWVQENYLEYRQ
MAGE-A9





[27, 46]



[240, 259]





 1
  30
PPPFFYRRRFVRGPRPPNQQ
DBPC
11
1423
MLMHFILRKYKMREPIMKAD
MAGE-B1





[225, 244]



[114, 133]





 1
  31
SRVLHGYAAQQLPSLLKERE
DCAF12
11
1424
FGLELNKVNPNGHTYTFIDK
MAGE-B2





[64, 83]



[164, 183]





 1
  32
NLLRGIDSLFSAPMDFRGLP
DKKL1
11
1425
SKMKVLEFWAKVNKTVPSAF
MAGE-B3





[63, 82]



[284, 303]





 1
  33
IAERQRVMAAQVALRRQQAQ
DMRT1
11
1426
FRKVSQRTELVFGLALKEVN
MAGE-B4





[108, 127]



[151, 170]





 1
  34
GKKIEVYLRLHRHAYPEQRQ
DPPA2
11
1427
SASQKAIIFKRLSKDAVKKK
MAGE-B6





[113, 132]



[179, 198]





 1
  35
SERVRTYWIIIELKHKAREK
EpCAM
11
1428
LQIPVSPSSSSTLLSLFQSF
MAGE-C1





[136, 155]



[233, 252]





 1
  36
KGWDLMQNIMNDMPIYMYSV
EPHA2
11
1429
KDYFPVILKRAREFMELLFG
MAGE-C2





[50, 69]



[175, 194]





 1
  37
KRDNRVAYMNPIAMARWRGP
FAM133A
11
1430
NDVLAMKRSSSLPSWKSLLN
MORC1





[3, 22]



[759, 778]





 1
  38
RRQFEFSVDSFQIVLDPMLD
FAM46D
11
1431
AFTKLNNASSRSHSIFTVKI
MPHOSPH1





[166, 185]



[340, 359]





 1
  39
GENQEHLVIAEMMELGSRSR
FATE1
11
1432
RRKNYGQLDIFPARDTYHPM
MUC-1





[26, 45]



[1187, 1206]





 1
  40
EHLEVKFMNPYNAVLTKKFQ
FBXO39
11
1433
RAHLAKNLKLTETQVKIWFQ
NKX3.1





[90, 109]



[154, 173]





 1
  41
SGSSYFVLANGHILPNSENA
FMR1NB
11
1434
EKLDAFFGFQLSQEIKQQIH
NLRP4





[92, 111]



[513, 532]





 1
  42
ISDTKDYFMSKTLGIGRLKR
FSIP1
11
1435
QSYSLIHQLLSAEDLEPLGT
NR6A1





[515, 534]



[249, 268]





 1
  43
GWESGLVAMESAFHLEKNVN
FTHL17
11
1436
YLKGELLRRTKRDIVDSLSA
NXF2





[93, 112]



[454, 473]





 1
  44
EEMRSHYVAQTGILWLLMNN
GAGE-1
11
1437
SLVEKTPDEAASLVEGTSDK
NY-BR-1





[109, 128]



[263, 282]





 1
  45
SRGKSTYYWPRPRRYVQPPE
GAGE-3
11
1438
KPAELSRGRGILIFSDFKDF
NYD-TSPG





[4, 23]



[212, 231]





 1
  46
WRGRSTYYWPRPRRYVQPPE
GAGE-6
11
1439
EAARRQFQSQLADLQQLPDI
ODF2





[3, 22];



[583, 602]





GAGE-7









[3, 22]









 1
  47
EKFKKAMTIGDVSLVQELLD
GASZ
11
1440
LTPGPGDYFPEKSTKYVFDS
ODF3





[48, 67]



[99, 118]





 1
  48
ALSRHMSSLSHISPFSHSSH
GATA-3
11
1441
PFQWRITHSFRWMAQVLASE
ODF4





[396, 415]



[67, 86]





 1
  49
EFVGEFFTDVSLYILGSDIN
Glypican-3
11
1442
SVHLAWDLSRSLGAVVFSRV
0IP5





[143, 162]



[90, 109]





 1
  50
DGGNKHFLRNQPLTFALQLH
gp100
11
1443
EHGDSSAYENVKFIVNVRDI
PASD1





[226, 245]



[118, 137]





 1
  51
RLNDLQMSNFVNLKNITYLV
HAGE
11
1444
GTGVNVYLMKRSPRGLSHSP
PBK





[375, 394]



[41, 60]





 1
  52
KPHRIRMTHNLLLNYGLYRK
HDAC1
11
1445
TEADRVIQRTNSMQQLEQWI
PEPP2





[31, 50];



[399, 418]





HDAC2









[32, 51]









 1
  53
TIFENLKMLNHAPSVQIHDV
HDAC3
11
1446
KRVNTRFFAQSGGRLQNPLP
PIWIL1





[361, 380]



[742, 761]





 1
  54
KKVNFLDMSLDDIIIYKELE
HOM-TES-85
11
1447
AGPIGMRMSPPAWVELKDDR
PIWIL2





[21, 40]



[629, 648]





 1
  55
LINLNVIWMVTPLSNANQPE
IGFS11
11
1448
HDIVNRQKSIAGFVASTNAE
PIWIL3





[52, 71]



[657, 676]





 1
  56
PIRSSYFTFQLQNIVKPLPP
IL13RA2
11
1449
LNKWYKYNHDLPARIIVYRA
PIWIL4





[222, 241]



[674, 693]





 1
  57
KLRYRYTLDDLYPMMNALKL
JARID1B
11
1450
KKLKIFAMPMQDIKMILKMV
PRAME





[731, 750]



[211, 230]





 1
  58
PDESWALKAIEALSGKIELH
KOC1
11
1451
YSEELFPEELSVVLGTNDLT
PRSS55





[45, 64]



[111, 130]





 1
  59
IQNHDIMHAIISPLRSANTV
KU-CT-1
11
1452
EENSRLLQERGVAYINADSS
PSMA





[435, 454]



[436, 455]





 1
  60
PDSRLLQLHITMPFSSPMEA
Lage-1
11
1453
YELIRGRRYPLSEKKIMHYM
RAGE-1





[83, 102]



[90, 109]





 1
  61
QRNVAIMKSIIPAIVHYSPD
LDHC
11
1454
RPRRINMTDTGISPMSTRDP
SAGE1





[111, 130]



[226, 245]





 1
  62
SEELNIILQGNIILSTEKSK
LEMD1
11
1455
AIVEAARLEKVHSLFRRQLA
SART3





[67, 86]



[237, 256]





 1
  63
QKYSAHAFQFSPRNVLWLLV
LIPI
11
1456
DSDPALQKVNFLPVLEQVGN
SCP-1





[12, 31]



[63, 82]





 1
  64
VKVLEYVIKVSARVRFFFPS
MAGE-A1
11
1457
DVIEGKTAVIEKRRKKRSSA
SCP3a





[277, 296]



[41, 60]





 1
  65
DDTTAMASASSSATGSFSYP
MAGE-A10
11
1458
VAFPPRAKDGLVVFGKNSAR
SCRN1





[349, 368]



[11, 30]





 1
  66
DPTSHSYVLVTSLNLSYDGI
MAGE-A11
11
1459
EAQNKELKTQVALSSETPRT
se57-1





[283, 302]



[289, 308]





 1
  67
ALSRKMAELVHFLLLKYRAR
MAGE-A12
11
1460
SSGISFQSKYLSFFILGQTV
SLCO6A1





[108, 127]



[219, 238]





 1
  68
GREDSVFAHPRKLLMQDLVQ
MAGE-A2
11
1461
MITQLISLREQLLAAHDEQK
SOX-6





[233, 252]



[194, 213]





 1
  69
FPVIFSKASSSLQLVFGIEL
MAGE-A3
11
1462
DLNKVILLDPSIIEAKMELE
SPAG1





[147, 166]



[713, 732]





 1
  70
VNARVRIAYPSLREAALLEE
MAGE-A4
11
1463
GGSGAVMSERVSGLAGSIYR
SPAG9





[294, 313]



[14, 33]





 1
  71
KSPQGASAIPTAIDFTLWRQ
MAGE-A5
11
1464
FLPITSSDIDVVESEAVSVL
SPATA19





[63, 82]



[20, 39]





 1
  72
KKLLTQYFVQENYLEYRQVP
MAGE-A6
11
1465
ILSTSKGLIAGNLRYIEEDG
SPO11





[243, 262]



[170, 189]





 1
  73
RAPEEAIWEALSVMGLYDGR
MAGE-A8
11
1466
YMKRKYEAMTKLGFKAILPS
SSX-3





[218, 237]



[50, 69]





 1
  74
PAQLEFMFQEALKLKVAELV
MAGE-A9
11
1467
QKVGSLEPRVEVLINRINEV
SYCE1





[97, 116]



[44, 63]





 1
  75
DNPSGHTYTLVSKLNLTNDG
MAGE-B1
11
1468
TVRNLARSQSVKMKDKLKID
TAF7L





[168, 187]



[113, 132]





 1
  76
SSDPPRFQFLWGPRAYAETS
MAGE-B2
11
1469
EVHIVRNGGTSMMVENMAVR
TAG-1





[265, 284]



[997, 1016]





 1
  77
LIMKTNMLVQFLMEMYKMKK
MAGE-B3
11
1470
KLVENSLSISNPGLFTSLGP
TDRD1





[111, 130]



[144, 163]





 1
  78
SSSVLRDTASSSLAFGIPQE
MAGE-B4
11
1471
TLKLRLRETQDTLQLLVMTK
TEKT5





[42, 61]



[428, 447]





 1
  79
PQILNRTSQHLVVAFGVELK
MAGE-B6
11
1472
SREFTNAYKLPLAVGPPSLN
TEX14





[234, 253]



[781, 800]





 1
  80
RPVSSFFSYTLASLLQSSHE
MAGE-C1
11
1473
FRQPIFSQYASHQPLPQATY
TEX15





[777, 796]



[2742, 2761]





 1
  81
ATVMASESLSVMSSNVSFSE
MAGE-C2
11
1474
PSSRILQLSKPKAPATLLEE
THEG





[354, 373]



[264, 283]





 1
  82
EPVVPNAPPAYEKLSAEQSP
MART1
11
1475
DLKIQIEMEKKVVFSTISLG
TPTE





[94, 113]



[430, 449]





 1
  83
RSQAGMFIYSNNRLIKMHEK
MORC1
11
1476
KVLKSERDKIFLLYEQAQEE
TSGA10





[363, 382]



[55, 74]





 1
  84
EIYNEYIYDLFVPVSSKFQK
MPHOSPH1
11
1477
GAGEAPGALSTADPADQSVQ
TSP50





[277, 296]



[39, 58]





 1
  85
GVSFFFLSFHISNLQFNSSL
MUC-1
11
1478
YEVEAYRRRHHNSSLNFFNW
TSPY1





[1039, 1058]



[241, 260]





 1
  86
VQPTQKQQKHRLFHWQANSE
NA17-A
11
1479
YRNGDFFISSKDLGYDYSYL
TYR





[45, 64]



[433, 452]





 1
  87
EEAFSRASLVSVYNSYPYYP
NKX3.1
11
1480
ERRFSRSDQLKRHQRRHTGV
WT1





[202, 221]



[361, 380]





 1
  88
SLLRKKMLPEASLLIAIKPV
NLRP4
11
1481
FINHQIIYAGEKNHQYGKSF
ZNF165





[263, 282]



[307, 326]





 1
  89
IERLIYLYHKFHQLKVSNEE
NR6A1
12
1482
LADLSPFAFSGSNASVSAPS
5T4





[369, 388]



[154, 173]





 1
  90
QSQGSVLAFTRTFIATPGSS
NXF2
12
1483
PKFHSESLSSNPSSFAPRVR
ACRBP





[510, 529]



[254, 273]





 1
  91
KRASQYSGQLKVLIAENTML
NY-BR-1
12
1484
WLGASVVAHLSTYQSEWMSR
ACTL8





[1103, 1122]



[338, 357]





 1
  92
WTLSRFFSYLRSWDVDDLLL
NYD-TSPG
12
1485
WRVLFLLSGLGGLRMDSNFD
ADAM2





[322, 341]



[2, 21]





 1
  93
KEFTVSGNILTIRLTAADHR
NY-ESO-1
12
1486
VIDNYLYIRYERNDSKLLED
ADAM29





[124, 143]



[205, 224]





 1
  94
DEKRELAKLARTTNRILASS
ODF1
12
1487
KGEEELQKYIQESQALAKRS
AFP





[100, 119]



[396, 415]





 1
  95
ADKDLYVAEALSTLESWRSR
ODF2
12
1488
QKATDIMDAMLRKLYNVMFA
AKAP-3





[428, 447]



[368, 387]





 1
  96
EKSTKYVFDSAPSHSISART
ODF3
12
1489
LAKDLIVSALKLIQYHLTQQ
AKAP-4





[109, 128]



[540, 559]





 1
  97
NSPLPFQWRITHSFRWMAQV
ODF4
12
1490
VPHLQKVFDRYKSYSPYDML
ANXA2





[63, 82]



[222, 241]





 1
  98
ADSVHLAWDLSRSLGAVVFS
OIP5
12
1491
YNPPDHEVVTMARMLQDVFE
BRDT





[88, 107]



[351, 370]





 1
  99
MGFLRRLIYRRRPMIYVESS
PAGE1
12
1492
DQAPEVTLQADIEVMSTVHI
CABYR





[1, 20]



[274, 293]





 1
 100
GPDMEAFQQELALLKIEDEP
PAGE2
12
1493
KEAQEQEFLSLQEEFQKLEK
CAGE1





[65, 84]



[477, 496]





 1
 101
RGDGQEAPDVVAFVAPGESQ
PAGE4
12
1494
SGKINRHEHYFNQFHRRNEL
CALR3





[12, 31]



[365, 384]





 1
 102
GTDVEAFQQELALLKIEDAP
PAGE5
12
1495
EKQDYKQKLKALKIEVNKLK
CCDC62





[84, 103]



[204, 223]





 1
 103
NHPVRFLQAQPIVPVQRAAE
PASD1
12
1496
EEQEEFKQLSDGIQELQQSL
CDCA1





[599, 618]



[175, 194]





 1
 104
RYKASQDPFPAAIILKVALN
PBK
12
1497
ALQKKYLRMVVLAVYTNPED
CT46





[130, 149]



[88, 107]





 1
 105
KEMELWMKAMLDAALVQTEP
PEPP2
12
1498
LSGPAELRSFNMPSLDKMDG
CTAGE2





[254, 273]



[603, 622];









cTAGE5









[634, 653]





 1
 106
QYAHKLAFLVGQSIHREPNL
PIWIL1
12
1499
AEAKMTFKIFQMNEERLKIA
cTAGE5





[833, 852]



[188, 207]





 1
 107
RSVVGFVASINLTLTKWYSR
PIWIL2
12
1500
FRQKQLLNAHFRKYHDANFI
CTCFL





[755, 774]



[523, 542]





 1
 108
QKSIAGFVASTNAELTKWYS
PIWIL3
12
1501
QPFEENEFIDASRLVYDGVR
CTNNA2





[663, 682]



[602, 621]





 1
 109
RTLNKQGMMMSIATKIAMQM
PIWIL4
12
1502
GDYGMIDESIYFSSDVVTGN
CXorf48





[580, 599]



[48, 67]





 1
 110
KAVSQDMVIYSTEIHYSSKG
PLAC1
12
1503
SRDILNNFPHSIARQKRILV
CXorf61





[85, 104]



[63, 82]





 1
 111
RLDQLLRHVMNPLETLSITN
PRAME
12
1504
AIKRNNPRKFLRSVGDGETV
DBPC





[312, 331]



[125, 144]





 1
 112
KNTPGIYTSLVNYNLWIEKV
PRSS55
12
1505
GAVSLDGYFHLWKAENTLSK
DCAF12





[279, 298]



[268, 287]





 1
 113
SNPIVLRMMNDQLMFLERAF
PSMA
12
1506
DAQESSLGLTGLQSLLQGFS
DKKL1





[656, 675]



[37, 56]





 1
 114
TKFKQSRAMNFDFPFKKGSG
RAGE-1
12
1507
GISHPIPLPSAAELLVKREN
DMRT1





[227, 246]



[132, 151]





 1
 115
GSTGFSSRLAATQDLPFIHQ
RCAS1
12
1508
LVISRKKRMAKYEKAEIKEM
EpCAM





[123, 142]



[286, 305]





 1
 116
PPAFINMAATGVSSMSTRDQ
SAGE1
12
1509
GVPFRTVSEWLESIKMQQYT
EPHA2





[602, 621]



[903, 922]





 1
 117
KDSITVFVSNLPYSMQEPDT
SART3
12
1510
MSEIRFTNLTWDQVITLDQV
FAM46D





[701, 720]



[1, 20]





 1
 118
NNNIEKMITAFEELRVQAEN
SCP-1
12
1511
AVNRRLRALEEQGATWRHRE
FATE1





[215, 234]



[143, 162]





 1
 119
KLNQEYSQQFLTLFQQWDLD
SCP3a
12
1512
VESAVWYVKKFGRYLEHLEV
FBXO39





[120, 139]



[75, 94]





 1
 120
RRHELYKAHEWARAIIESDQ
SCRN1
12
1513
KHNQDFIKRNIELAKESRNP
FSIP1





[343, 362]



[249, 268]





 1
 121
TSELKTEGVSPYLMLIRLRK
se57-1
12
1514
TSYLYLSMAFYFNRDDVALE
FTHL17





[316, 335]



[31, 50]





 1
 122
QSSGISFQSKYLSFFILGQT
SLCO6A1
12
1515
SKDQQKILAALKELQVEEIQ
GASZ





[218, 237]



[320, 339]





 1
 123
KERQLSTMITQLISLREQLL
SOX-6
12
1516
GPLSVYPPASSSSLSGGHAS
GATA-3





[187, 206]



[128, 147]





 1
 124
PDNIPAFAAAYFESLLEKRE
SP17
12
1517
EELVNGMYRIYDMENVLLGL
Glypican-3





[32, 51]



[304, 323]





 1
 125
EKDPSLVYQHLLYLSKAERF
SPAG1
12
1518
QVSLKVSNDGPTLIGANASF
gp100





[863, 882]



[65, 84]





 1
 126
RDAVKFFVAVPGQVISPQSS
SPAG9
12
1519
TRNDWRVASELINILERANQ
HAGE





[1223, 1242]



[592, 611]





 1
 127
KKMKTSESSTILVVRYRRNV
SPAN-Xc
12
1520
QLSTGGSVASAVKLNKQQTD
HDAC1





[40, 59]



[111, 130]





 1
 128
TRIQFIRWSHTRIFQVPSEM
SPATA19
12
1521
SDEYIKFLRSIRPDNMSEYS
HDAC2





[112, 131]



[70, 89]





 1
 129
AEIQALTFLSSDYLSRVYLP
SPO11
12
1522
EDYIDFLQRVSPTNMQGFTK
HDAC3





[368, 387]



[64, 83]





 1
 130
RIQVEHPQMTFGRLHRIIPK
SSX-1
12
1523
TESVSHFSDLGQSFSFHSGN
IGFS11





[91, 110]



[332, 351]





 1
 131
VERPQMTFGRLQGISPKIMP
SSX-2
12
1524
LVTATVENETYTLKTTNETR
IL13RA2





[94, 113]



[283, 302]





 1
 132
QRPQMTFGRLQGIFPKIMPK
SSX-3
12
1525
PARRAKRMRAEAMNIKIEPE
JARID1B





[95, 114]



[227, 246]





 1
 133
SEKIVYVYMKLNYEVMTKLG
SSX-4
12
1526
KKIRESYENDIASMNLQAHL
KOC1





[43, 62]



[345, 364]





 1
 134
NQVEHPQMTFGRLQGIFPKI
SSX-5
12
1527
KSDNEEVREAAALALANLTT
KU-CT-1





[92, 111]



[366, 385]





 1
 135
EFEETAKKVRRAIEQLAAMD
Survivin
12
1528
AIGLSVMDLVGSILKNLRRV
LDHC





[123, 142]



[251, 270]





 1
 136
LFLRSQEAAATVQLFQEEHR
SYCE1
12
1529
KPPYSRLDYTDAKFVDVIHS
LIPI





[229, 248]



[213, 232]





 1
 137
ESGQYRANEGTSSIVMEIQK
TAF7L
12
1530
IFGKASESLQLVFGIDVKEA
MAGE-A1





[377, 396]



[143, 162]





 1
 138
GADAQYFVYSNESVRPYTPF
TAG-1
12
1531
SSPSVVASLPLDQSDEGSSS
MAGE-A10





[765, 784]



[92, 111]





 1
 139
RGLPASTLSRLSNRLLLRLE
TAG-2a
12
1532
QNWVQEKYLVYRQVPGTDPA
MAGE-A11





[35, 54]



[361, 380]





 1
 140
SSEVLEYMNQLSASLKETYA
TDRD1
12
1533
QEGPSTFPDLETSFQVALSR
MAGE-A12





[285, 304]



[92, 111]





 1
 141
LPGYRYLNSWRPSLFYKIAN
TEKT5
12
1534
DLESEFQAAISRKMVELVHF
MAGE-A2





[41, 60]



[100, 119]





 1
 142
LSQFWEFSETTASTVSTTLH
TEX101
12
1535
VGNWQYFFPVIFSKASSSLQ
MAGE-A3





[120, 139]



[140, 159]





 1
 143
RLLKAGVISAQNIYSFGFGK
TEX14
12
1536
LEHVVRVNARVRIAYPSLRE
MAGE-A4





[193, 212]



[288, 307]





 1
 144
GKINQNYASIITEAFPKPKD
TEX15
12
1537
VGNWQYFFPVIFSKASDSLQ
MAGE-A6





[368, 387]



[140, 159]





 1
 145
VSRAAQMAVPSSRILQLSKP
THEG
12
1538
AASSSSTLIMGTLEEVTDSG
MAGE-A8





[255, 274]



[38, 57]





 1
 146
SSDRTINLLEVLPWPTEWIF
TMEM31
12
1539
EEPSSSVDPAQLEFMFQEAL
MAGE-A9





[63, 82]



[89, 108]





 1
 147
DLDLTYVTERIIAMSFPSSG
TPTE
12
1540
ETTKMKVLEFLAKMNGATPR
MAGE-B1





[236, 255]



[279, 298]





 1
 148
RKDQGFLEKEFYHKTNIKMR
TRAG-3
12
1541
AETSKMKVLEFLAKVNGTTP
MAGE-B2





[14, 33]



[281, 300]





 1
 149
EELQKVQFEKVSALADLSST
TSGA10
12
1542
LKKPQRALSTTTSVDVSYKK
MAGE-B3





[492, 511]



[62, 81]





 1
 150
VIMHSRYRAQRFWSWVGQAN
TSP50
12
1543
TTAMTSAYSRATSSSSSQPM
MAGE-B4





[186, 205]



[327, 346]





 1
 151
KIMLFFRSNPYFQNKVITKE
TSPY1
12
1544
RTSQHLVVAFGVELKEMDSS
MAGE-B6





[200, 219]



[239, 258]





 1
 152
HNRESYMVPFIPLYRNGDFF
TYR
12
1545
PLQSPVISFSSSTSLSPFSE
MAGE-C1





[420, 439]



[850, 869]





 1
 153
RGKKGAATKMAAVTAPEAES
VCX
12
1546
EEEEEASSASSTLYLVFSPS
MAGE-C2





[50, 69]



[34, 53]





 1
 154
NKRYFKLSHLQMHSRKHTGE
WT1
12
1547
ERSQRSQIANITTVWRAQPT
MORC1





[331, 350]



[668, 687]





 1
 155
VGILHLGSRQKKIRIQLRSQ
XAGE-1
12
1548
VQQIQSNYDIAIAELHVQKS
MPHOSPH1





[13, 32];



[933, 952]





XAGE-1b









[13, 32];









XAGE-1c









[92, 111]









 1
 156
SRQKKIRIQLRSQVLGREMR
XAGE-1d
12
1549
DVSVSDVPFPFSAQSGAGVP
MUC-1





[20, 39]



[1138, 1157]





 1
 157
MSWRGRSTYRPRPRRSLQPP
XAGE-2
12
1550
LSSELGDLEKHSSLPALKEE
NKX3.1





[1, 20]



[184, 203]





 1
 158
MIWRGRSTYRPRPRRSVPPP
XAGE-3
12
1551
YISEMLLRNKSVRYLDLSAN
NLRP4





[1, 20]



[798, 817]





 1
 159
KSFKSPKLAKHAAVFSGDKT
ZNF165
12
1552
EELHRFSDEGMEVIERLIYL
NR6A1





[324, 343]



[356, 375]





 2
 160
ELASNHFLYLPRDVLAQLPS
5T4
12
1553
VTIPYGIKYDKAWLMNSIQS
NXF2





[216, 235]



[127, 146]





 2
 161
SHKTPFVSPLLASQSLSIGN
ACRBP
12
1554
ESLDQKLFQLQSKNMWLQQQ
NY-BR-1





[399, 418]



[1261, 1280]





 2
 162
NFSVWLGASVVAHLSTYQSE
ACTL8
12
1555
YWRTSSFRMTEHNSVKPWQQ
NYD-TSPG





[334, 353]



[124, 143]





 2
 163
EANELLHTFLRWKTSYLVLR
ADAM2
12
1556
ELSKSMESMRGHLQAQLRSK
ODF2





[242, 261]



[337, 356]





 2
 164
IKVKKLLFSKHLPVFTYTDQ
ADAM29
12
1557
PINIWIFELERNVSIPIGWS
ODF4





[67, 86]



[163, 182]





 2
 165
SGEKNIFLASFVHEYSRRHP
AFP
12
1558
GGTERAIDQASFTTSMEWDT
OIP5





[344, 363]



[22, 41]





 2
 166
SEGIMTYANSVVSDMMVSIM
AKAP-3
12
1559
GPPDPQAFQGPAAYQPDQMR
PASD1





[282, 301]



[735, 754]





 2
 167
DQVNIDYLMNRPQNLRLEMT
AKAP-4
12
1560
PINMEELDESYQKVIELFSV
PBK





[161, 180]



[280, 299]





 2
 168
STPPSAYGSVKAYTNFDAER
ANXA2
12
1561
YSPQRTYRSEVSSPIQRGDV
PEPP2





[18, 37]



[556, 575]





 2
 169
QLLQARLMKEESPVVSWRLE
BAGE-1
12
1562
APLISVKPLDNWLLIYTRRN
PIWIL1





[13, 32];



[485, 504]





BAGE-2









[13, 32];









BAGE-3









[13, 32];









BAGE-5









[13, 32]









 2
 170
TALDVHFVSTLEPLSNAVKR
BAGE-2
12
1563
DIPLKQLMVIGMDVYHDPSR
PIWIL2





[37, 56];



[733, 752]





BAGE-3









[37, 56]









 2
 171
KEMLAKKHFSYAWPFYNPVD
BRDT
12
1564
KRINTRFFLKHGSNFQNPPP
PIWIL3





[281, 300]



[763, 782]





 2
 172
AKYSSVYMEAEATALLSDTS
CABYR
12
1565
DYPKIIKVQENPAAFVRAIQ
PIWIL4





[372, 391]



[518, 537]





 2
 173
ENHPKSMTMMPALFKENRND
CAGE1
12
1566
DVMHLSQSPSVSQLSVLSLS
PRAME





[756, 775]



[338, 357]





 2
 174
FSNKGKTLVIQYTVKHEQKM
CALR3
12
1567
FKRANMDNDIALLLLASPIK
PRSS55





[84, 103]



[148, 167]





 2
 175
TVFGEKSVITLSSIFTKDLV
CCDC62
12
1568
PRRTILFASWDAEEFGLLGS
PSMA





[385, 404]



[412, 431]





 2
 176
TLSFPRYNVAEIVIHIRNKI
CDCA1
12
1569
IGEGTFSEVMKMQSLRDGNY
RAGE-1





[3, 22]



[10, 29]





 2
 177
PTSWSSAIQSWYDEILDFVY
CRISP2
12
1570
RKQDNVLSNVLSGLINMAGA
SAGE1





[104, 123]



[451, 470]





 2
 178
SPSYQKRQRMALLARKQGAG
CT45
12
1571
PIPESVIQNYNKALQQLEKY
SART3





[24, 43]



[276, 295]





 2
 179
DALQKKYLRMVVLAVYTNPE
CT46
12
1572
FVPPRSSSSQVSAVKPQTLG
SCP-1





[87, 106]



[10, 29]





 2
 180
EEGNEAANFDLAVVARRYPA
CT47
12
1573
RKRLEMYTKASLKTSNQKIE
SCP3a





[97, 116]



[89, 108]





 2
 181
FLFGGNNFIQNFYLPQNYID
CTAGE1
12
1574
RPRDEVQEVVYFSAADHEPE
SCRN1





[18, 37]



[30, 49]





 2
 182
ALKKLIHAAKLNASLKTLEG
CTAGE2
12
1575
NLVQRMEKEKRTLLERKLSL
se57-1





[282, 301];



[193, 212]





cTAGE5









[312, 331]









 2
 183
MFTSSRMSSFNRHMKTHTSE
CTCFL
12
1576
IRFGGFRKRKKAKSSVSKKP
SLCO6A1





[263, 282]



[59, 78]





 2
 184
SSDSSMLDSATSLIQAAKNL
CTNNA2
12
1577
QAFPDMHNSNISKILGSRWK
SOX-6





[853, 872]



[641, 660]





 2
 185
RNGVIDYTIFFTLDSVKLPD
CXorf48
12
1578
EKHLQALAPESRALRKDKPA
SPAG1





[188, 207]



[62, 81]





 2
 186
DLSRDILNNFPHSIARQKRI
CXorf61
12
1579
GLAGSIYREFERLIGRYDEE
SPAG9





[61, 80]



[26, 45]





 2
 187
DKPVLAIQVLGTVKWFNVRN
DBPC
12
1580
IQDIITSLARNEAPAFTIDN
SPO11





[86, 105]



[55, 74]





 2
 188
GQGSLLFYDIRAQRFLEERL
DCAF12
12
1581
KGERPGAAHQAGPDVLIGQE
SYCE1





[358, 377]



[313, 332]





 2
 189
TELHPRVAFWIIKLPRRRSH
DKKL1
12
1582
VIESLRTLDKKTFYKTADIS
TAF7L





[161, 180]



[159, 178]





 2
 190
SDSTYYSSFYQPSLFPYYNN
DMRT1
12
1583
PGNISWTFSSSSLSIKWDPV
TAG-1





[205, 224]



[916, 935]





 2
 191
MLASWARIAARAVQPKALNS
DPPA2
12
1584
SLSISNPGLFTSLGPPLRST
TDRD1





[185, 204]



[149, 168]





 2
 192
PGQTLIYYVDEKAPEFSMQG
EpCAM
12
1585
QFTDTNLAFNARISEVTDVK
TEKT5





[244, 263]



[334, 353]





 2
 193
DLAPDTTYLVQVQALTQEGQ
EPHA2
12
1586
KILKKGIYVDAVNSLGQTAL
TEX14





[496, 515]



[41, 60]





 2
 194
EKEKDVASLSKKAKKSYPDD
FAM133A
12
1587
SNAAIQIASATMPALSLNND
TEX15





[168, 187]



[598, 617]





 2
 195
KNLELKFVSSLRRQFEFSVD
FAM46D
12
1588
SRRVEELSRPKRFYLEYYNN
THEG





[155, 174]



[191, 210]





 2
 196
EVMRRQLYAVNARLRALEEQ
FATE1
12
1589
SSGRQSFYRNPIKEVVRFLD
TPTE





[135, 154]



[253, 272]





 2
 197
NLKVNFFFERIMKYERLARI
FBXO39
12
1590
TERDVAFTDLRRMTTERDSL
TSGA10





[282, 301]



[103, 122]





 2
 198
QSLEEDSALEALLNFFFPTT
FMR1NB
12
1591
FWSWVGQANDIGLLKLKQEL
TSP50





[114, 133]



[197, 216]





 2
 199
KLQELSAASPTISSFSPRLE
FSIP1
12
1592
KVITKEYLVNITEYRASHST
TSPY1





[326, 345]



[214, 233]





 2
 200
LELYTSYLYLSMAFYFNRDD
FTHL17
12
1593
ASPLTGIADASQSSMHNALH
TYR





[27, 46]



[348, 367]





 2
 201
MSWAGASTYRPRRRYVEPP
GAGE-1
12
1594
AQFPNHSFKHEDPMGQQGSL
WT1





[1, 20];



[169, 188]





GAGE-2









[1, 20];









GAGE-8









[1, 20]









 2
 202
MNLSRGKSTYYWPRPRRYVQ
GAGE-3
12
1595
DQSFKWNSDFINHQIIYAGE
ZNF165





[1, 20]



[298, 317]





 2
 203
MSWRGRSTYYWPRPRRYVQP
GAGE-6
13
1596
GYHYRYEINADPRLTNLSSN
5T4





[1, 20];



[398, 417]





GAGE-7









[1, 20]









 2
 204
DREKDHIFSSYTAFGDLEVF
GASZ
13
1597
SGWLQTEFLSFQDGDFPTKI
ACRBP





[263, 282]



[457, 476]





 2
 205
GLYYKLHNINRPLTMKKEGI
GATA-3
13
1598
GSRVELTPMQRVAPEMFFSP
ACTL8





[343, 362]



[243, 262]





 2
 206
ELIQKLKSFISFYSALPGYI
Glypican-3
13
1599
VNLMQKNFLPHNFRVYSYSG
ADAM2





[390, 409]



[58, 77]





 2
 207
VLMAVVLASLIYRRRLMKQD
gp100
13
1600
FQGILQINDFAYEIKPLAFS
ADAM29





[605, 624]



[123, 142]





 2
 208
SATWPHSVHRLAQSYLKEPM
HAGE
13
1601
LIFLLNFTESRTLHRNEYGI
AFP





[427, 446]



[9, 28]





 2
 209
GAGKGKYYAVNYPLRDGIDD
HDAC1
13
1602
PPSKKSFFYKEVFESRNGDY
AKAP-3





[215, 234]



[234, 253]





 2
 210
GAGKGKYYAVNFPMRDGIDD
HDAC2
13
1603
SSGKPIPASVVLKRVLLRHT
AKAP-4





[216, 235]



[356, 375]





 2
 211
QEAFYLTDRVMTVSFHKYGN
HDAC3
13
1604
VNILTNRSNAQRQDIAFAYQ
ANXA2





[178, 197]



[57, 76]





 2
 212
MASFRKLTLSEKVPPNHPSR
HOM-TES-85
13
1605
PDSQQQYNVVKTVKVTEQLR
BRDT





[1, 20]



[255, 274]





 2
 213
QVQGTVTIRNISALSSGLYQ
IGFS11
13
1606
KTTSGMSKKSVESVKLAQLE
CABYR





[195, 214]



[350, 369]





 2
 214
QLQNIVKPLPPVYLTFTRES
IL13RA2
13
1607
SNLYLEKRVKELQMKITKQQ
CAGE1





[231, 250]



[329, 348]





 2
 215
RGHYERILNPYNLFLSGDSL
JARID1B
13
1608
KMKNTDYLTQYDLSEFENIG
CALR3





[172, 191]



[279, 298]





 2
 216
YENDIASMNLQAHLIPGLNL
KOC1
13
1609
APGHMSDVEWMSIFKPSKMQ
CCDC62





[351, 370]



[525, 544]





 2
 217
ATVLTNMAMQEPLRLNIQNH
KU-CT-1
13
1610
RYNVAEIVIHIRNKILTGAD
CDCA1





[419, 438]



[8, 27]





 2
 218
GAVLKDFTVSGNLLFMSVRD
Lage-1
13
1611
KTRSGKVFQNKMANGNQPVK
CT46





[120, 139]



[333, 352]





 2
 219
WAIGLSVMDLVGSILKNLRR
LDHC
13
1612
SETRASLYPPTLLEGPLRLS
CTAGE2





[250, 269]



[498, 517]





 2
 220
LPSTRKLYEKKLVQLLVSPP
LEMD1
13
1613
SETRAFLSPPTLLEGPLRLS
cTAGE5





[27, 46]



[529, 548]





 2
 221
AQFYNDFVNISSIGLTYFQS
LIPI
13
1614
QLLAERTKEQLFFVETMSGD
CTCFL





[409, 428]



[190, 209]





 2
 222
VSARVRFFFPSLREAALREE
MAGE-A1
13
1615
GAIRGRAARVIHIINAEMEN
CTNNA2





[286, 305]



[541, 560]





 2
 223
LESVIRNYEDHFPLLFSEAS
MAGE-A10
13
1616
GLINSNTDNNLAVYDLSRDI
CXorf61





[161, 180]



[47, 66]





 2
 224
YAGREHFLFGEPKRLLTQNW
MAGE-A11
13
1617
LHKRKRLPPVKRSLVYYLKN
DCAF12





[344, 363]



[33, 52]





 2
 225
SVIRNFQDFFPVIFSKASEY
MAGE-A12
13
1618
LFSAPMDFRGLPGNYHKEEN
DKKL1





[138, 157]



[71, 90]





 2
 226
PDLESEFQAAISRKMVELVH
MAGE-A2
13
1619
VENTPDLVSDSTYYSSFYQP
DMRT1





[99, 118]



[197, 216]





 2
 227
VVGNWQYFFPVIFSKASSSL
MAGE-A3
13
1620
YQLDPKFITSILYENNVITI
EpCAM





[139, 158]



[174, 193]





 2
 228
ETSYVKVLEHVVRVNARVAI
MAGE-A4
13
1621
AGMKYLANMNYVHRDLAARN
EPHA2





[281, 300];



[725, 744]





MAGE-A8









[283, 302]









 2
 229
ESVFRAALSKKVADLIHFLL
MAGE-A5
13
1622
WSLISLSNNTGKNLELKFVS
FAM46D





[102, 121]



[144, 163]





 2
 230
VVGNWQYFFPVIFSKASDSL
MAGE-A6
13
1623
KAAGSASAKRVWNMTATRPK
FATE1





[139, 158]



[57, 76]





 2
 231
DGREHSVYWKLRKLLTQEWV
MAGE-A8
13
1624
FYFKIWAFLDVSFVERILKS
FBXO39





[235, 254]



[369, 388]





 2
 232
AHAETSYEKVINYLVMLNAR
MAGE-A9
13
1625
SKTLGIGRLKRPSFLDDPLY
FSIP1





[276, 295]



[524, 543]





 2
 233
TEEEIWKFMNVLGAYDGEEH
MAGE-B1
13
1626
EHMTDLLKERDITLAHLLTM
GASZ





[216, 235]



[289, 308]





 2
 234
QFLWGPRAYAETSKMKVLEF
MAGE-B2
13
1627
YGNSVRATVQRYPPTHHGSQ
GATA-3





[272, 291]



[64, 83]





 2
 235
TNKKKVSFSSPLILGATIQK
MAGE-B3
13
1628
SLQVTRIFLQALNLGIEVIN
Glypican-3





[33, 52]



[222, 241]





 2
 236
SLTRKTKMLVQFLLYKYKMK
MAGE-B4
13
1629
VLPDGQVIWVNNTIINGSQV
gp100





[108, 127]



[96, 115]





 2
 237
GPRAYAETTKMRVLTVLADS
MAGE-B6
13
1630
ALKSHFVGAVIGRGGSKIKN
HAGE





[360, 379]



[73, 92]





 2
 238
NPASSFFSSALLSIFQSSPE
MAGE-C1
13
1631
SDDYIKFLRSIRPDNMSEYS
HDAC1





[130, 149]



[69, 88]





 2
 239
SSASSTLYLVFSPSSFSTSS
MAGE-C2
13
1632
QLSTGGSVAGAVKLNRQQTD
HDAC2





[40, 59]



[112, 131]





 2
 240
NAPPAYEKLSAEQSPPPYSP
MART1
13
1633
NHAPSVQIHDVPADLLTYDR
HDAC3





[99, 118]



[370, 389]





 2
 241
DDPQKFAMELSIIYKYSPFK
MORC1
13
1634
QPEQVILYQGGQMFDGAPRF
IGFS11





[159, 178]



[69, 88]





 2
 242
YEQANLNMANSIKFSVWVSF
MPHOSPH1
13
1635
QHRAQQLLSSGNLKFVQDRV
JARID1B





[256, 275]



[1263, 1282]





 2
 243
NIKFRPGSVVVQLTLAFREG
MUC-1
13
1636
LENFTLKVAYIPDEMAAQQN
KOC1





[1091, 1110]



[144, 163]





 2
 244
HRLFHWQANSERADIPASLR
NA17-A
13
1637
AAEADGIDPLINLLSSKRDG
KU-CT-1





[54, 73]



[394, 413]





 2
 245
PQKRSRAAFSHTQVIELERK
NKX3.1
13
1638
LKDLADELALVDVALDKLKG
LDHC





[123, 142]



[41, 60]





 2
 246
GINNVSFSGQSVLLFEVLFY
NLRP4
13
1639
DMNVIVVDWSRGATTFIYNA
LIPI





[673, 692]



[126, 145]





 2
 247
IPHLFSYSGHSPLLPQQARS
NR6A1
13
1640
GEPRKLLTQDLVQEKYLEYR
MAGE-A1





[226, 245]



[233, 252]





 2
 248
QEMVQAFSAQSGMKLEWSQK
NXF2
13
1641
QSETQGLEGAQAPLAVEEDA
MAGE-A10





[573, 592]



[19, 38]





 2
 249
SVVAKLLSHGAVIEVHNKAS
NY-BR-1
13
1642
LLLRKYRVKGLITKAEMLGS
MAGE-A11





[97, 116]



[232, 251]





 2
 250
NAEDWNLYWRTSSFRMTEHN
NYD-TSPG
13
1643
TKAEMLGSVIRNFQDFFPVI
MAGE-A12





[117, 136]



[131, 150]





 2
 251
AMPFATPMEAELARRSLAQD
NY-ESO-1
13
1644
KPEEGLEARGEALGLVGAQA
MAGE-A2





[93, 112]



[11, 30]





 2
 252
LRPSLRSLERKAIRAIEDEK
ODF1
13
1645
EEGPSTFPDLESEFQAALSR
MAGE-A3





[83, 102]



[92, 111];









MAGE-A6









[92, 111]





 2
 253
GDGPYSTFLTSSPIRSRSPP
ODF2
13
1646
EEGVEAQEEALGLVGAQAPT
MAGE-A4





[809, 828]



[13, 32]





 2
 254
DVRVTKFKAPQYTMAARVEP
ODF3
13
1647
PAHLESLFREALDEKVAELV
MAGE-A8





[189, 208]



[101, 120]





 2
 255
LGQDGRLLSSTLSLSSNRSL
ODF4
13
1648
KEPVTKAEMLESVIKNYKRY
MAGE-A9





[39, 58]



[126, 145]





 2
 256
RSLGAVVFSRVTNNVVLEAP
OIP5
13
1649
GEPRKFITQDLVQEKYLKYE
MAGE-B1





[99, 118]



[239, 258]





 2
 257
NDQESSQPVGSVIVQEPTEE
PAGE2
13
1650
GEPWKLITKDLVQEKYLEYK
MAGE-B2





[16, 35]



[242, 261]





 2
 258
MSARVRSRSRGRGDGQEAPD
PAGE4
13
1651
QSRTDPLIMKTNMLVQFLME
MAGE-B3





[1, 20]



[105, 124]





 2
 259
RGNDQESSQPVGPVIVQQPT
PAGE5
13
1652
AREEEIWEFLNMLGIYDGKR
MAGE-B4





[33, 52]



[215, 234]





 2
 260
SSQRKLNWIPSFPTYDYFNQ
PASD1
13
1653
TKMRVLRVLADSSNTSPGLY
MAGE-B6





[16, 35]



[368, 387]





 2
 261
LTLWEMMTLSIPHINLSNDD
PBK
13
1654
STFEGFAQSSLQIPVSPSFS
MAGE-C1





[235, 254]



[258, 277]





 2
 262
GWEEAYTFEGARYYINHNER
PEPP2
13
1655
SEEVIWEVLNAVGVYAGREH
MAGE-C2





[61, 80]



[245, 264]





 2
 263
NSLIQNLFKVTPAMGMQMRK
PIWIL1
13
1656
KLREILLYFFPEHQLPSELE
MORC1





[509, 528]



[824, 843]





 2
 264
LVGRNFYDPTSAMVLQQHRL
PIWIL2
13
1657
QQHVPFRESKLTHYFQSFFN
MPHOSPH1





[338, 357]



[426, 445]





 2
 265
LRYYNILFRRTFKLLDFEQV
PIWIL3
13
1658
ETQFNQYKTEAASRYNLTIS
MUC-1





[222, 241]



[1118, 1137]





 2
 266
YIPDLASRRLRIALLYSHSE
PIWIL4
13
1659
TTLLMKLMMAWSDNKIFRDR
NLRP4





[130, 149]



[162, 181]





 2
 267
GIRAKAVSQDMVIYSTEIHY
PLAC1
13
1660
LTVYSKQIFGELADVTAKYS
NR6A1





[81, 100]



[333, 352]





 2
 268
SPEKEEQYIAQFTSQFLSLQ
PRAME
13
1661
MAATLKIIERNFPELLSLNL
NXF2





[277, 296]



[258, 277]





 2
 269
DFKRANMDNDIALLLLASPI
PRSS55
13
1662
GFHHIHEQIMEYIRKLSKNH
NY-BR-1





[147, 166]



[193, 212]





 2
 270
QSGAAVVHEIVRSFGTLKKE
PSMA
13
1663
DDNLKPWLLEVNYSPALTLD
NYD-TSPG





[389, 408]



[377, 396]





 2
 271
VVRLSSYSSPTLQSVLGSGT
RAGE-1
13
1664
ELERKLEATSAQNIEFLQVI
ODF2





[357, 376]



[668, 687]





 2
 272
QLEPDYFKDMTPTIRKTQKI
RCAS1
13
1665
NRSLGQRQNSPLPFQWRITH
ODF4





[89, 108]



[55, 74]





 2
 273
RQFVEFTIKEAARFKKVVLI
SAGE1
13
1666
PSSPVAYDIISQELELMKKL
PASD1





[860, 879]



[361, 380]





 2
 274
KELEELRAAFTRALEYLKQE
SART3
13
1667
NDLIEERYKASQDPFPAAII
PBK





[440, 459]



[124, 143]





 2
 275
QHKIAEMVALMEKHKHQYDK
SCP-1
13
1668
IPTSPSHGSIAAYQGYSPQR
PEPP2





[704, 723]



[541, 560]





 2
 276
METQQQEIASVRKSLQSMLF
SCP3a
13
1669
KVLRSETVLDFMFNFYHQTE
PIWIL1





[217, 236]



[272, 291]





 2
 277
DSEFFLTTASGVSVLPQNRS
SCRN1
13
1670
SQVVNVRTIGQPTRLRSVAQ
PIWIL2





[268, 287]



[696, 715]





 2
 278
EISILQEQISHLQFVIHSQH
se57-1
13
1671
LLANHFRVISRPQWVAYKYN
PIWIL3





[235, 254]



[127, 146]





 2
 279
KKHRYLRLLPEALIRFGGFR
SLCO6A1
13
1672
QYDITVSDLNQPMLVSLLKK
PIWIL4





[46, 65]



[343, 362]





 2
 280
SEPHIKRPMNAFMVWAKDER
SOX-6
13
1673
RRLWGSIQSRYISMSVWTSP
PRAME





[617, 636]



[4, 23]





 2
 281
KEEVAAVKIQAAFRGHIARE
SP17
13
1674
VTQLEGRPFNAEKRRTSVKQ
PRSS55





[113, 132]



[298, 317]





 2
 282
YYTRSISALPTVVAYNNRAQ
SPAG1
13
1675
RLQDFDKSNPIVLRMMNDQL
PSMA





[231, 250]



[649, 668]





 2
 283
REEAQKMSSLLPTMWLGAQN
SPAG9
13
1676
KLKLSGVVRLSSYSSPTLQS
RAGE-1





[959, 978]



[351, 370]





 2
 284
NPLQMEEEEFMEIMVEIPAK
SPAN-Xc
13
1677
NNQPQPSYDLSTVLPGLTYL
SAGE1





[78, 97]



[542, 561]





 2
 285
KGVGLPFLPITSSDIDVVES
SPATA19
13
1678
FRYSTSLEKHKLFISGLPFS
SART3





[14, 33]



[792, 811]





 2
 286
KSAQKFSLILKILSMIYKLV
SPO11
13
1679
MEKQKPFALFVPPRSSSSQV
SCP-1





[106, 125]



[1, 20]





 2
 287
EKISYVYMKRNYKAMTKLGF
SSX-1
13
1680
LQQSRIVQSQRLKTIKQLYE
SCP3a





[44, 63]



[161, 180]





 2
 288
EWEKMKASEKIFYVYMKRKY
SSX-2
13
1681
TGEGEFNFSEVFSPVEDHLD
SCRN1





[36, 55]



[215, 234]





 2
 289
EKIVYVYMKRKYEAMTKLGF
SSX-3
13
1682
KQEDSKQLLQVNKLEKEQKL
se57-1





[44, 63]



[148, 167]





 2
 290
VERPQMTFGSLQRIFPKIMP
SSX-4
13
1683
LLPEALIRFGGFRKRKKAKS
SLCO6A1





[94, 113]



[53, 72]





 2
 291
EKIIYVYMKRKYEAMTKLGF
SSX-5
13
1684
AAASGLSPLQLQKGHVSHPQ
SOX-6





[44, 63]



[315, 334]





 2
 292
QPFLKDHRISTFKNWPFLEG
Survivin
13
1685
LKNNLIEKDPSLVYQHLLYL
SPAG1





[11, 30]



[857, 876]





 2
 293
EPRVEVLINRINEVQQAKKK
SYCE1
13
1686
GQGENKMKNLPVPVYLRPLD
SPAG9





[50, 69]



[660, 679]





 2
 294
NLTLKNHFQSVLEQLELQEK
TAF7L
13
1687
MLKVSRRSLHILSTSKGLIA
SPO11





[424, 443]



[160, 179]





 2
 295
AEDTRLFAPSIKARFPAETY
TAG-1
13
1688
GQDTSSQKIEDLMEMVQKLQ
SYCE1





[231, 250]



[25, 44]





 2
 296
NLEPLVSRDPPASASLFQDT
TAG-2a
13
1689
VWKHGITPPLKNVRKKRFRK
TAF7L





[64, 83]



[217, 236]





 2
 297
WAERIMFSDLRSLQLKKTME
TDRD1
13
1690
NPVGTVVSREAILRFGFLQE
TAG-1





[246, 265]



[115, 134]





 2
 298
TLQEIFQAENTIMLLERSIM
TEKT5
13
1691
KVLLDAGFAVGEQSMVTDKP
TDRD1





[363, 382]



[665, 684]





 2
 299
NDKDSLSQFWEFSETTASTV
TEX101
13
1692
QEQMRKLAQRIDIQMRDNRD
TEKT5





[115, 134]



[225, 244]





 2
 300
KSDIYSFSMIMQEILTDDIP
TEX14
13
1693
QAKATQFNSALFTLSSHRQG
TEX14





[436, 455]



[875, 894]





 2
 301
TLVELQMMMETIQFIENKKR
TEX15
13
1694
PQAKEMFIDTVISSYNIETA
TEX15





[1689, 1708]



[389, 408]





 2
 302
VTKKVVASPRIISLAKPKVR
THEG
13
1695
NEGYDRRPLASMSLPPPKAS
THEG





[326, 345]



[349, 368]





 2
 303
RRTPTTSSDRTINLLEVLPW
TMEM31
13
1696
RQQYFSDLFNILDTAIIVIL
TPTE





[57, 76]



[150, 169]





 2
 304
SKIKKIVHSIVSSFAFGLFG
TPTE
13
1697
KSPKSTTAHAILRRVETERD
TSGA10





[79, 98]



[87, 106]





 2
 305
MWMGLIQLVEGVKRKDQGFL
TRAG-3
13
1698
LSKADGMWPQFRTIQEKEVI
TSP50





[1, 20]



[247, 266]





 2
 306
RQNYSSNAYHMSSTMKPNTK
TSGA10
13
1699
ASAKEGTAFRMEAVQEGAAG
TSPY1





[650, 669]



[32, 51]





 2
 307
SSRPRLLWQTPTTQTLPSTT
TSP50
13
1700
FVDSIFEQWLRRHRPLQEVY
TYR





[67, 86]



[392, 411]





 2
 308
DEDEDMLSYMVSLEVGEEKH
TSPY1
13
1701
PPPHSFIKQEPSWGGAEPHE
WT1





[175, 194]



[66, 85]





 2
 309
HNALHIYMNGTMSQVQGSAN
TYR
13
1702
SQSSNLSQHQRIHMRENLLM
ZNF165





[363, 382]



[466, 485]





 2
 310
VAKKGKAVRRGRRGKKGAAT
VCX
14
1703
THLESLHLEDNALKVLHNGT
5T4





[38, 57]



[258, 277]





 2
 311
PSQASSGQARMFPNAPYLPS
WT1
14
1704
SPISPHFTVTERQTFQPWPE
ACRBP





[117, 136]



[151, 170]





 2
 312
KKKNQQLKVGILHLGSRQKK
XAGE-1 
14
1705
GFTKRLFRELMGDHVSSTKA
ACTL8





[5, 24];



[306, 325]





XAGE-1b









[5, 24];









XAGE-1c









[84, 103];









XAGE-1d









[5, 24]









 2
 313
PRRSLQPPELIGAMLEPTDE
XAGE-2
14
1706
DFAKYIEMHVIVEKQLYNHM
ADAM2





[13, 32]



[175, 194]





 2
 314
GRAFNLNSHLIRHQRIHTRE
ZNF165
14
1707
EDLYVIVNIVDSILDVIGVK
ADAM29





[406, 425]



[223, 242]





 3
 315
DGRLRLARLALVLLGWVSSS
5T4
14
1708
KAPQLTSSELMAITRKMAAT
AFP





[13, 32]



[438, 457]





 3
 316
RNQNPGSLLQLPHTEALLVL
ACRBP
14
1709
ERQLNEAVGNVTPLQLLDWL
AKAP-3





[309, 328]



[830, 849]





 3
 317
DRKKMLEILFELLHVPSVLL
ACTL8
14
1710
QWKQNATDIMEAMLKRLVSA
AKAP-4





[110, 129]



[414, 433]





 3
 318
RRYIENIYHSKPMRWPFFLF
ADAM2
14
1711
KIRSEFKRKYGKSLYYYIQQ
ANXA2





[673, 692]



[302, 321]





 3
 319
EIKPLAFSTTFEHLVYKMDS
ADAM29
14
1712
KNGRLTNQLQYLQKVVLKDL
BRDT





[135, 154]



[24, 43]





 3
 320
QKLGEYYLQNAFLVAYTKKA
AFP
14
1713
LSGEAAEAVHSGTSVKSSSG
CABYR





[420, 439]



[451, 470]





 3
 321
SVVSDMMVSIMKTLKIQVKD
AKAP-3
14
1714
SDTMNVSNLSQGVMLSHSPI
CAGE1





[291, 310]



[33, 52]





 3
 322
LDSQKMDMSNIVLMLIQKLL
AKAP-4
14
1715
GFDIKKVHVILHFKNKYHEN
CALR3





[619, 638]



[138, 157]





 3
 323
RDKVLIRIMVSRSEVDMLKI
ANXA2
14
1716
SDLQFLNFNVENSQELIQMY
CCDC62





[284, 303]



[294, 313]





 3
 324
QARLMKEESPVVSWRLEPED
BAGE-1
14
1717
TYMEFLWQYKSSADKMQQLN
CDCA1





[16, 35];



[137, 156]





BAGE-2









[16, 35];









BAGE-3









[16, 35];









BAGE-5]









[16, 35]









 3
 325
FVQNTLTKLLKDRRKMQTVQ
BAGE-2
14
1718
TILSPKQIKTPFQKILRDKD
CT46





[82, 101];



[239, 258]





BAGE-3









[82, 101]









 3
 326
LKDLWKHSFSWPFQRPVDAV
BRDT
14
1719
QQKLKVMTELYQENEMKLYR
CTAGE2





[40, 59]



[349, 368]





 3
 327
QADIEVMSTVHISSVYNDVP
CABYR
14
1720
SEQDELMADISKRIQSLEDE
cTAGE5





[282, 301]



[160, 179]





 3
 328
SRLEKLLTQVRNLQFMSENE
CAGE1
14
1721
MSLLSIQQQEGVQVVVQQPG
CTCFL





[507, 526]



[97, 116]





 3
 329
HLYTLILRPDLSYDVKIDGQ
CALR3
14
1722
GPLKNTSDVINAAKKIAEAG
CTNNA2





[170, 189]



[733, 752]





 3
 330
NSPTSLLIYKDAPAFNEKAS
CCDC62
14
1723
HAIELNPSRTLLATGGDNPN
DCAF12





[600, 619]



[144, 163]





 3
 331
RETYMEFLWQYKSSADKMQQ
CDCA1
14
1724
TLSSHLQIDKMTDNKTGEVL
DKKL1





[135, 154]



[99, 118]





 3
 332
GENLYMSSDPTSWSSAIQSW
CRISP2
14
1725
VKNSLRGLPGPYVPGQTGNQ
DMRT1





[95, 114]



[253, 272]





 3
 333
GQKYEKIFEMLEGVQGPTAV
CT45
14
1726
DVDIADVAYYFEKDVKGESL
EpCAM





[138, 157]



[206, 225]





 3
 334
YQFKFKYTNNGPLMDFISKN
CT46
14
1727
ERSVGPLTRKGFYLAFQDIG
EPHA2





[115, 134]



[167, 186]





 3
 335
LGEEEGEQAAGLAAVPRGGS
CT47
14
1728
KEKLSPDIMKDAYVQKLVKV
FAM46D





[61, 80]



[118, 137]





 3
 336
QNFYLPQNYIDQFLLTSFPT
CTAGE1
14
1729
FNVLEMEVMRRQLYAVNRRL
FATE1





[27, 46]



[129, 148]





 3
 337
LYVRREKKFAVALSGLIEEK
CTAGE2
14
1730
KFMNPYNAVLTKKFQVTMRG
FBXO39





[40, 59]



[95, 114]





 3
 338
TERLLKMKDWAAMLGEDITD
cTAGE5
14
1731
DIEDVTPVFPQLSRSIISKL
FSIP1





[268, 287]



[433, 452]





 3
 339
SEAVELQDMSLLSIQQQEGV
CTCFL
14
1732
LREEVSTWNSRILKRTAITI
GASZ





[89, 108]



[439, 458]





 3
 340
SVKRGTMVRAARALLSAVTR
CTNNA2
14
1733
GSHHTASPWNLSPFSKTSIH
GATA-3





[117, 136]



[104, 123]





 3
 341
SNSIYFSIAIVSEDFVPYKG
CXorf48
14
1734
KVKNQLRFLAELAYDLDVDD
Glypican-3





[129, 148]



[515, 534]





 3
 342
IVFWKYRRFQRNTGEMSSNS
CXorf61
14
1735
PDASSIMSTESITGSLGPLL
gp100





[16, 35]



[439, 458]





 3
 343
DTKEDVFVHQTAIKRNNPRK
DBPC
14
1736
HDVTHVYNFDFPRNIEEYVH
HAGE





[114, 133]



[554, 573]





 3
 344
VKRSLVYYLKNREVRLQNET
DCAF12
14
1737
NLLLNYGLYRKMEIYRPHKA
HDAC1





[42, 61]



[40, 59]





 3
 345
GLTGLQSLLQGFSRLFLKGN
DKKL1
14
1738
LNYGLYRKMEIYRPHKATAE
HDAC2





[44, 63]



[44, 63]





 3
 346
MENRHAMSSQYRMHSYYPPP
DMRT1
14
1739
FEYFAPDFTLHPDVSTRIEN
HDAC3





[278, 297]



[329, 348]





 3
 347
VDDEESVILTLVPVKDDANM
DPPA2
14
1740
PATNVSIFINNTQLSDTGTY
IGFS11





[18, 37]



[99, 118]





 3
 348
VVAGIVVLVISRKKRMAKYE
EpCAM
14
1741
QDLLDVSFEFDVELPQLAEM
JARID1B





[279, 298]



[891, 910]





 3
 349
GIMGQFSHHNIIRLEGVISK
EPHA2
14
1742
RVPSFAAGRVIGKGGKTVNE
KOC1





[665, 684]



[493, 512]





 3
 350
NRVAYMNPIAMARWRGPTQS
FAM133A
14
1743
SSKRDGAIANAATVLTNMAM
KU-CT-1





[6, 25]



[408, 427]





 3
 351
NGSVASYILASHNGISYKDL
FAM46D
14
1744
RRVHPVSTMVKGLYGIKEEL
LDHC





[64, 83]



[268, 287]





 3
 352
SAKRVWNMTATRPKKMGSQL
FATE1
14
1745
SVKDSFRDLFIPRIETILMM
LIPI





[63, 82]



[49, 68]





 3
 353
SPQFKKTMSTFHNLVSLNLN
FBXO39
14
1746
DLVGFLLLKYRAREPVTKAE
MAGE-A1





[213, 232]



[108, 127]





 3
 354
RESLKMRVSKPFGMLMLSIW
FMR1NB
14
1747
LYDGMEHLIYGEPRKLLTQD
MAGE-A10





[58, 77]



[255, 274]





 3
 355
RPGSRSSNASLEVLSTEPGS
FSIP1
14
1748
QAQEEDLGLVGAQALQAEEQ
MAGE-A11





[21, 40]



[127, 146]





 3
 356
DDVALENFFRYFLRLSDDKM
FTHL17
14
1749
ELVHFLLLKYRAREPFTKAE
MAGE-A12





[45, 64]



[115, 134]





 3
 357
RGRSTYYWPRPRRYVQPPEM
GAGE-7
14
1750
QSPQGASSLPTTMNYPLWSQ
MAGE-A3





[4, 23]



[63, 82]





 3
 358
DSGISVDSNFQYGWTPLMYA
GASZ
14
1751
AKELVTKAEMLERVIKNYKR
MAGE-A4





[67, 86]



[127, 146]





 3
 359
PGLSHSYMDAAQYPLPEEVD
GATA-3
14
1752
DPPQSPQGASSLPTTMNYPL
MAGE-A6





[29, 48]



[60, 79]





 3
 360
EQLLQSASMELKFLIIQNAA
Glypican-3
14
1753
QENYLEYRQAPGSDPVRYEF
MAGE-A8





[90, 109]



[255, 274]





 3
 361
TLIGANASFSIALNFPGSQK
gp100
14
1754
VIFGKASEFMQVIFGTDVKE
MAGE-A9





[76, 95]



[148, 167]





 3
 362
DRQTVMTSATWPHSVHRLAQ
HAGE
14
1755
VVDEKYKDHFTEILNGASRR
MAGE-B1





[420, 439]



[137, 156]





 3
 363
EEAFYTTDRVMTVSFHKYGE
HDAC1
14
1756
KSGSLVQFLLYKYKIKKSVT
MAGE-B2





[184, 203];



[114, 133]





HDAC2









[185, 204]









 3
 364
SEYFEYFAPDFTLHPDVSTR
HDAC3
14
1757
NSNPARYEFLWGPRAHAETS
MAGE-B3





[326, 345]



[265, 284]





 3
 365
ATQRDLIATQRDLIVTQRDL
HOM-TES-85
14
1758
AETSKMKVLEFLAKVNDTTP
MAGE-B4





[261, 280]



[278, 297]





 3
 366
NQPEQVILYQGGQMFDGAPR
IGFS11
14
1759
EGILSGDNALPKSGLLMSLL
MAGE-B6





[68, 87]



[273, 292]





 3
 367
EGEDLSKKTLLRFWLPFGFI
IL13RA2
14
1760
SDEQGMSQNRLLILILSIIF
MAGE-C1





[332, 351]



[989, 1008]





 3
 368
TLDDLYPMMNALKLRAESYN
JARID1B
14
1761
ASSTLYLVFSPSSFSTSSSL
MAGE-C2





[737, 756]



[42, 61]





 3
 369
QHIKQLSRFAGASIKIAPAE
KOC1
14
1762
KQEFLNVQEYNHLLKVMGQY
MORC1





[426, 445]



[414, 433]





 3
 370
DPDFSMYVYEVTKSILPITN
KU-CT-1
14
1763
EQEKEEIASKSALLRQIKEV
MPHOSPH1





[720, 739]



[207, 226]





 3
 371
HITMPFSSPMEAELVRRILS
Lage-1
14
1764
GSGSSTTQGQDVTLAPATEP
MUC-1





[91, 110]



[67, 86]





 3
 372
TSGKDYSVSANSRIVIVTAG
LDHC
14
1765
LLQEANFHIIDNVDLVVSAY
NLRP4





[78, 97]



[572, 591]





 3
 373
PSKGRRWAARAPSTRITYGT
LEMD1
14
1766
SPGSTLSSSRSVELNGFMAF
NR6A1





[111, 130]



[191, 210]





 3
 374
PDKTMMDGSFSFKLLNQLGM
LIPI
14
1767
NNKLYQLDGLSDITEKAPKV
NXF2





[367, 386]



[279, 298]





 3
 375
RALAETSYVKVLEYVIKVSA
MAGE-A1
14
1768
IPESIYQKVMEINREVEEPP
NY-BR-1





[269, 288]



[442, 461]





 3
 376
DEKVTDLVQFLLFKYQMKEP
MAGE-A10
14
1769
GRGILIFSDFKDFIFDDMYI
NYD-TSPG





[135, 154]



[219, 238]





 3
 377
DKIIDLVHLLLRKYRVKGLI
MAGE-A11
14
1770
KSQVMKTRLEADEVAAQLER
ODF2





[224, 243]



[547, 566]





 3
 378
PDLETSFQVALSRKMAELVH
MAGE-A12 
14
1771
QPDQMRSAEQTRLMPAEQRD
PASD1





[99, 118]



[749, 768]





 3
 379
PQGASSFSTTINYTLWRQSD
MAGE-A2
14
1772
KRSPRGLSHSPWAVKKINPI
PBK





[65, 84]



[50, 69]





 3
 380
LSRKVAELVHFLLLKYRARE
MAGE-A3
14
1773
GSILLPSFQIALLTSEDHIN
PEPP2





[109, 128]



[212, 231]





 3
 381
TTEEQEAAVSSSSPLVPGTL
MAGE-A4
14
1774
GSSGIIVRLSTNHFRLTSRP
PIWIL1





[32, 51]



[106, 125]





 3
 382
TTEEQEAVSSSSPLVPGTLG
MAGE-A5
14
1775
KEITFLEYYSKNYGITVKEE
PIWIL2





[32, 51]



[448, 467]





 3
 383
QAALSRKVAKLVHFLLLKYR
MAGE-A6
14
1776
GTSLEIWLGYVTSVLQYENS
PIWIL3





[106, 125]



[258, 277]





 3
 384
EALDEKVAELVRFLLRKYQI
MAGE-A8
14
1777
VDSEATRNEWYDFYLISQVA
PIWIL4





[110, 129]



[756, 775]





 3
 385
VIKNYKRYFPVIFGKASEFM
MAGE-A9
14
1778
DSLFFLRGRLDQLLRHVMNP
PRAME





[138, 157]



[304, 323]





 3
 386
NSDPPRYQFLWGPRAYAETT
MAGE-B1
14
1779
ENIKKFLYNFTQIPHLAGTE
PSMA





[262, 281]



[68, 87]





 3
 387
FPEILKKASEGLSVVFGLEL
MAGE-B2
14
1780
IRGRRYPLSEKKIMHYMYQL
RAGE-1





[149, 168]



[93, 112]





 3
 388
YDGKKHFIFGEPRKLITQDL
MAGE-B3
14
1781
GSMKVKRQFVEFTIKEAARF
SAGE1





[233, 252]



[854, 873]





 3
 389
NSDPPRYQFLWGPRAHAETS
MAGE-B4
14
1782
PYEEALLQAEAPRLAEYQAY
SART3





[262, 281]



[297, 316]





 3
 390
GLYPHLYEDALIDEVERALR
MAGE-B6
14
1783
EETRQVYMDLNNNIEKMITA
SCP-1





[385, 404]



[205, 224]





 3
 391
EVDPDDSYVFVNTLDLTSEG
MAGE-C1
14
1784
IEKRRKKASSAGVVEDMGGE
SCP3a





[967, 986]



[50, 69]





 3
 392
GREHFVYGEPRELLTKVWVQ
MAGE-C2
14
1785
SQLSLTTKMDAEHPELRSYA
SCRN1





[261, 280]



[189, 208]





 3
 393
EDFPARWSFRAYTSVLYFNP
MORC1
14
1786
QDKRIENLREKVNILEAQNK
se57-1





[229, 248]



[274, 293]





 3
 394
ADIKKQAEIAHLYIASLPDP
MPHOSPH1
14
1787
TTIAFFIYKRRLNENTDFPD
SLCO6A1





[687, 706]



[684, 703]





 3
 395
STEKNAVSMTSSVLSSHSPG
MUC-1
14
1788
QQQEQIARQQQQLLQQQHKI
SOX-6





[48, 67]



[232, 251]





 3
 396
IWFQNRRYKTKRKQLSSELG
NKX3.1
14
1789
LADGNVKAFYRRALAHKGLK
SPAG1





[170, 189]



[686, 705]





 3
 397
QPERLLFVIDSFEELQGGLN
NLRP4
14
1790
EKKRSSIWQFFSRLFSSSSN
SPAG9





[222, 241]



[546, 565]





 3
 398
MKAINFLNQDIRGLTSASQL
NR6A1
14
1791
SLILKILSMIYKLVQSNTYA
SPO11





[392, 411]



[112, 131]





 3
 399
ASPQETQSAFSIPVSTLSSS
NXF2
14
1792
PDVENEVKALLRSDAEAVST
TAF7L





[544, 563]



[259, 278]





 3
 400
HHIHEQIMEYIRKLSKNHQN
NY-BR-1
14
1793
NESVRPYTPFEVKIRSYNRR
TAG-1





[195, 214]



[775, 794]





 3
 401
SRHTPHKTLMPYASLFQSHS
NYD-TSPG
14
1794
LMELNGSSSQLIIMLLKNFM
TDRD1





[513, 532]



[1060, 1079]





 3
 402
EAELARRSLAQDAPPLPVPG
NY-ESO-1
14
1795
DIPQLKLVNEVFTIDDTLQT
TEKT5





[101, 120]



[409, 428]





 3
 403
STNRSMQNYVQFLKSSYANV
ODF2
14
1796
AEQEHSSKLRHPYLLQLMAV
TEX14





[788, 807]



[294, 313]





 3
 404
SAPSHSISARTKAFRVDSTP
ODF3
14
1797
LRSLLWYDETLYAELLGKPR
TEX15





[118, 137]



[1716, 1735]





 3
 405
RWPVDVSNRIHTSAHVMSMG
ODF4
14
1798
HVSDHNRLLHLARPKAQSDK
THEG





[115, 134]



[293, 312]





 3
 406
SRVTNNVVLEAPFLVGIEGS
OIP5
14
1799
TTDKILIDVFDGLPLYDDVK
TPTE





[107, 126]



[458, 477]





 3
 407
QAVPAFQGPDMEAFQQELAL
PAGE2
14
1800
TVEKEMKSLARKAMDTESEL
TSGA10





[58, 77]



[174, 193]





 3
 408
EPAAAAAAAAISDDQIDIAE
PASD1
14
1801
QMTQTASDVPVLQVIMHSRY
TSP50





[227, 246]



[173, 192]





 3
 409
EDPKDRPSAAHIVEALETDV
PBK
14
1802
TPIEWYPDYEVEAYRRRHHN
TSPY1





[303, 322]



[233, 252]





 3
 410
PTPESSTIASYVTLRKTKKM
PEPP2
14
1803
SQVQGSANDPIFLLHHAFVD
TYR





[856, 875]



[375, 394]





 3
 411
QWALYQYHIDYNPLMEARRL
PIWIL1
14
1804
LESQPAIRNQGYSTVTFDGT
WT1





[126, 145]



[138, 157]





 3
 412
FYNVVFARVMKLLDMKLVGR
PIWIL2
14
1805
LKPEIHTKEQILELLVLEQF
ZNF165





[322, 341]



[78, 97]





 3
 413
HYAHKLAYLVGQSIHQEPNR
PIWIL3
15
1806
ASNHFLYLPRDVLAQLPSLR
5T4





[854, 873]



[218, 237]





 3
 414
FERKLLFSADVSYKVLRNET
PIWIL4
15
1807
ALSPGKSEDVVLRWSQEFST
ACRBP





[253, 272]



[517, 536]





 3
 415
QEAQPLQPSHFLDISEDWSL
PLAC1
15
1808
QNLGEALDFRERQQSALDES
ACTL8





[184, 203]



[216, 235]





 3
 416
NLRALLLSHIHASSYISPEK
PRAME
15
1809
NFDSLPVQITVPEKIRSIIK
ADAM2





[261, 280]



[19, 38]





 3
 417
KNSVKTDLMKAPMVIMDWEE
PRSS55
15
1810
FRIVEIVVVIDNYLYIRYER
ADAM29





[202, 221]



[197, 216]





 3
 418
TPLMYSLVHNLTKELKSPDE
PSMA
15
1811
KWVESIFLIFLLNFTESRTL
AFP





[467, 486]



[2, 21]





 3
 419
EIQALRRLNPHPNILMLHEV
RAGE-1
15
1812
LGNGSSVDEVSFYANALTNL
AKAP-3





[50, 69]



[115, 134]





 3
 420
MTPTIRKTQKIVIKKREPLN
RCAS1
15
1813
YSVYADQVNIDYLMNRPQNL
AKAP-4





[98, 117]



[156, 175]





 3
 421
NGQAASDNVFSTVPPAFINM
SAGE1
15
1814
LEKDIISDTSGDFRKLMVAL
ANXA2





[589, 608]



[155, 174]





 3
 422
KNPDFKVFRYSTSLEKHKLF
SART3
15
1815
GDKLGRVVHIIQSREPSLSN
BRDT





[785, 804]



[527, 546]





 3
 423
ASLEIELSNLKAELLSVKKQ
SCP-1
15
1816
KVSSIHSDQSDVLMVDVATS
CABYR





[747, 766]



[182, 201]





 3
 424
AKRKRLEMYTKASLKTSNQK
SCP3a
15
1817
GAKLDKYHSLNEELDFLVTS
CAGE1





[87, 106]



[688, 707]





 3
 425
RSIFKPFIFVDDVKLVPKTQ
SCRN1
15
1818
KVHVILHFKNKYHENKKLIR
CALR3





[302, 321]



[143, 162]





 3
 426
MEDNSALYESTSAHIIEETE
se57-1
15
1819
ARNETLSNTLVELSAQVGQL
CCDC62





[16, 35]



[133, 152]





 3
 427
RVVPDKLRSLALGVSYVILR
SLCO6A1
15
1820
SQEIFLNLKTALEKYHDGIE
CDCA1





[605, 624]



[419, 438]





 3
 428
GSSLDILSSLNSPALFGDQD
SOX-6
15
1821
NVGEVSTPFHIFKVKVTTER
CT46





[475, 494]



[211, 230]





 3
 429
SSEEDKEKEEVAAVKIQAAF
SP17
15
1822
ATEELETYRKRAKDLKEFEK
CTAGE2





[106, 125]



[394, 413]





 3
 430
NRALELHPFSMKPLLRRAMA
SPAG1
15
1823
ELYQENEMKLHRKLTVEENY
cTAGE5





[511, 530]



[387, 406]





 3
 431
EDGRVQAFGWSLPQKYKQVT
SPAG9
15
1824
AFQDSVLEEEVELVLAPSEE
CTCFL





[639, 658]



[55, 74]





 3
 432
ESSTILVVRYRRNVKRTSPE
SPAN-Xc
15
1825
TVMPRFAEQVEVAIEALSAN
CTNNA2





[46, 65]



[580, 599]





 3
 433
EQVRRSISRLTDVSAQDFSM
SPATA19
15
1826
HLGTLNKVFASQWLNHRQVV
DCAF12





[141, 160]



[85, 104]





 3
 434
QGIRNLVTDAKFVLIVEKDA
SPO11
15
1827
KEALVPIQKATDSFHTELHP
DKKL1





[208, 227]



[146, 165]





 3
 435
WKKMKYSEKISYVYMKRNYK
SSX-1
15
1828
ASGALVGAASGSSAGGSSRG
DMRT1





[37, 56]



[34, 53]





 3
 436
EKIFYVYMKRKYEAMTKLGF
SSX-2
15
1829
GDQDNWLRTNWVYRGEAERI
EPHA2





[44, 63]



[75, 94]





 3
 437
EWEKMKVSEKIVYVYMKRKY
SSX-3
15
1830
ASHNGISYKDLDVIFGVELP
FAM46D





[36, 55]



[73, 92]





 3
 438
EWEKMKSSEKIVYVYMKLNY
SSX-4
15
1831
ERLARILLQEIPIRSISLRS
FBXO39





[36, 55]



[296, 315]





 3
 439
EWEKMKASEKIIYVYMKRKY
SSX-5
15
1832
QGLEMRIKLWEEIKSAKYSE
FSIP1





[36, 55]



[142, 161]





 3
 440
TLPPAWQPFLKDHRISTFKN
Survivin
15
1833
YAASVANAELVRVLLDRGAN
GASZ





[5, 24]



[85, 104]





 3
 441
KNKQRQLRLAFEEQLEDLMG
SYCE1
15
1834
PLPDSMKLESSHSRGSMTAL
GATA-3





[148, 167]



[189, 208]





 3
 442
QRQKDLIMKVENLTLKNHFQ
TAF7L
15
1835
IQNAAVFQEAFEIVVRHAKN
Glypican-3





[413, 432]



[105, 124]





 3
 443
DFSTKSVFSKFAQLNLAAED
TAG-1
15
1836
AFTITDQVPFSVSVSQLRAL
gp100





[214, 233]



[206, 225]





 3
 444
GGAESERGLPASTLSRLSNR
TAG-2a
15
1837
FVNLKNITYLVLDEADKMLD
HAGE





[29, 48]



[384, 403]





 3
 445
GDFYVQLYSSEVLEYMNQLS
TDRD1
15
1838
RPDNMSEYSKQMQRFNVGED
HDAC1





[277, 296]



[80, 99];









HDAC2









[81, 100]





 3
 446
DQMWRQFTDTNLAFNARISE
TEKT5
15
1839
PTATQDQVQGTVTIRNISAL
IGFS11





[329, 348]



[189, 208]





 3
 447
MTVEADPANMFNWTTEEVET
TEX101
15
1840
PYKYKLRYRYTLDDLYPMMN
JARID1B





[34, 53]



[727, 746]





 3
 448
QMAYLGSLPVIGEKEVIQAD
TEX14
15
1841
DQTPDENDQVVVKITGHFYA
KOC1





[226, 245]



[526, 545]





 3
 449
LKKSKYFISTYIDFVPYIAS
TEX15
15
1842
FHPGGLMKLRSREADLYRFI
KU-CT-1





[2172, 2191]



[853, 872]





 3
 450
TERFLEDTTLTITVPAVSRR
THEG
15
1843
KDYSVSANSRIVIVTAGARQ
LDHC





[174, 193]



[81, 100]





 3
 451
LYDDVKVQFFYSNLPTYYDN
TPTE
15
1844
NDFVNISSIGLTYFQSSNLQ
LIPI





[472, 491]



[413, 432]





 3
 452
DQVDWSRLLRDAGLVKMSRK
TRAG-3
15
1845
GREHSAYGEPRKLLTQDLVQ
MAGE-A1





[52, 71]



[226, 245]





 3
 453
MANERISMQNLEALLVANRD
TSGA10
15
1846
LLTQDWVQENYLEYRQVPGS
MAGE-A10





[557, 576]



[270, 289];









MAGE-A9









[244, 263]





 3
 454
DNFYHNFTKIPTLVQIIKSQ
TSP50
15
1847
VGAQALQAEEQEAAFFSSTL
MAGE-A11





[274, 293]



[136, 155]





 3
 455
LVNITEYRASHSTPIEWYPD
TSPY1
15
1848
SPQGASTLPTTINYTLWSQS
MAGE-A12





[221, 240]



[64, 83]





 3
 456
ADASQSSMHNALHIYMNGTM
TYR
15
1849
REPVTKAEMLGSVVGNWQYF
MAGE-A3





[355, 374]



[127, 146];









MAGE-A6









[127, 146]





 3
 457
AVRRGRRGKKGAATKMAAVT
VCX
15
1850
WVQENYLEYRQVPGSNPARY
MAGE-A4





[44, 63]



[251, 270]





 3
 458
TWNQMNLGATLKGVAAGSSS
WT1
15
1851
DSIFGDPKKLLTQYFVQENY
MAGE-A6





[237, 256]



[236, 255]





 3
 459
QTPGINLDLGSGVKVKIIPK
XAGE-1
15
1852
QIKEPVTKAEMLESVIKNYK
MAGE-A8





[46, 65];



[128, 147]





XAGE-1c









[125, 144];









XAGE-1b









[46, 65]









 3
 460
QLKVGILHLGSRQKKIRIQL
XAGE-1d
15
1853
DGEEHLIYGEPRKFITQDLV
MAGE-B1





[10, 29]



[231, 250]





 3
 461
TPDQKREDDQGAAEIQVPDL
XAGE-2
15
1854
VNPNGHTYTFIDKVDLTDEE
MAGE-B2





[47, 66]



[171, 190]





 3
 462
KEQILELLVLEQFLTILPGD
ZNF165
15
1855
KMKKPIMKADMLKIVQKSHK
MAGE-B3





[85, 104]



[127, 146]





 4
 463
NSLVSLTYVSFRNLTHLESL
5T4
15
1856
LKIISKKYKEHFPEIFRKVS
MAGE-B4





[244, 263]



[136, 155]





 4
 464
EDVVLRWSQEFSTLTLGQFG
ACRBP
15
1857
GSPDAVVSYSKSDVAANGQD
MAGE-B6





[524, 543]



[71, 90]





 4
 465
KTLEFAGQDLSAYLLKSLFK
ACTL8
15
1858
LQIPVSRSFSSTLLSIFQSS
MAGE-C1





[171, 190]



[198, 217]





 4
 466
RTISLESLAVILAQLLSLSM
ADAM2
15
1859
YTLDEKVAELVEFLLLKYEA
MAGE-C2





[300, 319]



[139, 158]





 4
 467
SENITPRMQHDTSHLFTTLG
ADAM29
15
1860
LYRPRKYLYVTSSFKGAFKD
MORC1





[274, 293]



[268, 287]





 4
 468
NFGTRTFQAITVTKLSQKFT
AFP
15
1861
RKKWLEEKMMLITQAKEAEN
MPHOSPH1





[229, 248]



[1459, 1478]





 4
 469
DLRSVFFNFIRNLLSETIFK
AKAP-3
15
1862
STLVHNGTSARATTTPASKS
MUC-1





[589, 608]



[970, 989]





 4
 470
SDLQKYALGFQHALSPSTST
AKAP-4
15
1863
QELLVANFEKARRAHWIFLG
NLRP4





[116, 135]



[481, 500]





 4
 471
QNKPLYFADRLYDSMKGKGT
ANXA2
15
1864
QDFTEYKYTHQPNRFPDLMM
NR6A1





[264, 283]



[423, 442]





 4
 472
SEILKEMLAKKHFSYAWPFY
BRDT
15
1865
KLESAWELGKVKGLKLEELW
NXF2





[277, 296]



[307, 326]





 4
 473
AYFQELTMYRGNTTMDIKDL
CABYR
15
1866
LQRKMNVDVSSTIYNNEVLH
NY-BR-1





[39, 58]



[1175, 1194]





 4
 474
KITKQQVFIDVINKLKENVE
CAGE1
15
1867
TIYVYQEGLVRFATEKFDLS
NYD-TSPG





[343, 362]



[269, 288]





 4
 475
RVALATVYFQEEFLDGEHWR
CALR3
15
1868
DSLVERLHRQTAEYSAFKLE
ODF2





[15, 34]



[488, 507]





 4
 476
HPSNFIIEAPGHMSDVEWMS
CCDC62
15
1869
LETPQDYIRLWQELSDSLGP
PASD1





[517, 536]



[683, 702]





 4
 477
QEKRGAVYERVTTINQEIQK
CDCA1
15
1870
EAVEENGVITDKADIFAFGL
PBK





[381, 400]



[216, 235]





 4
 478
NKHNELRKAVSPPASNMLKM
CRISP2
15
1871
QTESAGIQRAQIQKELWRIQ
PEPP2





[42, 61]



[747, 766]





 4
 479
AGDSLIAGSAMSKAKKLMTG
CT45
15
1872
LSTNHFRLTSRPQWALYQYH
PIWIL1





[42, 61]



[114, 133]





 4
 480
VGEVSTPFHIFKVKVTTERE
CT46
15
1873
KSMRFGMLKDHQAVTGNVTA
PIWIL2





[212, 231]



[254, 273]





 4
 481
ENRQLSRLMVGPHAAARNLW
CT47
15
1874
LKFDTNFLSVPGRVLKNANI
PIWIL3





[143, 162]



[458, 477]





 4
 482
LTERLLKMKDGVAMLEEDVT
CTAGE2
15
1875
WGLHFGSQISLTGRIVPSEK
PIWIL4





[237, 256]



[434, 453]





 4
 483
PSSETRAFLSPPTLLEGPLR
cTAGE5
15
1876
PSVSQLSVLSLSGVMLTDVS
PRAME





[527, 546]



[346, 365]





 4
 484
KSDLRVHMRNLHAYSAAELK
CTCFL
15
1877
SVYETYELVEKFYDPMFKYH
PSMA





[440, 459]



[554, 573]





 4
 485
ISDSFLETNVPLLVLIEAAK
CTNNA2
15
1878
RLNPHPNILMLHEVVFDRKS
RAGE-1





[388, 407]



[56, 75]





 4
 486
RLLRLALAFYGRTADPAERQ
CXorf48
15
1879
TIKEAARFKKVVLIQQLEKA
SAGE1





[3, 22]



[866, 885]





 4
 487
PHSIARQKRILVNLSMVENK
CXorf61
15
1880
ELTKVRMARQKMSEIFPLTE
SART3





[71, 90]



[127, 146]





 4
 488
PARSQADKPVLAIQVLGTVK
DBPC
15
1881
EELKGTEQELIGLLQAREKE
SCP-1





[80, 99]



[458, 477]





 4
 489
GSEWSVYAVGSQAHVSFLDP
DCAF12
15
1882
EGVGVDINKALLAKRKRLEM
SCP3a





[305, 324]



[75, 94]





 4
 490
SRLSPRKTHLLYILRPSRQL
DKKL1
15
1883
QEESITVQTMMNTLRDKASG
SCRN1





[223, 242]



[245, 264]





 4
 491
SSQDSGLVSLSSSSPISNKS
DMRT1
15
1884
IPPRDKMEDNSALYESTSAH
se57-1





[328, 347]



[10, 29]





 4
 492
ERAEETNTVEVITSAPGAML
DPPA2
15
1885
LKTIEKLALEKSYDISSGLV
SLCO6A1





[167, 186]



[139, 158]





 4
 493
QKEITTRYQLDPKFITSILY
EpCAM
15
1886
TSPTQNLFPASKTSPVNLPN
SOX-6





[167, 186]



[441, 460]





 4
 494
PGHQKRIAYSLLGLKDQVNT
EPHA2
15
1887
PGNVKALLRRATTYKHQNKL
SPAG1





[952, 971]



[273, 292]





 4
 495
RGPTQSVGPTIQDYLNRPRP
FAM133A
15
1888
SIKLKDSILSIVHVKGIVLV
SPAG9





[20, 39]



[996, 1015]





 4
 496
LDPMLDFYSDKNAKLTKESY
FAM46D
15
1889
LASSSEVLASIENIIQDIIT
SPO11





[180, 199]



[41, 60]





 4
 497
EEQGATWRHRETLIIAVLVS
FATE1
15
1890
QGHTSSEYDMLREMFSDSRS
TAF7L





[152, 171]



[311, 330]





 4
 498
WRNSIRSSFISSLSFFLKKM
FBXO39
15
1891
LWSKGTEILVNSSRVTVTPD
TAG-1





[141, 160]



[451, 470]





 4
 499
RRSHRAMRVAHLELATYELA
FMR1NB
15
1892
IKIVDILEEEVVTFAVEVEL
TDRD1





[13, 32]



[410, 429]





 4
 500
EEEDTFSSVFHTQIPPEEYE
FSIP1
15
1893
DESTSTLAPPTILPTLRSAL
TEKT5





[191, 210]



[66, 85]





 4
 501
LSMAFYFNRDDVALENFFRY
FTHL17
15
1894
GEYFYSSTAQENLALETSSP
TEX14





[36, 55]



[1088, 1107]





 4
 502
WPRPRRYVQPPEMIGPMRPE
GAGE-7
15
1895
LDKQRILTVDSFAASSTVPH
TEX15





[11, 30]



[1354, 1373]





 4
 503
LKERDITLRHLLTMREDEFT
GASZ
15
1896
EDTTLTITVPAVSRRVEELS
THEG





[295, 314]



[179, 198]





 4
 504
FPKNSSFNPAALSRHMSSLS
GATA-3
15
1897
AYDPKHFHNRVVRIMIDDHN
TPTE





[386, 405]



[289, 308]





 4
 505
SMELKFLIIQNAAVFQEAFE
Glypican-3
15
1898
SRDVAQFRNVVTQLEADLDI
TSGA10





[97, 116]



[610, 629]





 4
 506
AHSSSAFTITDQVPFSVSVS
gp100
15
1899
TTQTLPSTTMETQFPVSEGK
TSP50





[201, 220]



[78, 97]





 4
 507
EEEKWSHMQTFLQSMSSTDK
HAGE
15
1900
LVERREEAQRAQQAVPGPGP
TSPY1





[470, 489]



[83, 102]





 4
 508
EKIKQRLFENLRMLPHAPGV
HDAC1
15
1901
KNGSTPMFNDINIYDLFVWM
TYR





[360, 379];



[160, 179]





HDAC2









[361, 380]









 4
 509
WTYETSLLVEEAISEELPYS
HDAC3
15
1902
QRKFSRSDHLKTHTRTHTGK
WT1





[307, 326]



[389, 408]





 4
 510
PNHPSRKKVNFLDMSLDDII
HOM-TES-85
15
1903
ENSRSMPKLEIFEKIESQRI
ZNF165





[15, 34]



[188, 207]





 4
 511
SSDNNTLTSSNAYNSRYWSN
IGFS11
16
1904
HLPSLRQLDLSHNPLADLSP
5T4





[305, 324]



[140, 159]





 4
 512
GSETWKTIITKNLHYKDGFD
IL13RA2
16
1905
KEGREAVSQLQTDSEPKFHS
ACRBP





[77, 96]



[239, 258]





 4
 513
PYSAVEKAMARLQELLTVSE
JARID1B
16
1906
TLEFAGQDLSAYLLKSLFKE
ACTL8





[950, 969]



[172, 191]





 4
 514
EAQDIKFTEEIPLKILAHNN
KOC1
16
1907
QLYNHMGSDTTVVAQKVFQL
ADAM2





[267, 286]



[189, 208]





 4
 515
LLRELDVMNSVIAQLAPEEE
KU-CT-1
16
1908
VFTYTDQGAILEDQPFVQNN
ADAM29





[103, 122]



[80, 99]





 4
 516
AELVRRILSRDAAPLPRPGA
Lage-1
16
1909
EYSRRHPQLAVSVILRVAKG
AFP





[102, 121]



[357, 376]





 4
 517
NLDSARFRYLIGEKLGVHPT
LDHC
16
1910
MDTSTDPVRVLSWLRRDLEK
AKAP-3 





[164, 183]



[32, 51]





 4
 518
LQGNIILSTEKSKKLKKWPE
LEMD1
16
1911
SKIASEMAYEAVELTAAEMR
AKAP-4





[74, 93]



[268, 287]





 4
 519
GSIPLWLQNFVRILLNEEDM
LIPI
16
1912
ETVILGLLKTPAQYDASELK
ANXA2





[108, 127]



[96, 115]





 4
 520
FPEIFGKASESLQLVFGIDV
MAGE-A1
16
1913
DKSKLWLLKDRDLARQKEQE
BRDT





[140, 159]



[900, 919]





 4
 521
DGMEHLIYGEPRKLLTQDWV
MAGE-A10
16
1914
PGTEQTEAVGGLSSKPATPK
CABYR





[257, 276]



[129, 148]





 4
 522
EEQEAAFFSSTLNVGTLEEL
MAGE-A11
16
1915
PVQEDMALNEVLQKLKHTNR
CAGE1





[144, 163]



[298, 317]





 4
 523
QDFFPVIFSKASEYLQLVFG
MAGE-A12
16
1916
HKEKDKGLQTTQNGRFYAIS
CALR3





[144, 163];



[59, 78]





MAGE-A2









[144, 163]









 4
 524
PDLESEFQAALSRKVAELVH
MAGE-A3
16
1917
PTLSDEKQWHDVSVYLGLTN
CCDC62





[99, 118]



[453, 472]





 4
 525
NKVDELAHFLLRKYRAKELV
MAGE-A4
16
1918
DLSDNREKLASILKESLNLE
CDCA1





[112, 131]



[302, 321]





 4
 526
AIPTAIDFTLWRQSIKGSSN
MAGE-A5
16
1919
ESSMLSTDTKKASILLIRKI
CT46





[70, 89]



[138, 157]





 4
 527
PDLESEFQAALSRKVAKLVH
MAGE-A6
16
1920
TEIEFKIKLLEKDPYGLDVP
CTAGE2





[99, 118]



[458, 477]





 4
 528
EEQKAASSSSTLIMGTLEEV
MAGE-A8
16
1921
IEEKSKLLEKFSLVQKEYEG
cTAGE5





[34, 53]



[86, 105]





 4
 529
QGGASSSISVYYTLWSQFDE
MAGE-A9
16
1922
TSGELVRHRRYKHTHEKPFK
CTCFL





[62, 81]



[324, 343]





 4
 530
RTTATTFRARSRAPFSRSSH
MAGE-B1
16
1923
KKTRDLRRQLRKAVMDHISD
CTNNA2





[326, 345]



[371, 390]





 4
 531
PLTRKSGSLVQFLLYKYKIK
MAGE-B2
16
1924
PSLLKEREFHLGTLNKVFAS
DCAF12





[110, 129]



[76, 95]





 4
 532
EERVQAAAMLNDGSSAMGRK
MAGE-B3
16
1925
EHQLGNNTLSSHLQIDKMTD
DKKL1





[315, 334]



[92, 111]





 4
 533
RVAARRGTTAMTSAYSRATS
MAGE-B4
16
1926
GSSRGGGSGSGASDLGAGSK
DMRT1





[320, 339]



[49, 68]





 4
 534
VRREYKPYFPQILNRTSQHL
MAGE-B6
16
1927
LEGRSTTSLSVSWSIPPPQQ
EPHA2





[225, 244]



[444, 463]





 4
 535
ISRYTGYFPVIFRKAREFIE
MAGE-C1
16
1928
PTMEVKPKDIIHVVKDQLIG
FAM46D





[939, 958]



[34, 53]





 4
 536
VFSPSSFSTSSSLILGGPEE
MAGE-C2
16
1929
RPSRVHASEVESAVWYVKKF
FBXO39





[49, 68]



[66, 85]





 4
 537
TSVLYFNPWMRIFIQAKRVK
MORC1
16
1930
FIKRNIELAKESRNPVVMVD
FSIP1





[241, 260]



[254, 273]





 4
 538
KFSVWVSFFEIYNEYIYDLF
MPHOSPH1
16
1931
TQVVALLVAHGAEVNTQDEN
GASZ





[268, 287]



[162, 181]





 4
 539
NGGSSLSYTNPAVAAASANL
MUC-1
16
1932
KDNEISTFHNLGNVHSPLKL
Glypican-3





[1236, 1255]



[545, 564]





 4
 540
ELERKFSHQKYLSAPERAHL
NKX3.1
16
1933
DIVQGIESAEILQAVPSGEG
gp100





[138, 157]



[488, 507]





 4
 541
MQDPAFVKQAVNLLQEANFH
NLRP4
16
1934
GSTDNNVVAGDRPLIDWDQI
HAGE





[560, 579]



[157, 176]





 4
 542
SSRSVELNGFMAFREQYMGM
NR6A1
16
1935
GSVAGAVKLNRQQTDMAVNW
HDAC2





[198, 217]



[117, 136]





 4
 543
IFVNHSTAPYSVKNKLKPGQ
NXF2
16
1936
RGSSPQVMSRSNGSVSRKPR
IGFS11





[194, 213]



[378, 397]





 4
 544
EKNEEIFNYNNHLKNRIYQY
NY-BR-1
16
1937
LPEIQELYQTLLAKPSPAQQ
JARID1B





[1312, 1331]



[1360, 1379]





 4
 545
SNLQNNYAHLTNSSINKSGA
NYD-TSPG
16
1938
SDLESIFKDAKIPVSGPFLV
KOC1





[288, 307]



[16, 35]





 4
 546
ILTIRLTAADHRQLQLSISS
NY-ESO-1
16
1939
SPLRSANTVVQSKAALAVTA
KU-CT-1





[132, 151]



[446, 465]





 4
 547
EDSERLMEQQGALLKRLAEA
ODF2
16
1940
QHGSLFFSTSKITSGKDYSV
LDHC





[281, 300]



[66, 85]





 4
 548
KASQPSFSIKGRSKLGGFSD
ODF3
16
1941
PRLGYQAKLFKGVLKERMEG
LIPI





[155, 174]



[319, 338]





 4
 549
RITHSFRWMAQVLASELSLV
ODF4
16
1942
YRQVPDSDPARYEFLWGPRA
MAGE-A1





[71, 90]



[251, 270]





 4
 550
THNRLKSLMKILSEVTPDQS
OIP5
16
1943
YRQVPGSDPARYEFLWGPRA
MAGE-A10





[206, 225]



[283, 302]





 4
 551
DGPDVREGIMPTFDLTKVLE
PAGE2
16
1944
YEFLWGPRAHAETSKMKVLE
MAGE-A11





[86, 105]



[382, 401]





 4
 552
EVNPLYRADPVDLEFSVDQV
PASD1
16
1945
ILGDPKKLLTQHFVQENYLE
MAGE-A3





[292, 311]



[238, 257]





 4
 553
IILKVALNMARGLKYLHQEK
PBK
16
1946
ASESLKMIFGIDVKEVDPAS
MAGE-A4





[142, 161]



[155, 174]





 4
 554
DHINRKYAFKAAHPNMRTYY
PEPP2
16
1947
SVMGLYDGREHSVYWKLRKL
MAGE-A8





[228, 247]



[229, 248]





 4
 555
VTPAMGMQMRKAIMIEVDDR
PIWIL1
16
1948
YKMREPIMKADMLKVVDEKY
MAGE-B1





[518, 537]



[123, 142]





 4
 556
ESVGLVSMFRGLGIETVSKT
PIWIL2
16
1949
DGEEHSVFGEPWKLITKDLV
MAGE-B2





[67, 86]



[234, 253]





 4
 557
FGERHIFDGNSLLLSRPLKE
PIWIL3
16
1950
KVDSTKDSYVLVSKMDLPNN
MAGE-B3





[170, 189]



[170, 189]





 4
 558
ADVSYKVLRNETVLEFMTAL
PIWIL4
16
1951
NPTTHSYILVSMLGPNDGNQ
MAGE-B4





[261, 280]



[170, 189]





 4
 559
HFLDISEDWSLHTDDMIGSM
PLAC1
16
1952
LDEKVDELARFLLLKYQVKQ
MAGE-C1





[193, 212]



[908, 927]





 4
 560
YLGQMINLRALLLSHIHASS
PRAME
16
1953
QATIDTADDATVMASESLSV
MAGE-C2





[255, 274]



[345, 364]





 4
 561
DNDIALLLLASPIKLDDLKV
PRSS55
16
1954
FNQIQNTYMVQYEKKIKRKL
MORC1





[154, 173]



[866, 885]





 4
 562
EMKTYSVSFDSLFSAVKNFT
PSMA
16
1955
RTLDSVSQISNIDLLNLRDL
MPHOSPH1





[621, 640]



[993, 1012]





 4
 563
ELMDMNIYELIRGRRYPLSE
RAGE-1
16
1956
HNGTSARATTTPASKSTPFS
MUC-1





[83, 102]



[974, 993]





 4
 564
EEEEDAAWQAEEVLRQQKLA
RCAS1
16
1957
MAASFFSDFGLMWYLEELKK
NLRP4





[160, 179]



[1, 20]





 4
 565
DQPQPNNVLSTVQPVIIYLT
SAGE1
16
1958
LQMGMNRKAIREDGMPGGRN
NR6A1





[308, 327]



[121, 140]





 4
 566
TDYVEIWQAYLDYLRRRVDF
SART3
16
1959
DGYTRNWFKVTIPYGIKYDK
NXF2





[415, 434]



[118, 137]





 4
 567
DKKTQTFLLETPEIYWKLDS
SCP-1
16
1960
IDIHFLERKMQHHLLKEKNE
NY-BR-1





[793, 812]



[1296, 1315]





 4
 568
QNEFKKEMAMLQKKIMMETQ
SCP3a
16
1961
RTTTPAFTLNIPSEANHTEQ
NYD-TSPG





[201, 220]



[19, 38]





 4
 569
HSFQSAYLIVDRDEAWVLET
SCRN1
16
1962
ITPPSSEKLVSVMRLSDLST
ODF2





[151, 170]



[91, 110]





 4
 570
LQFVIHSQHQNLRSVIQEME
se57-1
16
1963
SSTVFLDTMPESPALSLQDF
PASD1





[246, 265]



[268, 287]





 4
 571
IIFTTIAFFIYKRRLNENTD
SLCO6A1
16
1964
KERPISMINEASNYNVTSDY
PEPP2





[681, 700]



[115, 134]





 4
 572
IGEYKQLMRSRRQEMRQFFT
SOX-6
16
1965
PLDNWLLIYTRRNYEAANSL
PIWIL1





[707, 726]



[492, 511]





 4
 573
GSKVEDRFYNNHAFEEQEPP
SP17
16
1966
DRIETYVRTIQSTLGAEGKI
PIWIL2





[61, 80]



[647, 666]





 4
 574
SMKPLLRRAMAYETLEQYGK
SPAG1
16
1967
DGDANSYIDTLRKYTRPTLQ
PIWIL3





[520, 539]



[549, 568]





 4
 575
RLDSTLRLYHAHTYQHLQDV
SPAG9
16
1968
GQLKTLIEYEVPQLLSSVAE
PIWIL4





[1107, 1126]



[698, 717]





 4
 576
TILVVRYRRNVKRTSPEELL
SPAN-Xc
16
1969
TSPRRLVELAGQSLLKDEAL
PRAME





[49, 68]



[21, 40]





 4
 577
RWSHTRIFQVPSEMTEDIMR
SPATA19
16
1970
PHLAGTEQNFQLAKQIQSQW
PSMA





[118, 137]



[81, 100]





 4
 578
ASIENIIQDIITSLARNEAP
SPO11
16
1971
NFDFPFKKGSGIPLLTTNLS
RAGE-1





[49, 68]



[236, 255]





 4
 579
TFGRLHRIIPKIMPKKPAED
SSX-1
16
1972
AMSSRDLYATITHSVREEKM
SAGE1





[100, 119]



[474, 493]





 4
 580
AWTHRLRERKQLVIYEEISD
SSX-2
16
1973
AATEAPKMSNADFAKLFLRK
SART3





[163, 182]



[944, 963]





 4
 581
AMTKLGFKAILPSFMRNKRV
SSX-3
16
1974
EVEKAKVIADEAVKLQKEID
SCP-1





[57, 76]



[681, 700]





 4
 582
TFGSLQRIFPKIMPKKPAEE
SSX-4
16
1975
SGKPSVEDQFTRAYDFETED
SCP3a





[100, 119]



[12, 31]





 4
 583
EAMTKLGFKATLPPFMRNKR
SSX-5
16
1976
EHPELRSYAQSQGWWTGEGE
SCRN1





[56, 75]



[200, 219]





 4
 584
TNNKKKEFEETAKKVRRAIE
Survivin
16
1977
LKIKLQASREAGAAALRNVA
se57-1





[117, 136]



[112, 131]





 4
 585
RKAEELLAAAAQRHQQLQQK
SYCE1
16
1978
SGSQDEVSRGVEPLEAARAQ
SLCO6A1





[248, 267]



[9, 28]





 4
 586
LRTLDKKTFYKTADISQMLV
TAF7L
16
1979
PERRKGSLADVVDTLKQKKL
SOX-6





[163, 182]



[120, 139]





 4
 587
WMDYEFRVIASNILGTGEPS
TAG-1
16
1980
DTFLLLIQSLKNNLIEKDPS
SPAG1





[678, 697]



[848, 867]





 4
 588
YRASVLAYASEESVLVGYVD
TDRD1
16
1981
NQYKERLMELQEAVRWTEMI
SPAG9





[559, 578]



[516, 535]





 4
 589
GFWKSELSYELDRLLTENQN
TEKT5
16
1982
VTDAKFVLIVEKDATFQRLL
SPO11





[149, 168]



[214, 233]





 4
 590
QADDEPTFSFFSGPYMVMTN
TEX14
16
1983
DRGSETTYESSADIAGDEGT
TAF7L





[243, 262]



[36, 55]





 4
 591
YIEIVMVSETIHFLKNSIAK
TEX15
16
1984
GGAPGELIVNWTPMSREYQN
TAG-1





[2062, 2081]



[721, 740]





 4
 592
MPMSEVSQVSRAAQMAVPSS
THEG
16
1985
GDGSWYRALVKEILPNGHVK
TDRD1





[247, 266]



[775, 794]





 4
 593
FIKHFIIYSIPRYVADLKIQ
TPTE
16
1986
EEAEHLFETLSDQMWRQFTD
TEKT5





[415, 434]



[318, 337]





 4
 594
DAGLVKMSRKPRASSPLSNN
TRAG-3
16
1987
QAIIQGFSYDLLKKIDSPQR
TEX14





[62, 81]



[152, 171]





 4
 595
LNAERSYKSQISTLHKSVVK
TSGA10
16
1988
LKKAHRRVHTSLQLITKVGE
TEX15





[470, 489]



[1004, 1023]





 4
 596
IWRDVIYSVRVGSPWIDQMT
TSP50
16
1989
TPVWPIPRSSLEYRASSRLK
THEG





[156, 175]



[214, 233]





 4
 597
GEEAVLLLDDIMAEVEVVAE
TSPY1
16
1990
RRILFIKHFIIYSIPRYVRD
TPTE





[60, 79]



[411, 430]





 4
 598
HYYVSMDALLGGSEIWRDID
TYR
16
1991
LLYEQAQEEITRLRREMMKS
TSGA10





[180, 199]



[66, 85]





 4
 599
GAQYRIHTHGVFRGIQDVRR
WT1
16
1992
IMHSRYRAQRFWSWVGQAND
TSP50





[283, 302]



[187, 206]





 4
 600
TAITREEGGPRSGGAQAKLG
XAGE-1c
16
1993
AVQVELEPVNAQARKAFSRQ
TSPY1





[13, 32]



[114, 133]





 4
 601
EGGTDVKGKILPKAEHFKMP
XAGE-2
16
1994
HPTNPNLLSPASFFSSWQIV
TYR





[83, 102]



[256, 275]





 4
 602
DLERGTDEAVLQVQAHEHGQ
ZNF165
16
1995
GHTPSHHAAQFPNHSFKHED
WT1





[126, 145]



[161, 180]





 5
 603
EVRAGAFEHLPSLRQLDLSH
5T4
16
1996
FAESSDLTRHRRIHTGERPF
ZNF165





[132, 151]



[381, 400]





 5
 604
SPNTLKEIEASAEVSPTTMT
ACRBP
17
1997
HMADMVTWLKETEVVQGKDR
5T4





[131, 150]



[301, 320]





 5
 605
DQLQMSLYASGLLTGVVVDS
ACTL8
17
1998
SQASYKIVIEGKPYTVNLMQ
ADAM2





[131, 150]



[43, 62]





 5
 606
SYLVLRPHDVAFLLVYREKS
ADAM2
17
1999
IWTNKNLIVVDDVRKSVHLY
ADAM29





[256, 275]



[250, 269]





 5
 607
DSEEKQFSTMRSGFMQNEIT
ADAM29
17
2000
ESRTLHRNEYGIASILDSYQ
AFP





[153, 172]



[17, 36]





 5
 608
ASFVHEYSRRHPQLAVSVIL
AFP
17
2001
VSDLIDSFLRNLHSVTGTLM
AKAP-3





[352, 371]



[330, 349]





 5
 609
DDFTASVSEGIMTYANSVVS
AKAP-3
17
2002
SIDDLSFYVNRLSSLVIQMA
AKAP-4





[275, 294]



[213, 232]





 5
 610
QWIAASQFNVPMLYFMGDKD
AKAP-4
17
2003
MKGKGTRDKVLIRIMVSRSE
ANXA2





[779, 798]



[278, 297]





 5
 611
RKYGKSLYYYIQQDTKGDYQ
ANXA2
17
2004
SATEKVFKQQEIPSVFPKTS
BRDT





[309, 328]



[166, 185]





 5
 612
EPEDGTALDVHFVSTLEPLS
BAGE-2
17
2005
PADPAQLAAQMLGKVSSIHS
CABYR





[32, 51];



[169, 188]





BAGE-3









[32, 51]









 5
 613
VGTIDMTLQSDIMTMFENNF
BRDT
17
2006
ALIQPVDTISISSLRQFETV
CAGE1





[927, 946]



[105, 124]





 5
 614
DQSDVLMVDVATSMPVVIKE
CABYR
17
2007
IDQKNLNGKSQYYIMFGPDI
CALR3





[189, 208]



[117, 136]





 5
 615
NNIENYSTNALIQPVDTISI
CAGE1
17
2008
AVHQQQLLSWEEDRQKVLTL
CCDC62





[96, 115]



[49, 68]





 5
 616
ESGSIEYDWNLTSLKKETSP
CALR3
17
2009
LQQSLNQDFHQKTIVLQEGN
CDCA1





[192, 211]



[190, 209]





 5
 617
ELHKRTEIIRSLTKKVKALE
CCDC62
17
2010
LQESQKQLLQEAEVWKEQVS
CTAGE2





[78, 97]



[188, 207]





 5
 618
EREKLKSQEIFLNLKTALEK
CDCA1
17
2011
EEPGVTPQPYLGLLLEELRR
cTAGE5





[413, 432]



[2, 21]





 5
 619
SPPASNMLKMEWSREVTTNA
CRISP2
17
2012
VLQFHALEENVMVASEDSKL
CTCFL





[52, 71]



[150, 169]





 5
 620
TDKTEKVAVDPETVFKRPRE
CT45
17
2013
RDEMAAARGALKKNATMLYT
CTNNA2





[2, 21]



[203, 222]





 5
 621
PNKISTEHQSLVLVKRLLAV
CT46
17
2014
QNETSYSRVLHGYAAQQLPS
DCAF12





[17, 36]



[58, 77]





 5
 622
NDHILIENRQLSRLMVGPHA
CT47
17
2015
RLFLKGNLLRGIDSLFSAPM
DKKL1





[137, 156]



[57, 76]





 5
 623
SKSLKSQVAEAKMTFKRFQA
CTAGE2
17
2016
NSYNVRRTEGFSVTLDDLAP
EPHA2





[150, 169]



[480, 499]





 5
 624
VGFFAVLFFLWRSFRSVRSR
cTAGE5
17
2017
FGVELPGNEEFQVVKDAVLD
FAM46D





[50, 69]



[87, 106]





 5
 625
SAVFHERYALIQHQKTHKNE
CTCFL
17
2018
LSKSNNRLKSLSIQYLELDR
FBXO39





[464, 483]



[119, 138]





 5
 626
KNLMNAVVLTVKASYVASTK
CTNNA2
17
2019
QLAEIDIKLQELSAASPTIS
FSIP1





[870, 889]



[319, 338]





 5
 627
IDESIYFSSDVVTGNVPLKV
CXorf48
17
2020
TKLEISGDEFLNFLLKLNKQ
GASZ





[53, 72]



[347, 366]





 5
 628
KRILVNLSMVENKLVELEHT
CXorf61
17
2021
DKYWREYILSLEELVNGMYR
Glypican-3





[78, 97]



[293, 312]





 5
 629
NRRKSRRFIPRPPSVAPPPM
DBPC
17
2022
RNQPLTFALQLHDPSGYLAE
gp100





[176, 195]



[234, 253]





 5
 630
EVRLQNETSYSRVLHGYAAQ
DCAF12
17
2023
GTLDLVAVSSVKQNIIVTTE
HAGE





[54, 73]



[451, 470]





 5
 631
LQGFSALFLKGNLLAGIDSL
DKKL1
17
2024
PHAPGVQMQAIPEDAVHEDS
HDAC2





[52, 71]



[375, 394]





 5
 632
NLIAERQRVMAAQVALRRQQ
DMRT1
17
2025
SSNAYNSRYWSNNPKVHRNT
IGFS11





[106, 125]



[313, 332]





 5
 633
RKAVTKRARLQRSYEMNERA
DPPA2
17
2026
AKINKKKSLVSFKALIEESE
JARID1B





[150, 169]



[768, 787]





 5
 634
KTQNDVDIADVAYYFEKDVK
EpCAM
17
2027
NDIASMNLQAHLIPGLNLNA
KOC1





[202, 221]



[353, 372]





 5
 635
GLVTSASFRTASVSINQTEP
EPHA2
17
2028
LLGSENDGTKIAASQAISAM
KU-CT-1





[420, 439]



[324, 343]





 5
 636
KQLENKKTGSKALAEFEEKM
FAM133A
17
2029
ETRLALVQRNVAIMKSIIPA
LDHC





[46, 65]



[104, 123]





 5
 637
IVKDARLNGSVASYILASHN
FAM46D
17
2030
LQNFVRILLNEEDMNVIVVD
LIPI





[57, 76]



[114, 133]





 5
 638
EFNVLEMEVMRRQLYAVNRR
FATE1
17
2031
QGASAFPTTINFTRQRQPSE
MAGE-A1





[128, 147]



[59, 78]





 5
 639
RKLFYFKIWAFLDVSFVERI
FBXO39
17
2032
ITKAEILESVIRNYEDHFPL
MAGE-A10





[366, 385]



[155, 174]





 5
 640
KAKGRNRRSHRAMRVAHLEL
FMR1NB
17
2033
FGEPKRLLTQNWVQEKYLVY
MAGE-A11





[7, 26]



[352, 371]





 5
 641
PVFPQLSRSIISKLLNESET
FSIP1
17
2034
ASEEEIWEELGVMGVYDGRE
MAGE-A4





[439, 458]



[217, 236]





 5
 642
KNVNQSLLDLYQLAVEKGDP
FTHL17
17
2035
KLVHFLLLKYRAREPVTKAE
MAGE-A6





[109, 128]



[115, 134]





 5
 643
GWEIGYLDRTSQKLKRLLPI
GASZ
17
2036
MLLGQKSQRYKAEEGLQAQG
MAGE-A8





[24, 43]



[1, 20]





 5
 644
SSLSHISPFSHSSHMLTTPT
GATA-3
17
2037
NLSNDWDFPRNGLLMPLLGV
MAGE-B1





[402, 421]



[188, 207]





 5
 645
KHINQLLRTMSMPKGRVLDK
Glypican-3
17
2038
SLLSSWDFPRRKLLMPLLGV
MAGE-B2





[467, 486]



[191, 210]





 5
 646
LNVSLADTNSLAVVSTQLIM
gp100
17
2039
VDVSYKKSYKGANSKIEKKQ
MAGE-B3





[567, 586]



[75, 94]





 5
 647
RNRPGMLVLTPTRELALQVE
HAGE
17
2040
ARPAVAARRGTTAMTSAYSR
MAGE-B4





[314, 333]



[317, 336]





 5
 648
FKPVMSKVMEMFQPSAVVLQ
HDAC1
17
2041
PQSPLQGEEFQSSLQSPVSI
MAGE-C1





[241, 260]



[612, 631]





 5
 649
RQQTDMAVNWAGGLHHAKKS
HDAC2
17
2042
ASEEVIWEVLNAVGVYAGRE
MAGE-C2





[127, 146]



[244, 263]





 5
 650
QSYKHLFQPVINQVVDFYQP
HDAC3
17
2043
HESLSSFELSASRRGQKRNI
MORC1





[230, 249]



[606, 625]





 5
 651
SPSRQQSKAHRHRHRRGYSR
HOM-TES-85
17
2044
VKDLLKGQSRLIFTYGLTNS
MPHOSPH1





[59, 78]



[137, 156]





 5
 652
LLLSLHGVAASLEVSESPGS
IGFS11
17
2045
PPLTSSNHSTSPQLSTGVSF
MUC-1





[12, 31]



[1023, 1042]





 5
 653
DGFDLNKGIEAKIHTLLPWQ
IL13RA2
17
2046
EVLFYQPDLKYLSFTLTKLS
NLRP4





[93, 112]



[688, 707]





 5
 654
EGDALRYMIERTVNWQHRAQ
JARID1B
17
2047
KENFTGSETLKHLVLQFLQQ
NXF2





[1248, 1267]



[379, 398]





 5
 655
RNIPPHLQWEVLDSLLVQYG
KOC1
17
2048
QEKENKYFEDIKILKEKNAE
NY-BR-1





[86, 105]



[1070, 1089]





 5
 656
DVGYGRSISSSSSLRRSSKE
KU-CT-1
17
2049
SWDVDDLLLWKKIHRMVILT
NYD-TSPG





[621, 640]



[333, 352]





 5
 657
SRLLQLHITMPFSSPMEAEL
Lage-1
17
2050
EKSEEYAEQLHVQLADKDLY
ODF2





[85, 104]



[414, 433]





 5
 658
LKGEMMDLQHGSLFFSTSKI
LDHC
17
2051
QKQPNTLRHVVIPDLQSSEA
PASD1





[58, 77]



[410, 429]





 5
 659
QTIESWREEGFPVGLKLAVL
LEMD1
17
2052
RGTTEIGMIGSKPFSTVKYK
PEPP2





[142, 161]



[779, 798]





 5
 660
TYKIQALMLKSLTYPERPPL
LIPI
17
2053
KSIGRGYNPRLTVIVVKKRV
PIWIL1





[437, 456]



[725, 744]





 5
 661
QSPQGASAFPTTINFTRQRQ
MAGE-A1
17
2054
YHDPSAGMRSVVGFVASINL
PIWIL2





[56, 75]



[747, 766]





 5
 662
PRAHAEIRKMSLLKFLAKVN
MAGE-A10
17
2055
SPNNFTLAFIVVKKRINTRF
PIWIL3





[300, 319]



[750, 769]





 5
 663
EESFSPTAMDAIFGSLSDEG
MAGE-A11
17
2056
MSGRARVKARGIARSPSATE
PIWIL4





[177, 196]



[1, 20]





 5
 664
DGREDSVFAHPRKLLTQDLV
MAGE-A12
17
2057
DVLLAQEVRPRTWKLQVLDL
PRAME





[232, 251]



[105, 124]





 5
 665
AISRKMVELVHFLLLKYRAR
MAGE-A2
17
2058
KFSGYPLYHSVYETYELVEK
PSMA





[108, 127]



[545, 564]





 5
 666
KLLTQHFVQENYLEYRQVPG
MAGE-A3
17
2059
RSVYSKQPYTEYISTRWYRA
RAGE-1





[244, 263]



[150, 169]





 5
 667
LLIIVLGTIAMEGDSASEEE
MAGE-A4
17
2060
KMENVQPAPDNVLLTLRPRR
SAGE1





[202, 221]



[210, 229]





 5
 668
LDTQEEALGLVGVQAATTEE
MAGE-A5
17
2061
LALWEAYREFESAIVEAARL
SART3





[16, 35]



[225, 244]





 5
 669
FPVIFSKASDSLQLVFGIEL
MAGE-A6
17
2062
TEKENKMKDLTFLLEESRDK
SCP-1





[147, 166]



[276, 295]





 5
 670
QEALKLKVAELVHFLLHKYR
MAGE-A9
17
2063
EYSQQFLTLFQQWDLDMQKA
SCP3a





[105, 124]



[124, 143]





 5
 671
STESSVKDPVAWEAGMLMHF
MAGE-B1
17
2064
AHEWARAIIESDQEQGRKLR
SCRN1





[99, 118]



[350, 369]





 5
 672
KIVGKRFREHFPEILKKASE
MAGE-B2
17
2065
QDLQREISILQEQISHLQFV
se57-1





[139, 158]



[230, 249]





 5
 673
TVPSAFQFWYEEALRDEEER
MAGE-B3
17
2066
IKEGLITADAEGDFIDARPG
SLCO6A1





[298, 317]



[550, 569]





 5
 674
KEVNPTTHSYILVSMLGPND
MAGE-B4
17
2067
DQDTVMKAIQEARKMREQIQ
SOX-6





[167, 186]



[492, 511]





 5
 675
DEESVSASQKAIIFKRLSKD
MAGE-B6
17
2068
QLANDSVNALSRILMELDGP
SPAG1





[174, 193]



[555, 574]





 5
 676
PVSPSFSSTLVSLFQSSPER
MAGE-C1
17
2069
DVLQGELEAVKQAKLKLEEK
SPAG9





[271, 290]



[446, 465]





 5
 677
DSESSFTYTLDEKVAELVEF
MAGE-C2
17
2070
TAVAVPSNIQGIRNLVTDAK
SPO11





[132, 151]



[199, 218]





 5
 678
STTHSFLFGALAELLDNARD
MORC1
17
2071
SEEYLERQLQAEFIESGQYR
TAF7L





[22, 41]



[363, 382]





 5
 679
SSKKTYSLRSQASIIGVNLA
MPHOSPH1
17
2072
KWDPVVPFRNESAVTGYKML
TAG-1





[1703, 1722]



[931, 950]





 5
 680
LQRDISEMFLQIYKQGGFLG
MUC-1
17
2073
KYTSDDFWYRAVVLGTSDTD
TDRD1





[1069, 1088]



[1000, 1019]





 5
 681
AETEPERHLGSYLLDSENTS
NKX3.1
17
2074
YRYLNSWRPSLFYKIANVQT
TEKT5





[91, 110]



[44, 63]





 5
 682
RNKSVRYLDLSANVLKDEGL
NLRP4
17
2075
TGLKRLSSFIGAGSPSLVKA
TEX14





[805, 824]



[1283, 1302]





 5
 683
STWQELILLSSLTVYSKQIF
NR6A1
17
2076
NDKNSKVLMQNAATYWNELP
TEX15





[322, 341]



[2618, 2637]





 5
 684
QMEMLKLTMNKRYNVSQQAL
NXF2
17
2077
RKRRRRRRLMELAEPKINWQ
THEG





[213, 232]



[120, 139]





 5
 685
ITKRSEQIVEFLLIKNANAN
NY-BR-1
17
2078
QVKHLYNWNLPPRRILFIKH
TPTE





[124, 143]



[399, 418]





 5
 686
LVFRVDETTPAVVQSVLLER
NYD-TSPG
17
2079
IKLDSSKELLNRQLVAKDQE
TSGA10





[87, 106]



[516, 535]





 5
 687
LELEIIVLNDRVTDLVNQQQ
ODF2
17
2080
ADGMWPQFRTIQEKEVIILN
TSP50





[458, 477]



[250, 269]





 5
 688
SPGPRYNVNPKILRTGKDLG
ODF3
17
2081
FFNWFSDHNFAGSNKIAEIL
TSPY1





[65, 84]



[257, 276]





 5
 689
AFSKKWLDLSRSLFYQRWPV
ODF4
17
2082
PWHRLFLLRWEQEIQKLTGD
TYR





[99, 118]



[209, 228]





 5
 690
YLLKTKAIVNASEMDIQNVP
OIP5
17
2083
LQPVETKAHFDSSEPQLLWD
ZNF165





[172, 191]



[163, 182]





 5
 691
ILRTQLLQQLYTSKAVSDEA
PASD1
18
2084
YLPRDVLAQLPSLRHLDLSN
5T4





[175, 194]



[224, 243]





 5
 692
VYQKRLMDEAKILKSLHHPN
PBK
18
2085
SIIKEGIESQASYKIVIEGK
ADAM2





[77, 96]



[35, 54]





 5
 693
WQQRQFYNKQSTLPRHSTLS
PEPP2
18
2086
KVLLFGLEIWTNKNLIVVDD
ADAM29





[506, 525]



[242, 261]





 5
 694
RRSIAGFVASINEGMTRWFS
PIWIL1
18
2087
EGLSPNLNRFLGDADFNQFS
AFP





[641, 660]



[324, 343]





 5
 695
KWYSRVVFQMPHQEIVDSLK
PIWIL2
18
2088
AQDKAESYSLISMKGMGDPK
AKAP-3





[770, 789]



[397, 416]





 5
 696
LHSWLILYSRSSHREAMSLK
PIWIL3
18
2089
RNQSLEFSTMKAEMKERDKG
AKAP-4





[507, 526]



[461, 480]





 5
 697
QENPAAFVRAIQQYVDPDVQ
PIWIL4
18
2090
AKGRRAEDGSVIDYELIDQD
ANXA2





[526, 545]



[175, 194]





 5
 698
HQAGAQEAQPLQPSHFLDIS
PLAC1
18
2091
PSVFPKTSISPLNVVQGASV
BRDT





[179, 198]



[178, 197]





 5
 699
SLLKDEALAIAALELLPREL
PRAME
18
2092
YRGNTTMDIKDLVKQFHQIK
CABYR 





[33, 52]



[47, 66]





 5
 700
GDRSIFEGATRYSRITGGME
PRSS5
5 18
2093
ERPEIVSTWSSAGISWRSEA
CAGE1





[54, 73]



[260, 279]





 5
 701
STNEVTRIYNVIGTLAGAVE
PSMA
18
2094
TQNGRFYAISARFKPFSNKG
CALR3





[348, 367]



[69, 88]





 5
 702
VFYEIASLQPLFPGVNELDQ
RAGE-1
18
2095
QERTNSELHNLRQIYVKQQS
CCDC62





[191, 210]



[275, 294]





 5
 703
QQRKKMEKEAQRLMKKEQNK
RCAS1
18
2096
YAKIDEKTAELKRKMFKMST
CDCA1





[188, 207]



[445, 464]





 5
 704
QSRTDKVLSTAPPQLVHMAA
SAGE1
18
2097
EEKLSKVDEMISHATEELET
CTAGE2





[121, 140]



[381, 400]





 5
 705
NAKYANMWLEYYNLERAHGD
SART3
18
2098
LLLEELRRVVAALPEGMRPD
cTAGE5





[504, 523]



[14, 33]





 5
 706
MEESNKARAAHSFVVTEFET
SCP-1
18
2099
QEGVQVVVQQPGPGLLWLEE
CTCFL





[363, 382]



[105, 124]





 5
 707
KILQQSRIVQSQRLKTIKQL
SCP3a
18
2100
PKSLEIRTLTVERLLEPLVT
CTNNA2





[159, 178]



[14, 33]





 5
 708
GETAKEALDVIVSLLEEHGQ
SCRN1
18
2101
NTLFVVDVQTSQITKIPILK
DCAF12





[120, 139]



[110, 129]





 5
 709
IEETEYVKKIRTTLQKIRTQ
se57-1
18
2102
AAPIHDADAQESSLGLTGLQ
DKKL1





[31, 50]



[30, 49]





 5
 710
EKSYDISSGLVAIFIAFYGD
SLCO6A1
18
2103
GKIPIRWTAPEAISYRKFTS
EPHA2





[148, 167]



[777, 796]





 5
 711
SYNHKQIEQLYAAQLASMQV
SOX-6
18
2104
LKFVSSLRRQFEFSVDSFQI
FAM46D





[360, 379]



[159, 178]





 5
 712
ISGKEEETSVTILDSSEEDK
SP17
18
2105
AKLARQATNLKVNFFFERIM
FBXO39





[92, 111]



[274, 293]





 5
 713
SGDYEEAVMYYTRSISALPT
SPAG1
18
2106
TQIPPEEYEMQMQKLNKDFT
FSIP1





[222, 241]



[202, 221]





 5
 714
GREVENLILENTQLLETKNA
SPAG9
18
2107
IAKRNKHHEIFNLLSFTLNP
GASZ





[407, 426]



[221, 240]





 5
 715
IDVVESEAVSVLHHWLKKTE
SPATA19
18
2108
NYTNAMFKNNYPSLTPQAFE
Glypican-3





[28, 47]



[124, 143]





 5
 716
YATKRDIYYTDSQLFGNQTV
SPO11
18
2109
VNNTIINGSQVWGGQPVYPQ
gp100





[130, 149]



[105, 124]





 5
 717
HRLRERKQLVIYEEISDPEE
SSX-1
18
2110
KTGKVRILIATDLASRGLDV
HAGE





[166, 185];



[534, 553]





SSX-2









[166, 185]









 5
 718
QIPEKIQKAFDDIAKYFSKE
SSX-2
18
2111
DVDKLHFTPRIQRLNELEAQ
JARID1B





[16, 35]



[77, 96]





 5
 719
PGKPTTSEKINMISGVLQRY
SSX-3
18
2112
GPPEAQFKAQGRIYGKIKEE
KOC1





[142, 161]



[458, 477]





 5
 720
GKHAWTHRLRERKQLVVYEE
55X-4
18
2113
LANMSAEYTSKVQIFEHGGL
KU-CT-1





[160, 179]



[133, 152]





 5
 721
ATLPPFMRNKRVADFQGNDF
SSX-5
18
2114
GTDSDKEHWKNIHKQVIQSA
LDHC





[65, 84]



[219, 238]





 5
 722
AFLSVKKQFEELTLGEFLKL
Survivin
18
2115
LEFSQLSVKDSFRDLFIPRI
LIPI





[85, 104]



[43, 62]





 5
 723
AEGPSTLDEGLFLRSQEAAA
SYCE1
18
2116
ALAETSYVKVLEYVIKVSAR
MAGE-A1





[219, 238]



[270, 289]





 5
 724
DEVPDEVENQFILRLPLEHA
TAF7L
18
2117
ESVIRNYEDHFPLLFSEASE
MAGE-A10





[92, 111]



[162, 181]





 5
 725
NESAVTGYKMLYQNDLHLTP
TAG-1
18
2118
RAHAETSKMKVLEYIANANG
MAGE-A11





[940, 959]



[389, 408]





 5
 726
DKTIQANVLEIISPNLFYAL
TDRD1
18
2119
PDAESLFREALSNKVDELAH
MAGE-A4





[939, 958]



[100, 119]





 5
 727
DNIKHSQNMRANSIQLREEA
TEKT5
18
2120
DLESEFQAALSRKVAKLVHF
MAGE-A6





[301, 320]



[100, 119]





 5
 728
QGFIHRSLSSYAVHIISPGE
TEX14
18
2121
EEIWKFMNVLGAYDGEEHLI
MAGE-B1





[370, 389]



[218, 237]





 5
 729
VTELEYNYNQFSTLLKNVMS
TEX15
18
2122
RGQKSKLRAREKRRKARDET
MAGE-B2





[2198, 2217]



[3, 22]





 5
 730
PKIRDNFWSMPMSEVSQVSR
THEG
18
2123
EFLNKMRIYDGKKHFIFGEP
MAGE-B3





[238, 257]



[225, 244]





 5
 731
SFYFWLHTSFIENNRLYLPK
TPTE
18
2124
GEPRKLITQDLVQEKYLEYQ
MAGE-B4





[493, 512]



[239, 258]





 5
 732
VLGEAWRDQVDWSRLLRDAG
TRAG-3
18
2125
DDSTATESASSSVMSPSFSS
MAGE-C1





[45, 64]



[1122, 1141]





 5
 733
KARQSEADNNTLKLELITAE
TSGA10
18
2126
LLVIYNLKLLLNGEPELDVK
MORC1





[430, 449]



[197, 216]





 5
 734
DPEAVARRWPWMVSVRANGT
TSP50
18
2127
LPRTLNVLFDSLQERLYTKM
MPHOSPH1





[116, 135]



[172, 191]





 5
 735
FWANVIANHPQMSALITDED
TSPY1
18
2128
LFEMQDPAFVKQAVNLLQEA
NLRP4





[158, 177]



[557, 576]





 5
 736
DSFQDYIKSYLEQASRIWSW
TYR
18
2129
FFVQDASAASALKDVSYKIY
NXF2





[458, 477]



[166, 185]





 5
 737
GATLKGVAAGSSSSVKWTEG
WT1
18
2130
KKEIAMLKLEIATLKHQYQE
NY-BR-1





[244, 263]



[1052, 1071]





 5
 738
WRGRSTYRPRPRRSLQPPEL
XAGE-2
18
2131
LTFVMPNDYTKFVAEYFQER
NYD-TSPG





[3, 22]



[180, 199]





 5
 739
GKTFRVSSHLIRHFRIHTGE
ZNF165
18
2132
EMDGAAAAKQVMALKDTIGK
ODF2





[434, 453]



[215, 234]





 6
 740
LQGLRRLELASNHFLYLPRD
5T4
18
2133
KDEVYQKIILKFPLLNSETH
PASD1





[209, 228]



[86, 105]





 6
 741
EDVRVSGWLQTEFLSFQDGD
ACPBP
18
2134
NLRDNPFRTTQTRRRDDKEL
PEPP2





[452, 471]



[940, 959]





 6
 742
MQRVAPEMFFSPQVFEQPGP
ACTL8
18
2135
QETAQLVGSTASQQPGYIQP
PIWIL1





[251, 270]



[16, 35]





 6
 743
GLGGLRMDSNFDSLPVQITV
ADAM2
18
2136
AMDQARELVNMLEKIAGPIG
PIWIL2





[10, 29]



[614, 633]





 6
 744
LQINDFAYEIKPLAFSTTFE
ADAM29
18
2137
SHREAMSLKGHLQSVTAPMG
PIWIL3





[127, 146]



[518, 537]





 6
 745
DLATIFFAQFVQEATYKEVS
AFP
18
2138
ARLVDNIQRNTNARFELETW
PIWIL4





[45, 64]



[415, 434]





 6
 746
NRNVNFAMKSETKLREKMYS
AKAP-3
18
2139
SQLTTLSFYGNSISISALQS
PRAME





[417, 436]



[406, 425]





 6
 747
SKGLMVYANQVASDMMVSLM
AKAP-4
18
2140
WNLLHETDSAVATARRPRWL
PSMA





[330, 349]



[2, 21]





 6
 748
SDTSGDFRKLMVALAKGRRA
ANXA2
18
2141
GEGTFSEVMKMQSLRDGNYY
RAGE-1





[161, 180]



[11, 30]





 6
 749
VDAVKLQLPDYYTIIKNPMD
BRDT
18
2142
MSTRDQYAAVTHNIREEKIN
SAGE1





[56, 75]



[616, 635]





 6
 750
SKPRLVVPYGLKTLLEGISR
CABYR
18
2143
LDRQLKVKDLVLSVHNRAIR
SART3





[4, 23]



[354, 373]





 6
 751
YHSLNEELDFLVTSYEEIIE
CAGE1
18
2144
QENRKIIEAQRKAIQELQFG
SCP-1





[694, 713]



[135, 154]





 6
 752
AISARFKPFSNKGKTLVIQY
CALR3
18
2145
MFRQQQKILQQSRIVQSQRL
SCP3a





[76, 95]



[153, 172]





 6
 753
DKELNDMVAVHQQQLLSWEE
CCDC62
18
2146
SLDLLMKKIKGKDLQLLEMN
se57-1





[41, 60]



[87, 106]





 6
 754
LKTEENSFKRLMIVKKEKLA
CDCA1
18
2147
EPHIKRPMNAFMVWAKDERR
SOX-6





[334, 353]



[618, 637]





 6
 755
QLQVQREIVNKHNELRKAVS
CPISP2
18
2148
IIEAKMELEEVTRLLNLKDK
SPAG1





[33, 52]



[724, 743]





 6
 756
AMSKAKKLMTGHAIPPSQLD
CT45
18
2149
SVTKAERSHLIVWQVMYGNE
SPAG9





[51, 70]



[1302, 1321]





 6
 757
SNESSMLSTDTKKASILLIR
CT46
18
2150
ITGKGVPDLNTRLLVKKLWD
SPO11





[136, 155]



[247, 266]





 6
 758
EEGEQAAGLAAVPRGGSAEE
CT47
18
2151
PLKNVRKKRFRKTQKKVPDV
TAF7L





[64, 83]



[225, 244]





 6
 759
TELYQENEMKLYRKLIVEEK
CTAGE2
18
2152
SSSLSIKWDPVVPFRNESAV
TAG-1





[356, 375]



[925, 944]





 6
 760
SKSLKSQVAEAKMTFKIFQM
cTAGE5
18
2153
QKKAHVLYIDYGNEEIIPLN
TDRD1





[180, 199]



[341, 360]





 6
 761
NMAFVTSGELVRHRRYKHTH
CTCFL
18
2154
ELDRLLTENQNLETVKRRLE
TEKT5





[319, 338]



[158, 177]





 6
 762
RGSQKKHISPVQALSEFKAM
CTNNA2
18
2155
FDDWDWQNGSLSSLSLPEST
TEX14





[931, 950]



[696, 715]





 6
 763
VTSINEDNIYISNSIYFSIA
CXorf48
18
2156
QHSVEYEGNIHTSLAIAQKL
TEX15





[118, 137]



[343, 362]





 6
 764
NSTALALVRPSSSGLINSNT
CXorf61
18
2157
AAQMAVPSSRILQLSKPKAP
THEG





[34, 53]



[258, 277]





 6
 765
HQTAIKRNNPRKFLRSVGDG
DBPC
18
2158
DIKLLRNIPRWTHLLRLLRL
TPTE





[122, 141]



[180, 199]





 6
 766
SRVPVYAHITHKALKDIPKE
DCAF12
18
2159
EESENRQMMEQLRKANEDAE
TSGA10





[227, 246]



[406, 425]





 6
 767
STLVIPSAAAPIHDADAQES
DKKL1
18
2160
SAKEGTAFRMEAVQEGAAGV
TSPY1





[22, 41]



[33, 52]





 6
 768
QSVPQFFTFEDAPSYPEARA
DMRT1
18
2161
TERRLLVRRNIFDLSAPEKD
TYR





[302, 321]



[113, 132]





 6
 769
GRLLSADTKGWVRLQFHAGQ
DPPA2
18
2162
AQDEGFGKILTHKNTVRGEI
ZNF165





[228, 247]



[250, 269]





 6
 770
FITSILYENNVITIDLVQNS
EpCAM
19
2163
SSSAPFLASAVSAQPPLPDQ
5T4





[180, 199]



[42, 61]





 6
 771
AISYRKFTSASDVWSFGIVM
EPHA2
19
2164
GLRGVLQFENVSYGIEPLES
ADAM2





[788, 807]



[113, 132]





 6
 772
SVDSFQIVLDPMLPFYSDKN
FAM46D
19
2165
EIPNMSDHTTVHWARFNDIM
ADAM29





[172, 191]



[561, 580]





 6
 773
PGTDAVAQTSLEEFNVLEME
FATE1
19
2166
VMKNFGTRTFQAITVTKLSQ
AFP





[116, 135]



[226, 245]





 6
 774
MGKRLDYLNLKGARLTVEQG
FBXO39
19
2167
GRRDARSFVEAAGTTNFPAN
AKAP-3





[160, 179]



[543, 562]





 6
 775
KRKRKSEMLQKAARGREEHG
FMR1NB
19
2168
NRLSSLVIQMAHKEIKEKLE
AKAP-4





[234, 253]



[222, 241]





 6
 776
KRPSFLDDPLYGISVSLSSE
FSIP1
19
2169
LYYYIQQDTKGDYQKALLYL
ANXA2





[533, 552]



[315, 334]





 6
 777
HFLESHYLHEQVKTIKELGG
FTHL17
19
2170
SSDELFNQFRKAAIEKEVKA
BRDT





[132, 151]



[821, 840]





 6
 778
HHEIFNLLSFTLNPLEGKLQ
GASZ
19
2171
IKIGSEKSLHLEVEITSIVS
CABYR





[227, 246]



[409, 428]





 6
 779
DQPRWVSHHHPAVLNGQHPD
GATA-3
19
2172
ESRNDKEMLQLQFKKIKANY
CAGE1





[6, 25]



[398, 417]





 6
 780
DMVNELFDSLFPVIYTQLMN
Glypican-3
19
2173
KIDGQSIESGSIEYDWNLTS
CALR3





[165, 184]



[185, 204]





 6
 781
VLYRYGSFSVTLDIVQGIES
gp100
19
2174
NQKSLFKDQKFEAMLVQQNR
CCDC62





[476, 495]



[348, 367]





 6
 782
MSSTDKVIVFVSRKAVADHL
HAGE
19
2175
AHQEALMKLERLDSVPVEEQ
CDCA1





[484, 503]



[158, 177]





 6
 783
ELLKYHQRVLYIDIDIHHGD
HDAC1
19
2176
SENQKLQQKLKVMTELYQEN
CTAGE2





[162, 181];



[343, 362]





HDAC2









[163, 182]









 6
 784
FKPIISKVMEMYQPSAVVLQ
HDAC2
19
2177
MKLHRKLTVEENYRLEKEEK
cTAGE5





[242, 261]



[394, 413]





 6
 785
QNSRQYLDQIRQTIFENLKM
HDAC3
19
2178
SYASRDTYKLKRHMRTHSGE
CTCFL





[349, 368]



[376, 395]





 6
 786
GDLVDTQSDLIATQRDLIAT
HOM-TES-85
19
2179
QVEVAIEALSANVPQPFEEN
CTNNA2





[236, 255]



[588, 607]





 6
 787
TGTMPATNVSIFINNTQLSD
IGFS11
19
2180
KSDARHNVSRVPVYAHITHK
DCAF12





[95, 114]



[219, 238]





 6
 788
EIKVNPPQDFEIVDPGYLGY
IL13RA2
19
2181
HTELHPRVAFWIIKLPRRRS
DKKL1





[29, 48]



[160, 179]





 6
 789
IEEIPAYLPNGAALKDSVQR
JARID1B
19
2182
GTNFQKRLFTKIDTIAPDEI
EPHA2





[997, 1016]



[131, 150]





 6
 790
LDKLNGFQLENFTLKVAYIP
KOC1
19
2183
KESYPVVVAESMYGDFQEAM
FAM46D





[136, 155]



[196, 215]





 6
 791
KKNSYHFSAGFGSPIEDKSE
KU-CT-1
19
2184
NPYNAVLTKKFQVTMRGLLS
FBXO39





[643, 662]



[98, 117]





 6
 792
GARRPDSRLLQLHITMPFSS
Lage-1
19
2185
AWQSKEEMENTKKFLSLTAV
FSIP1





[79, 98]



[162, 181]





 6
 793
SILKNLRRVHPVSTMVKGLY
LDHC
19
2186
GAEVNTQDENGYTALTWAAR
GASZ





[262, 281]



[172, 191]





 6
 794
LSTEKSKKLKKWPEASTTKR
LEMD1
19
2187
KVFGNFPKLIMTQVSKSLQV
Glypican-3





[80, 99]



[206, 225]





 6
 795
SRGATTFIYNRAVKNTRKVA
LIPI
19
2188
FSVPQLPHSSSHWLRLPRIF
gp100





[135, 154]



[625, 644]





 6
 796
ITKKVADLVGFLLLKYRARE
MAGE-A1
19
2189
LKNITYLVLDEADKMLDMGF
HAGE





[102, 121]



[387, 406]





 6
 797
QDRIATTDDTTAMASASSSA
MAGE-A10
19
2190
QTRVKLNFLDQIAKYWELQG
JARID1B





[342, 361]



[96, 115]





 6
 798
GSVIKNYEDYFPEIFREASV
MAGE-A11
19
2191
HSVPKRQRIRKLQIRNIPPH
KOC1





[250, 269]



[72, 91]





 6
 799
KASEYLQLVFGIEVVEVVRI
MAGE-A12
19
2192
GSKDFFNNQGIPQLIQLLKS
KU-CT-1





[153, 172]



[348, 367]





 6
 800
SKASEYLQLVFGIEVVEVVP
MAGE-A2
19
2193
MSTVKEQLIEKLIEDDENSQ
LDHC





[152, 171]



[1, 20]





 6
 801
EEQEAASSSSTLVEVTLGEV
MAGE-A3
19
2194
AKFVDVIHSDSNGLGIQEPL
LIPI





[34, 53];



[224, 243]





MAGE-A6









[34, 53]









 6
 802
ATEEQEAASSSSTLVEVTLG
MAGE-A6
19
2195
HAEIRKMSLLKFLAKVNGSD
MAGE-A10





[32, 51]



[303, 322]





 6
 803
VRVNARVRISYPSLHEEALG
MAGE-A8
19
2196
VYAGREHELFGEPKELLTQN
MAGE-A11





[294, 313]



[343, 362]





 6
 804
VGKEHMFYGEPRKLLTQDWV
MAGE-A9
19
2197
KISGGPRISYPLLHEWALRE
MAGE-A6





[231, 250]



[292, 311]





 6
 805
MHFILRKYKMREPIMKADML
MAGE-B1
19
2198
RSSVRARRRTTATTFRARSR
MAGE-B1





[116, 135]



[318, 337]





 6
 806
ESLLSSWDFPRRKLLMPLLG
MAGE-B2
19
2199
VDLTDEESLLSSWDEPERKL
MAGE-B2





[190, 209]



[184, 203]





 6
 807
VQFLMEMYKMKKPIMKADML
MAGE-B3
19
2200
RGQTQDHQGAQITATNKKKV
MAGE-B3





[119, 138]



[19, 38]





 6
 808
FPEIFRKVSQRTELVFGLAL
MAGE-B4
19
2201
AEKEESPSSSSSVLRDTASS
MAGE-B4





[147, 166]



[33, 52]





 6
 809
DSSGESYTLVSKLGLPSEGI
MAGE-B6
19
2202
RTHSTFEGFPQSLLQIPMTS
MAGE-C1





[256, 275]



[325, 344]





 6
 810
EFLAMLKNTVPITFPSSYKD
MAGE-C1
19
2203
PMEDVNLSSGHIARVSVSGS
MORC1





[1086, 1105]



[780, 799]





 6
 811
PRELLTKVWVQGHYLEYREV
MAGE-C2
19
2204
ENNEGLRAFLLTIENELKNE
MPHOSPH1





[270, 289]



[882, 901]





 6
 812
EKPLNSFQYQRRQAMGIPFI
MORC1 
19
2205
YQPDLKYLSFTLTKLSRDDI
NLRP4





[464, 483]



[692, 711]





 6
 813
RAKRKLYTSEISSPIDISGQ
MPHOSPH1
19
2206
TIPYGIKYDKAWLMNSIQSH
NXF2





[1775, 1794]



[128, 147]





 6
 814
TSPQLSTGVSFFFLSFHISN
MUC-1
19
2207
LQSKNMWLQQQLVHAHKKAD
NY-BR-1





[1032, 1051]



[1270, 1289]





 6
 815
TETQVKIWFQNRRYKTKRKQ
NKX3.1
19
2208
RGKAPDPQAGNFVLVFPFNE
NYD-TSPG





[164, 183]



[545, 564]





 6
 816
STTSVYSSFVFNLFTPEGAE
NLRP4
19
2209
HKAEVEAIMEQLKELKQKGD
ODF2





[367, 386]



[377, 396]





 6
 817
RSLDPQSYSLIHQLLSAEDL
NR6A1
19
2210
HDAIQNQQNALELMMDHLQK
PASD1





[244, 263]



[392, 411]





 6
 818
DNEWNYTRAGQAFTMLQTEG
NXF2
19
2211
RSWTYGITRGGRVFFINEEA
PEPP2





[596, 615]



[14, 33]





 6
 819
SSEIVGMLLQQNVDVFAADI
NY-BR-1
19
2212
GLTDKMRNDFNVMKDLAVHT
PIWIL1





[161, 180]



[391, 410]





 6
 820
DDMYIVQKYISNPLLIGRYK
NYD-TSPG
19
2213
ENYQPKMVVFVVQKKISTNL
PIWIL2





[234, 253]



[841, 860]





 6
 821
ATSAQNIEFLQVIAKREEAI
ODF2
19
2214
FRRTFKLLDFEQVGRNYYTK
PIWIL3





[675, 694]



[229, 248]





 6
 822
PAAYRQTDVRVTKFKAPQYT
ODF3
19
2215
SATEVGRIQASPLPRSVDLS
PIWIL4





[182, 201]



[17, 36]





 6
 823
NIWIFELERNVSIPIGWSYF
ODF4
19
2216
MPMQDIKMILKMVQLDSIED
PRAME





[165, 184]



[218, 237]





 6
 824
NNVVLEAPFLVGIEGSLKGS
OIP5
19
2217
FLDELKAENIKKFLYNFTQI
PSMA





[111, 130]



[61, 80]





 6
 825
RADPVDLEFSVDQVDSVDQE
PASD1
19
2218
TPAQKILTKFKQSRAMNFDF
RAGE-1





[298, 317]



[220, 239]





 6
 826
FDDEAYYAALGTRPPINMEE
PBK
19
2219
NNSQPAPGNILSTAPPWLRH
SAGE1





[266, 285]



[635, 654]





 6
 827
SQEIEMHADNPAAIQTVVLQ
PEPP2
19
2220
ESDGDEYAMASSAESSPGEY
SART3





[674, 693]



[64, 83]





 6
 828
IYTRRNYEAANSLIQNLFKV
PIWIL1
19
2221
ELEDIKVSLQRSVSTQKALE
SCP-1





[499, 518]



[323, 342]





 6
 829
AASIRRTDGGLFLLADVSHK
PIWIL2
19
2222
SILQEQISHLQFVIHSQHQN
se57-1





[364, 383]



[237, 256]





 6
 830
KKKAIQLYRHGTSLEIWLGY
PIWIL3
19
2223
EKQPYYEEQARLSKIHLEKY
SOX-6





[248, 267]



[666, 685]





 6
 831
SNKAKAFDGAILFLSQKLEE
PIWIL4
19
2224
RALRKDKPAATAASFTAEEW
SPAG1





[151, 170]



[73, 92]





 6
 832
QLTTLSFYGNSISISALQSL
PRAME
19
2225
GVDGQWDLSNYHLLDLGRPH
SPAG9





[407, 426]



[1028, 1047]





 6
 833
EAEVGEFPWQVSIQARSEPF
PRSS55
19
2226
PMGPEASFFDVLDRHRESLL
SPO11





[73, 92]



[5, 24]





 6
 834
SFDSLFSAVKNFTEIASKFS
PSMA
19
2227
NEVKRLLRSDAEAVSTRWEV
TAF7L





[628, 647]



[263, 282]





 6
 835
KRRGPAYVMELPKLKLSGVV
RAGE-1
19
2228
QTTFGPVFEDQPLSVLFPEE
TAG-1





[339, 358]



[32, 51]





 6
 836
IRKTQKIVIKKREPLNFGIP
RCAS1
19
2229
DYGNEEIIPLNRIYHLNRNI
TDRD1





[102, 121]



[350, 369]





 6
 837
PAPDNVLLTLRPRRINMTDT
SAGE1
19
2230
QTQLAKTLQEIFQAENTIML
TEKT5





[216, 235]



[357, 376]





 6
 838
APRLAEYQAYIDFEMKIGDP
SART3
19
2231
RITIGTLFSVLHERRSQFPV
TEX14





[307, 326]



[328, 347]





 6
 839
HDLEIQLTAITTSEQYYSKE
SCP-1
19
2232
REDNAVSAATALLESEEDTI
TEX15





[479, 498]



[544, 563]





 6
 840
RLKTIKQLYEQFIKSMEELE
SCP3a
19
2233
SKPKAPATLLEEWDPVPKPK
THEG





[171, 190]



[272, 291]





 6
 841
NTREPAAEIEALLGMDLVRL
SCRN1
19
2234
FTKEVNEWMAQDLENIVAIH
TPTE





[96, 115]



[318, 337]





 6
 842
EAGAAALRNVAQRLFENYQT
se57-1
19
2235
ISMQNLEALLVANRDKEYQS
TSGA10





[121, 140]



[562, 581]





 6
 843
DFQKEYQLKTIEKLALEKSY
SLCO6A1
19
2236
VNITEYRASHSTPIEWYPDY
TSPY1





[132, 151]



[222, 241]





 6
 844
AAQLASMQVSPGAKMPSTPQ
SOX-6
19
2237
NFSFRNTLEGFASPLTGIAD
TYR





[371, 390]



[337, 356]





 6
 845
SNTHYRIPQGFGNLLEGLTR
SP17
19
2238
GTDEAVLQVQAHEHGQEIFQ
ZNF165





[6, 25]



[130, 149]





 6
 846
TPNNHFTLEDIQALKRQYEL
SPAG1
20
2239
AALLAGRALQGLRRLELASN
5T4





[907, 926]



[201, 220]





 6
 847
STAHSRIRKERPISLGIFPL
SPAG9
20
2240
ILSSLELWIDENKIATTGEA
ADAM2





[190, 209]



[224, 243]





 6
 848
HLSKSDLLANQSQEVLEERT
SPATA19
20
2241
RDFNQFSSGEKNIFLASFVH
AFP





[93, 112]



[337, 356]





 6
 849
RSSWENIKFEDSVGLQMVSH
SPO11
20
2242
AREGGRFFPRERKRFRGQER
AKAP-3





[75, 94]



[254, 273]





 6
 850
GKHAWTHRLRERKQLVIYEE
SSX-1
20
2243
GGGQSAKALSVKQLESHRAP
AKAP-4





[160, 179]



[588, 607]





 6
 851
GFKAILPSFMANKRVTDFQG
SSX-3
20
2244
IQNKPLYFADRLYDSMKGKG
ANXA2





[62, 81]



[263, 282]





 6
 852
ISEKLRKAFDDIAKYFSKKE
SSX-4
20
2245
YLQKVVLKDLWKHSFSWPFQ
BRDT





[17, 36]



[34, 53]





 6
 853
HRVRERKQLVIYEEISDPQE
SSX-5
20
2246
TEKPEFQSQVYNYAKDNNIK
CAGE1





[166, 185]



[138, 157]





 6
 854
MGQHKDLWDFHMPERLAKEI
SYCE1
20
2247
QMVTDLELSTLLPISHENLT
CCDC62





[166, 185]



[643, 662]





 6
 855
DADSSAQAAAQAPENFQEGK
TAF7L
20
2248
PKAKRTSRFLSGIINFIHFR
CDCA1





[66, 85]



[112, 131]





 6
 856
AAVALVSSSAWSSALGSQTT
TAG-1
20
2249
KLLEKFSLVQKEYEGYEVES
CTAGE2





[15, 34]



[61, 80]





 6
 857
IMLLKNFMLNQNVMLSVKGI
TDRD1
20
2250
RAVVAALPEGMRPDSNLYGF
cTAGE5





[1072, 1091]



[20, 39]





 6
 858
LVNEVFTIDDTLQTLKLRLR
TEKT5
20
2251
EQFTKIKELELMPEKGLKEE
CTCFL





[415, 434]



[11, 30]





 6
 859
LLQISDALRYLHFQGFIHRS
TEX14
20
2252
PQVINAALTLAARPQSKVAQ
CTNNA2





[357, 376]



[460, 479]





 6
 860
KDLRRHKIYGRKRRLTSQDS
TEX15
20
2253
VGSQAHVSFLDPRQPSYNVK
DCAF12





[933, 952]



[313, 332]





 6
 861
EDIPEISRLSISQKLPSTTM
THEG
20
2254
GERPYWELSNHEVMKAINDG
EPHA2





[97, 116]



[814, 833]





 6
 862
ERRQQYFSDLFNILDTAIIV
TPTE
20
2255
LIGQGIIVKDARLNGSVASY
FAM46D





[148, 167]



[51, 70]





 6
 863
SEIELLASQMANERISMQNL
TSGA10
20
2256
ELDRLVWRNSIRSSFISSLS
FBXO39





[548, 567]



[135, 154]





 6
 864
SDVPVLQVIMHSRYRAQRFW
TSP50
20
2257
FLDDPLYGISVSLSSEDQHL
FSIP1





[179, 198]



[537, 556]





 6
 865
DRRGAVIQSVPGFWANVIAN
TSPY1
20
2258
LDRGANASFEKDKQSILITA
GASZ





[146, 165]



[99, 118]





 6
 866
EKDKFFAYLTLAKHTISSDY
TYR
20
2259
YRIYDMENVLLGLFSTIHDS
Glypican-3





[130, 149]



[311, 330]





 6
 867
TGSQALLLRTPYSSDNLYQM
WT1
20
2260
HRRGSRSYVPLAHSSSAFTI
gp100





[210, 229]



[190, 209]





 6
 868
GKAFRHSSKLARHQRIHTGE
ZNF165
20
2261
MGFEPQIMKILLDVRPDRQT
HAGE





[350, 369]



[404, 423]





 7
 869
FSGSNASVSAPSPLVELILN
5T4
20
2262
KPPLEKILPLLASLQRIRVR
JARID1B





[162, 181]



[1226, 1245]





 7
 870
SQPVSILSPNTLKEIEASAE
ACRBP
20
2263
DAKVRMVIITGPPEAQFKAQ
KOC1





[124, 143]



[448, 467]





 7
 871
IERGRILNWEGVQYLWSFVL
ACTL8
20
2264
RAKLQELNAIPPILDLLKSE
KU-CT-1





[67, 86]



[184, 203]





 7
 872
QDFAKYIEMHVIVEKQLYNH
ADAM2
20
2265
MIEEPRLYEKNKPFYKLQEV
LIPI





[174, 193]



[386, 405]





 7
 873
SKHLPVFTYTDQGAILEDQP
ADAM29
20
2266
FPTVRPADLTRVIMPLEQRS
MAGE-A11





[75, 94]



[98, 117]





 7
 874
YKEVSKMVKDALTAIEKPTG
AFP
20
2267
REKRRKAREETQGLKVAHAT
MAGE-B1





[60, 79]



[12, 31]





 7
 875
KQLQAVLQWVAASELNVPIL
AKAP-3
20
2268
WGPRAYAETSKMKVLEFLAK
MAGE-B2





[771, 790]



[275, 294]





 7
 876
KQLQAVLQWIAASQFNVPML
AKAP-4
20
2269
ATEEKIWEFLNKMRIYDGKK
MAGE-B3





[772, 791]



[218, 237]





 7
 877
PKWISIMTERSVPHLQKVFD
ANXA2
20
2270
STSTERSLKDSLTRKTKMLV
MAGE-B4





[211, 230]



[98, 117]





 7
 878
LKAVHQQLQVLSQVPFRKLN
BRDT
20
2271
EVIKRKVVEFLAMLKNTVPI
MAGE-C1





[430, 449]



[1078, 1097]





 7
 879
TMYRGNTTMDIKDLVKQFHQ
CABYR
20
2272
RKLQSIIYDSNTRGIHNEIS
MORC1





[45, 64]



[883, 902]





 7
 880
EKVSDIMLQKLKSLHLKKKT
CAGE1
20
2273
LDVQIQHVVEGKRALSELTQ
MPHOSPH1





[645, 664]



[1135, 1154]





 7
 881
DSRFGHFRLSSGKFYGHKEK
CALR3
20
2274
RTGYTKTYQAHAKQKFSRLW
NLRP4





[43, 62]



[92, 111]





 7
 882
SRQMVTDLELSTLLPISHEN
CCDC62
20
2275
KYFEDSRNMKTLKDPYLKGE
NXF2





[641, 660]



[439, 458]





 7
 883
KSSADKMQQLNAAHQEALMK
CDCA1
20
2276
AFEPAIEMQKSVPNKALELK
NY-BR-1





[146, 165]



[704, 723]





 7
 884
PASNMLKMEWSREVTTNAQR
CRISP2
20
2277
GLNVKRIIQELQKLMNKQHS
NYD-TSPG





[54, 73]



[573, 592]





 7
 885
SQIDDFTGFSKDRMMQKPGS
CT45
20
2278
ANVFGDGPYSTFLTSSPIRS
ODF2





[71, 90]



[805, 824]





 7
 886
KKASILLIRKIYILMQNLGP
CT46
20
2279
KLNWIPSFPTYDYFNQVTLQ
PASD1





[147, 166]



[20, 39]





 7
 887
DSGPDSSDVVPAAEVVGVAG
CT47
20
2280
LPRNMPSHRAQIMARYPEGY
PEPP2





[37, 56]



[439, 458]





 7
 888
LEGERNQIYIQLSEVDKTKE
CTAGE2
20
2281
HAFDGTILFLPKRLQQKVTE
PIWIL1





[299, 318]



[161, 180]





 7
 889
LLEKDPYALDVPNTAFGREH
cTAGE5
20
2282
IEGRVLPMERINLKNTSFIT
PIWIL2





[497, 516]



[563, 582]





 7
 890
MSGDERSDEIVLTVSNSNVE
CTCFL
20
2283
KDYSIVKELAKHTRLSPRRR
PIWIL3





[206, 225]



[413, 432]





 7
 891
FGKEMVKLNYVAARRQQELK
CTNNA2
20
2284
ILKKLSMYQIGRNFYNPSEP
PIWIL4





[179, 198]



[213, 232]





 7
 892
GYVPQVDDIVNVVMVESIQF
CXorf48
20
2285
PLQALLERASATLQDLVFDE
PRAME





[208, 227]



[368, 387]





 7
 893
SMVENKLVELEHTLLSKGFR
CXorf61
20
2286
DSVELAHYDVLLSYPNKTHP
PSMA





[85, 104]



[106, 125]





 7
 894
VLGTVKWFNVRNGYGFINRN
DBPC
20
2287
DERIAAHQALQHPYFQEQRK
RAGE-1





[94, 113]



[271, 290]





 7
 895
HKDWIFSIAWISDTMAVSGS
DCAF12
20
2288
QPQPDNILSTASTGLINVAG
SAGE1





[183, 202]



[262, 281]





 7
 896
VAFWIIKLPRRRSHQDALEG
DKKL1
20
2289
EYENESQASQAVMKMDGMTI
SART3





[167, 186]



[847, 866]





 7
 897
SSQYRMHSYYPPPSYLGQSV
DMRT1
20
2290
PSSLTTPGSTLKFGAIRKMR
SCP-1





[285, 304]



[933, 952]





 7
 898
QQLGLSTNGKKIEVYLRLHR
DPPA2
20
2291
EKLEEKHSQITELENLVQRM
se57-1





[105, 124]



[179, 198]





 7
 899
VDEKAPEFSMQGLKAGVIAV
EpCAM
20
2292
KDERRKILQAFPDMHNSNIS
SOX-6





[252, 271]



[633, 652]





 7
 900
KETFNLYYAESDLDYGTNFQ
EPHA2
20
2293
ETLEQYGKAYVDYKTVLQID
SPAG1





[116, 135]



[532, 551]





 7
 901
NLTWDQVITLDQVLDEVIPI
FAM46D
20
2294
REAELKKEYNALHQRHTEMI
SPAG9





[8, 27]



[148, 167]





 7
 902
TRPKKMGSQLPKPRMLRESG
FATE1
20
2295
IYYTDSQLFGNQTVVDNIIN
SPO11





[73, 92]



[136, 155]





 7
 903
RKWNQMMYSAELWRYRTITF
FBXO39
20
2296
DGTKEIESQGSIPGFLISSG
TAF7L





[44, 63]



[286, 305]





 7
 904
RSLFWRSEPADDLQRQDNRV
FMR1NB
20
2297
DIGDTTIQLSWSRGFDNHSP
TAG-1





[205, 224]



[618, 637]





 7
 905
AIQKMKKLDKILAKKQRREK
FSIP1
20
2298
VDVADKLVTFGLAKNITPQR
TDRD1





[118, 137]



[1109, 1128]





 7
 906
LSDDKMEHAQKLMRLQNLRG
FTHL17
20
2299
LYHREKRIGIDLVHDNVEKN
TEKT5





[59, 78]



[194, 213]





 7
 907
MAASALRGLPVAGGGESSES
GASZ
20
2300
SVSTPLSPGSVSSAASQYKD
TEX14





[1, 20]



[1209, 1228]





 7
 908
GLYHKMNGQNRPLIKPKRAL
GATA-3
20
2301
HSNLLYSQYFTYFAGEPQAN
TEX15





[289, 308]



[2705, 2724]





 7
 909
VLLGLFSTIHDSIQYVQKNA
Glypican-3
20
2302
YVTERIIAMSFPSSGRQSFY
TPTE





[319, 338]



[241, 260]





 7
 910
SQKRSFVYVWKTWGQYWQVL
gp100
20
2303
LAMKEKTISGMKNIIAEMEQ
TSGA10





[144, 163]



[291, 310]





 7
 911
PKASTWVVASRRSSTVSRAP
HAGE
20
2304
EAYRRRHHNSSLNFFNWFSD
TSPY1





[8, 27]



[244, 263]





 7
 912
TKYHSDDYIKFLASIRPDNM
HDAC1
20
2305
ASQSSMHNALHIYMNGTMSQ
TYR





[65, 84]



[357, 376]





 7
 913
EMTKYHSDEYIKFLASIRPD
HDAC2
20
2306
PGPALNVKLQPVETKAHFDS
ZNF165





[64, 83]



[155, 174]





 7
 914
SEELPYSEYFEYFAPDFTLH
HDAC3
21
2307
VSLTYVSFRNLTHLESLHLE
5T4





[320, 339]



[247, 266]





 7
 915
PSQKPSGFKSGQHPLNGQPL
HOM-TES-85
21
2308
QSVEPQQDFAKYIEMHVIVE
ADAM2





[92, 111]



[168, 187]





 7
 916
IALILGAFFYWRSKNKEEEE
IGFS11
21
2309
TKVNFTEIQKLVLDVAHVHE
AFP





[258, 277]



[248, 267]





 7
 917
IREDDTTLVTATVENETYTL
IL13RA2
21
2310
KGTGSAEAVLQNAYQAIHNE
AKAP-3





[276, 295]



[721, 740]





 7
 918
ESYNEWALNVNEALEAKINK
JARID1B
21
2311
GMKQANGQFIDKLVESVMKL
AKAP-4





[753, 772]



[688, 707]





 7
 919
QDTDTKITISPLQELTLYNP
KOC1
21
2312
KSYSPYDMLESIRKEVKGDL
ANXA2





[304, 323]



[233, 252]





 7
 920
VIDLMFHPGGLMKLRSREAD
KU-CT-1
21
2313
AQALEKLFMQKLSQMPQEEQ
BRDT





[848, 867]



[119, 138]





 7
 921
REGAGRMRVVGWGLGSASPE
Lage-1
21
2314
QLKKELEKATASALDLLKRE
CAGE1





[142, 161]



[457, 476]





 7
 922
QSAYEIIKLKGYTSWAIGLS
LDHC
21
2315
VGQLQAREQALTTMIKLKDK
CCDC62





[236, 255]



[149, 168]





 7
 923
LGFSPGPILPSTRKLYEKKL
LEMD1
21
2316
IQESLKTKIVDSPEKLKNYK
CDCA1





[19, 38]



[236, 255]





 7
 924
DLFIPRIETILMMYTRNNLN
LIPI
21
2317
KSLKSQVAEAKMTFKRFQAN
CTAGE2





[56, 75]



[151, 170]





 7
 925
VQAATSSSSPLVLGTLEEVP
MAGE-A1
21
2318
ISHEKKAHDNWLAARNAERN
cTAGE5





[28, 47]



[454, 473]





 7
 926
KLLTQDWVQENYLEYRQVPG
MAGE-A10
21
2319
SPQEMEVLQFHALEENVMVA
CTCFL





[269, 288];



[144, 163]





MAGE-A4









[245, 264]









 7
 927
VKGLITKAEMLGSVIKNYED
MAGE-A11
21
2320
TGIGELAAALNEFDNKIILD
CTNNA2





[239, 258]



[271, 290]





 7
 928
ETSFQVALSRKMAELVHFLL
MAGE-A12
21
2321
VGTGQGSLLFYDIRAQRFLE
DCAF12





[102, 121]



[355, 374]





 7
 929
FAHPRKLLMQDLVQENYLEY
MAGE-A2
21
2322
RLEGVISKYKPMMIITEYME
EPHA2





[239, 258]



[677, 696]





 7
 930
APEEKIWEELSVLEVFEGRE
MAGE-A3
21
2323
NNRLKSLSIQYLELDRLVWR
FBXO39





[216, 235];



[123, 142]





MAGE-A6









[216, 235]









 7
 931
PVIFGKASESLKMIFGIDVK
MAGE-A4
21
2324
EASKGYYLTKALTGHNMSEA
FSIP1





[149, 168]



[477, 496]





 7
 932
GGPRISYPLLHEWALREGEE
MAGE-A6
21
2325
VSLVQELLDSGISVDSNFQY
GASZ





[295, 314]



[59, 78]





 7
 933
LRKLLTQEWVQENYLEYRQA
MAGE-A8
21
2326
TLSSRRRELIQKLKSFISFY
Glypican-





[245, 264]



3









[383, 402]





 7
 934
KLKVAELVHFLLAKYRVKEP
MAGE-A9
21
2327
GVSRQLRTKAWNRQLYPEWT
gp100





[109, 128]



[34, 53]





 7
 935
EERAQVASSVRARRATTATT
MAGE-B1
21
2328
PPIKKNFYKESTATSAMSKV
HAGE





[312, 331]



[192, 211]





 7
 936
QRAPTTAAAAAAGVSSTKSK
MAGE-B2
21
2329
WEEFADPFAFIHKIRPIAEQ
JARID1B





[63, 82]



[39, 58]





 7
 937
IEKKQSFSQGLSSTVQSRTD
MAGE-B3
21
2330
GKTVNELQNLSSAEVVVPRD
KOC1





[90, 109]



[507, 526]





 7
 938
NQSSAWTLPRNGLLMPLLSV
MAGE-B4
21
2331
YSQTGYLSSSNIINDGFYDY
KU-CT-1





[188, 207]



[556, 575]





 7
 939
IYDGILHSIYGDARKIITED
MAGE-B6
21
2332
LSVHIKNLLKHGASLDNFHF
LIPI





[316, 335]



[157, 176]





 7
 940
SLLQIPMTSSFSSTLLSIFQ
MAGE-C1
21
2333
AQALQAEEQEAAFFSSTLNV
MAGE-A11





[336, 355]



[138, 157]





 7
 941
MIVIKYKDYFPVILKRAREF
MAGE-C2
21
2334
LKGNSATEEEIWKFMNVLGA
MAGE-B1





[169, 188]



[210, 229]





 7
 942
EEESLSEVVVPMPSWLIRTR
MORC1
21
2335
LITKDLVQEKYLEYKQVPSS
MAGE-B2





[135, 154]



[247, 266]





 7
 943
QKFGDFLQHSPSILQSKAKK
MPHOSPH1
21
2336
FPEILKKASFNMEVVFGVDL
MAGE-B3





[1731, 1750]



[149, 168]





 7
 944
TSASGSASGSASTLVHNGTS
MUC-1
21
2337
DPPRYQFLWGPRAHAETSKM
MAGE-B4





[959, 978]



[264, 283]





 7
 945
PTPSKPLTSFLIQDILRDGA
NKX3.1
21
2338
DELARFLLLKYQVKQPITKA
MAGE-C1





[20, 39]



[913, 932]





 7
 946
MMAWSDNKIFRDRFLYTFYF
NLRP4
21
2339
PEEASDIIYFGRSKKRLSTL
MORC1





[169, 188]



[74, 93]





 7
 947
RLADELLFRQIAWIKKLPFF
NR6A1
21
2340
DSDDTLYGSLTNSLNISEFE
MPHOSPH1





[289, 308]



[231, 250]





 7
 948
FPKLLRLDGRELSAPVIVDI
NXF2
21
2341
MEKRPVQVLLSSLLRKKMLP
NLRP4





[350, 369]



[252, 271]





 7
 949
PKKPSAFKPAIEMQNSVPNK
NY-BR-1
21
2342
KWHSEDEIRITTWANRKPPE
NXF2





[461, 480]



[90, 109]





 7
 950
PNDYTKFVAEYFQERQMLGT
NYD-TSPG
21
2343
QIVEFLLIKNANANAVNKYK
NY-BR-1





[185, 204]



[130, 149]





 7
 951
KLVEAEMDGAAAAKQVMALK
ODF2
21
2344
TEKFDLSNLQNNYAHLTNSS
NYD-TSPG





[210, 229]



[282, 301]





 7
 952
MGPNTVGKASQPSFSIKGRS
ODF3
21
2345
VAEALSTLESWRSRYNQVVK
ODF2





[148, 167]



[434, 453]





 7
 953
AFILLLVVAFSKKWLDLSRS
ODF4
21
2346
RLWQELSDSLGPVVQVNTWS
PASD1





[91, 110]



[691, 710]





 7
 954
LKEKIVLTANRLKSLMKILS
OIP5
21
2347
PKTMVNISDQTMHSIPTSPS
PEPP2





[199, 218]



[527, 546]





 7
 955
EQLEERTWLLHDAIQNQQNA
PASD1
21
2348
YHDMTAGRRSIAGFVASINE
PIWIL1





[382, 401]



[634, 653]





 7
 956
NMARGLKYLHQEKKLLHGDI
PBK
21
2349
KTPKDSFTMSDGKEITFLEY
PIWIL2





[149, 168]



[436, 455]





 7
 957
DLNLEWISLPRSWTYGITRG
PEPP2
21
2350
LLQLWDLKFDTNFLSVPGRV
PIWIL3





[4, 23]



[452, 471]





 7
 958
YNPLMEARRLASALLFQHED
PIWIL1
21
2351
ETQRGETIKMTITLKRELPS
PIWIL4





[136, 155]



[178, 197]





 7
 959
LVGNIVITRYNNRTYRIDDV
PIWIL2
21
2352
MLTDVSPEPLQALLERASAT
PRAME





[413, 432]



[360, 379]





 7
 960
GSEGTVVQLLANHFRVISRP
PIWIL3
21
2353
TLRGAVEPDRYVILGGHRDS
PSMA





[119, 138]



[361, 380]





 7
 961
QYAHKLTFLVAQSIHKEPSL
PIWIL4
21
2354
LQSVLGSGTNGRVPVLRPLK
RAGE-1





[824, 843]



[368, 387]





 7
 962
ETFKAVLDGLDVLLAQEVRP
PRAME
21
2355
RSTRDLYATVIHDIQEEEME
SAGE1





[95, 114]



[710, 729]





 7
 963
FEGRTRYSRITGGMEAEVGE
PRSS55
21
2356
DGMTIKENIIKVAISNPPQR
SART3





[59, 78]



[862, 881]





 7
 964
KYADKIYSISMKHPQEMKTY
PSMA
21
2357
DSSETTDLLSMVSEEETLKT
SCP-1





[606, 625]



[893, 912]





 7
 965
YDPDERIAAHQALQHPYFQE
RAGE-1
21
2358
KLSLENKLLQLKSSATYGKS
se57-1





[268, 287]



[209, 228]





 7
 966
ISSTITRDLYVTATHSVHEE
SAGE1
21
2359
NEKERTRFENLGPQLTGKSN
SOX-6





[660, 679]



[539, 558]





 7
 967
EKVHSLFRRQLAIPLYDMEA
SART3
21
2360
PASVPLQAWHPAKEMISKQA
SPAG1





[245, 264]



[587, 606]





 7
 968
EQEQSSLRASLEIELSNLKA
SCP-1
21
2361
SIRLDSTLRLYHAHTYQHLQ
SPAG9





[739, 758]



[1105, 1124]





 7
 969
NLLTGAQNEFKKEMAMLQKK
SCP3a
21
2362
KGVPDLNTRLLVKKLWDTFH
SPO11





[195, 214]



[250, 269]





 7
 970
DQEQGRKLRSTMLELEKQGL
SCRN1
21
2363
PDVKEMEKSSFTEYIESPDV
TAF7L





[361, 380]



[242, 261]





 7
 971
ERKLSLENKLLQLKSSATYG
se57-1
21
2364
VFSKFAQLNLAAEDTRLFAP
TAG-1





[207, 226]



[220, 239]





 7
 972
DRKKVIWFVASSFLIGLGSL
SLCO6A1
21
2365
ESVLVGYVDYGNFEILSLMR
TDRD1





[167, 186]



[570, 589]





 7
 973
EDAEGSKAMNGSAAKLQQYY
SOX-6
21
2366
IDDTLQTLKLRLRETQDTLQ
TEKT5





[574, 593]



[422, 441]





 7
 974
SIPFSNTHYRIPQGFGNLLE
SP17
21
2367
PEHSEAFQASSDTLVAVEKS
TEX14





[2, 21]



[1042, 1061]





 7
 975
EPAGSEIADDLSILYSNRAA
SPAG1
21
2368
NPETDVSLVPDASVLSKPIF
TEX15





[476, 495]



[2497, 2516]





 7
 976
DEEVVKELMPLVVAVLENLD
SPAG9
21
2369
ILADLIFTDSKLYIPLEYRS
TPTE





[43, 62]



[109, 128]





 7
 977
EMTEDIMRDRIEQVRRSISR
SPATA19
21
2370
VANRDKEYQSQIALQEKESE
TSGA10





[130, 149]



[572, 591]





 7
 978
PTGGSRLASSSEVLASIENI
SPO11
21
2371
SANDPIFLLHHAFVDSIFEQ
TYR





[35, 54]



[380, 399]





 7
 979
EKRSKAFDDIATYFSKKEWK
SSX-1
22
2372
NRNLTEVPTDLPAYVRNLFL
5T4





[19, 38]



[79, 98]





 7
 980
MNGDDAFARRPTVGAQIPEK
SSX-2
22
2373
LVLRPHDVAFLLVYREKSNY
ADAM2





[1, 20]



[258, 277]





 7
 981
MNGDDTFARRPTVGAQIPEK
SSX-3
22
2374
FQKLGEYYLQNAFLVAYTKK
AFP





[1, 20]



[419, 438]





 7
 982
VTLPPFMRSKRAADFHGNDF
SSX-4
22
2375
SDSWAEDLIVSALLLIQYHL
AKAP-3





[65, 84]



[520, 539]





 7
 983
KYFSEKEWEKMKASEKIIYV
SSX-5
22
2376
MVYANQVASDMMVSLMKTLK
AKAP-4





[30, 49]



[334, 353]





 7
 984
VHLKEILSKKQETLRILRLH
SYCE1
22
2377
RIMVSRSEVDMLKIRSEFKR
ANXA2





[96, 115]



[290, 309]





 7
 985
NEGTSSIVMEIQKQIEKKEK
TAF7L
22
2378
DVFETHFSKIPIEPVESMPL
BRDT





[384, 403]



[367, 386]





 7
 986
VSREAILRFGFLQEFSKEER
TAG-1
22
2379
QVFIDVINKLKENVEELIED
CAGE1





[121, 140]



[348, 367]





 7
 987
LGVTKEIAIWAERIMFSDLR
TDRD1
22
2380
IYVKQQSDLQFLNFNVENSQ
CCDC62





[237, 256]



[288, 307]





 7
 988
TILPTLRSALFSRYSPHDWD
TEKT5
22
2381
KMKDTVQKLKNARQEVVEKY
CDCA1





[76, 95]



[257, 276]





 7
 989
PPSLNYIPPVLQLSGGQKPD
TEX14
22
2382
ILHEKKAHDNWSAAWTAERN
CTAGE2





[796, 815]



[423, 442]





 7
 990
YGLEHIFFDAAKNLVWKERT
TEX15
22
2383
LTETELKFELLEKDPYALDV
cTAGE5





[1882, 1901]



[488, 507]





 7
 991
RPKRFYLEYYNNNRTTPVWP
THEG
22
2384
KYASVEASKLKRHVRSHTGE
CTCFL





[199, 218]



[348, 367]





 7
 992
IALFFLMDVLLRVFVERRQQ
TPTE
22
2385
SNNEEGVKLVRMAATQIDSL
CTNNA2





[133, 152]



[439, 458]





 7
 993
RRQLDETNDELAQIARERDI
TSGA10
22
2386
RHNVSRVPVYAHITHKALKD
DCAF12





[330, 349]



[223, 242]





 7
 994
KSEAPPIYLQVSSYQHWIWD
TSP50
22
2387
QSPEDVYFSKSEQLKPLKTY
EPHA2





[336, 355]



[569, 588]





 7
 995
HHNSSLNFFNWFSDHNFAGS
TSPY1
22
2388
QFKKTMSTFHNLVSLNLNYN
FBXO39





[250, 269]



[215, 234]





 7
 996
KHTISSDYVIPIGTYGQMKN
TYR
22
2389
LREIDEKLKMMKENVLESTS
FSIP1





[142, 161]



[382, 401]





 7
 997
IQDVARVPGVAPTLVASASE
WT1
22
2390
LITAVQNVITELPVNSQKIT
GASZ





[297, 316]



[370, 389]





 7
 998
FKWNSDFINHQIIYAGEKNH
ZNF165
22
2391
IHDSIQYVQKNAGKLTTTIG
Glypican-





[301, 320]



3









[327, 346]





 8
 999
LRHLDLSNNSLVSLTYVSFR
5T4
22
2392
SGYLAEADLSYTWDFGDSSG
gp100





[236, 255]



[248, 267]





 8
1000
PWPERLSNNVEELLQSSLSL
ACRBP
22
2393
DLASRGLDVHDVTHVYNFDF
HAGE





[167, 186]



[545, 564]





 8
1001
LYPGFTKRLFRELMGDHVSS
ACTL8
22
2394
DQIAKYWELQGSTLKIPHVE
JARID1B





[303, 322]



[105, 124]





 8
1002
IFVSFNITIILSSLELWIDE
ADAM2
22
2395
LQELTLYNPERTITVKGNVE
KOC1





[215, 234]



[315, 334]





 8
1003
QKQSSYVGWWIHFRIVEIVV
ADAM29
22
2396
FSWELHISELKFQLKSNVIP
KU-CT-1





[185, 204]



[767, 786]





 8
1004
KLSQKFTKVNFTEIQKLVLD
AFP
22
2397
KNKPFYKLQEVKILAQFYND
LIPI





[242, 261]



[395, 414]





 8
1005
DAMLRKLYNVMFAKKVPEHV
AKAP-3
22
2398
SSVRARRATTATTFRARSRA
MAGE-B1





[375, 394]



[319, 338]





 8
1006
MTDSDFVSAVKRNLFNQWKQ
AKAP-4
22
2399
TTAAAAAAGVSSTKSKKGAK
MAGE-B2





[398, 417]



[67, 86]





 8
1007
RYKSYSPYDMLESIRKEVKG
ANXA2
22
2400
GRSRSALKKPQRALSTTTSV
MAGE-B3





[231, 250]



[56, 75]





 8
1008
PSRQTAIIVNPPPPEYINTK
BRDT
22
2401
EEERAGARPAVAARAGTTAM
MAGE-B4





[4, 23]



[311, 330]





 8
1009
EVPAQLLDAEGAIKIGSEKS
CABYR
22
2402
FPSSTSSSLSQSSPVSSFPS
MAGE-C1





[397, 416]



[817, 836]





 8
1010
ADQRLAISHSQIAHLEERNK
CAGE1
22
2403
VVPMPSWLIRTRESVTDDPQ
MORC1





[715, 734]



[143, 162]





 8
1011
TQYDLSEFENIGAIGLELWQ
CALR3
22
2404
QDVKGYSFIKDLQWIQVSDS
MPHOSPH1





[287, 306]



[304, 323]





 8
1012
VEWMSIFKPSKMQRIVALKS
CCDC62
22
2405
AAPITEIVSQPERLLFVIDS
NLRP4





[532, 551]



[213, 232]





 8
1013
EKTKRLNELKLSVVSLKEIQ
CDCA1
22
2406
NKLKPGQMEMLKLTMNKRYN
NXF2





[218, 237]



[207, 226]





 8
1014
ALLARKQGAGDSLIAGSAMS
CT45
22
2407
ASLTPLLLSITKRSEQIVEF
NY-BR-1





[34, 53]



[115, 134]





 8
1015
ESPDLSISHSQVEQLVNKTS
CT46
22
2408
NNYAHLTNSSINKSGASYEK
NYD-TSPG





[306, 325]



[292, 311]





 8
1016
LKEFEKTIHFYQKKIILHEK
CTAGE2
22
2409
LKRLAEADSEKARLLLLLQD
ODF2





[408, 427]



[294, 313]





 8
1017
TLEGERNQIYIQLSEVDKTK
cTAGE5
22
2410
LVQQEQHLKEQQRQLREQLQ
PASD1





[328, 347]



[482, 501]





 8
1018
TLQTVHFTSEAVELQDMSLL
CTCFL
22
2411
SNSIKANPNAPVVRAGWLYK
PEPP2





[81, 100]



[159, 178]





 8
1019
LVYDGVADIRKAVLMIRTPE
CTNNA2
22
2412
MEARRLASALLFQHEDLIGK
PIWIL1





[615, 634]



[140, 159]





 8
1020
QQGLPQGDTQLTTVQGVVTS
CXorf48
22
2413
TIGQPTRLRSVAQKILLQIN
PIWIL2





[26, 45]



[703, 722]





 8
1021
TDNNLAVYDLSRDILNNFPH
CXorf61
22
2414
VGQSIHQEPNRSLSTRLFYL
PIWIL3





[53, 72]



[863, 882]





 8
1022
VPPPRFAPAYARPFAPAPAQ
DBPC
22
2415
GLTDQATSDFQLMKAVAEKT
PIWIL4





[272, 291]



[384, 403]





 8
1023
ERGSGIRSVSFYEHIITVGT
DCAF12
22
2416
NSHQDFWTVWSGNRASLYSF
PRAME





[338, 357]



[127, 146]





 8
1024
PRMEEKEALVPIQKATDSFH
DKKL1
22
2417
SDIVPPFSAFSPQGMPEGDL
PSMA





[141, 160]



[155, 174]





 8
1025
ASEGRMVIQDIPAVTSRGHV
DMRT1
22
2418
LMKEVRAFGQNYERIFILLE
SAGE1





[178, 197]



[831, 850]





 8
1026
KIEVYLRLHRHAYPEQRQDM
DPPA2
22
2419
FIQATDYVEIWQAYLDYLRR
SART3





[115, 134]



[411, 430]





 8
1027
TVNGEQLDLDPGQTLIYYVD
EpCAM
22
2420
LSRVYSKLYKEAEKIKKWKV
SCP-1





[234, 253]



[102, 121]





 8
1028
DLEPHMNYTFTVEARNGVSG
EPHA2
22
2421
ESTSAHIIEETEYVKKIRTT
se57-1





[401, 420]



[24, 43]





 8
1029
AKLTKESYPVVVAESMYGDF
FAM46D
22
2422
TQVKDEAAAQPLNLSSRPKT
SOX-6





[192, 211]



[414, 433]





 8
1030
LQEYAGNFQGIRFHYDRNPG
FATE1
22
2423
EDYKEKTVIDKSHLSKIETR
SPAG1





[98, 117]



[175, 194]





 8
1031
QILDSLSYMRNENVISELNI
PBX039
22
2424
QRHTEMIHNYMEHLERTKLH
SPAG9





[181, 200]



[161, 180]





 8
1032
ESLKMRVSKPFGMLMLSIWI
FMR1NB
22
2425
MIYKLVQSNTYATKRDIYYT
SPO11





[59, 78]



[120, 139]





 8
1033
ILKQKSIIKLSSERKKEDIE
FSIP1
22
2426
EYLERQLQAEFIESGQYRAN
TAF7L





[416, 435]



[365, 384]





 8
1034
HEQVKTIKELGGYVSNLRKI
FTHL17
22
2427
QNRVEVLAGDLRFSKLSLED
TAG-1





[140, 159]



[370, 389]





 8
1035
DENGYTALTWAARQGHKNIV
GASZ
22
2428
MFSDLRSLQLKKTMEIKGTV
TDRD1





[179, 198]



[251, 270]





 8
1036
KLESSHSRGSMTALGGASSS
GATA-3
22
2429
ERRSQFPVLHMEVIVHLLLQ
TEX14





[195, 214]



[340, 359]





 8
1037
YYPEDLFIDKKVLKVAHVEH
Glypican-
22
2430
ELDHLALEWQITPSFESLSQ
TEX15





3



[320, 339]





[361, 380]









 8
1038
SYTWDFGDSSGTLISRALVV
gp100
22
2431
RLLRLIILLRIFHLFHQKRQ
TPTE





[257, 276]



[195, 214]





 8
1039
KALENFKTGKVRILIATDLA
HAGE
22
2432
LAENKMAIQSRDVAQFRNVV
TSGA10





[528, 547]



[601, 620]





 8
1040
QRLFENLRMLPHAPGVQMQA
HDAC1
22
2433
RNTLEGFASPLTGIADASQS
TYR





[364, 383];



[341, 360]





HDAC2









[365, 384]









 8
1041
YGLYKKMIVFKPYQASQHDM
HDAC3
23
2434
LAQLPSLRHLDLSNNSLVSL
5T4





[39, 58]



[230, 249]





 8
1042
NHHSERSRNHLERSLSQSDR
HOM-TES-85
23
2435
VIEGKPYTVNLMQKNFLPHN
ADAM2





[156, 175]



[50, 69]





 8
1043
RKPRPPHTHSYTISHATLER
IGFS11
23
2436
YLQNAFLVAYTKKAPQLTSS
AFP





[394, 413]



[426, 445]





 8
1044
TNGSEVQSSWAETTYWISPQ
IL13RA2
23
2437
ERPLASSPPRLYEDDETPGA
AKAP-3





[114, 133]



[630, 649]





 8
1045
GEARLREMEALQSLRLANEG
JARID1B
23
2438
LIMAKYSNDGAALAELEEQA
AKAP-4





[1146, 1165]



[709, 728]





 8
1046
QVNTDSETAVVNVTYSSKDQ
KOC1
23
2439
DTTTPATSAVKASSEFSPTF
BRDT





[112, 131]



[216, 235]





 8
1047
THEDKIVRRNATMIFGILAS
KU-CT-1
23
2440
KFHWVEAFDDEMTEKPEFQS
CAGE1





[77, 96]



[126, 145]





 8
1048
VLKDFTVSGNLLFMSVRDQD
Lage-1
23
2441
STIEKQRKELQLLIGELKDR
CCDC62





[122, 141]



[21, 40]





 8
1049
GETRLALVQRNVAIMKSIIP
LDHC
23
2442
SNSGRLSGPAELRSFNMPSL
cTAGE5





[103, 122]



[629, 648]





 8
1050
LDGAQDSDDSEELNIILQGN
LEMD1
23
2443
ATIIARKSDLRVHMRNLHAY
CTCFL





[58, 77]



[434, 453]





 8
1051
DGSFSFKLLNQLGMIEEPRL
LIPI
23
2444
FIDASRLVYDGVRDIRKAVL
CTNNA2





[373, 392]



[609, 628]





 8
1052
APEEEIWEELSVMEVYDGRE
MAGE-A1
23
2445
YGSEWSVYAVGSQAHVSFLD
DCAF12





[209, 228]



[304, 323]





 8
1053
DPARYEFLWGPRAHAEIRKM
MAGE-A10
23
2446
IEKVVQMTNDDIKRIGVRLP
EPHA2





[290, 309]



[933, 952]





 8
1054
REDSGDFGLQVSTMFSEDDF
MAGE-A11
23
2447
MYSAELWRYRTITFSGRPSR
FBXO39





[23, 42]



[50, 69]





 8
1055
EEQETASSSSTLVEVTLREV
MAGE-A12
23
2448
DVERNESLIKSGKKPFSNTE
FSIP1





[34, 53]



[223, 242]





 8
1056
EEQQTASSSSTLVEVTLGEV
MAGE-A2
23
2449
FTKNGITSKDQQKILAALKE
GASZ





[34, 53]



[313, 332]





 8
1057
SEFQAALSRKVAELVHFLLL
MAGE-A3
23
2450
LGSDINVDDMVNELFDSLFP
Glypican-





[103, 122]



3









[157, 176]





 8
1058
DGREHTVYGEPRKLLTQDWV
MAGE-A4
23
2451
ANASFSIALNFPGSQKVLPD
gp100





[233, 252]



[80, 99]





 8
1059
GSDPVRYEFLWGPRALAETS
MAGE-A8
23
2452
QKPTPIQSQAWPIVLQGIDL
HAGE





[266, 285]



[263, 282]





 8
1060
ETSYEKVINYLVMLNAREPI
MAGE-A9
23
2453
VPTELVEKEFWRLVSTIEED
JARID1B





[279, 298]



[401, 420]





 8
1061
PRAYAETTKMKVLEFLAKMN
MAGE-B1
23
2454
IDVHRKENAGAAEKSITILS
KOC1





[274, 293]



[229, 248]





 8
1062
KASEGLSVVFGLELNKVNPN
MAGE-B2
23
2455
EENKTTLLELGAVEPLTKLL
KU-CT-1





[155, 174]



[57, 76]





 8
1063
FWAKVNKTVPSAFQFWYEEA
MAGE-B3
23
2456
GLDPAGPRFSRKPPYSRLDY
LIPI





[291, 310]



[202, 221]





 8
1064
DTTPNNFPLLYEEALRDEEE
MAGE-B4
23
2457
FSQGLSSTVQSRTDPLIMKT
MAGE-B3





[294, 313]



[96, 115]





 8
1065
PHLYEDALIDEVERALRLRA
MAGE-B6
23
2458
VLRDTASSSLAFGIPQEPQR
MAGE-B4





[388, 407]



[45, 64]





 8
1066
IESEPLFTYTLDEKVDELAR
MAGE-C1
23
2459
RELLTKVWVQEHYLEYREVP
MAGE-C1





[898, 917]



[1041, 1060]





 8
1067
KKKVLEFLAKLNNTVPSSFP
MAGE-C2
23
2460
KISEDKLKNLRIKLALLLQK
MORC1





[311, 330]



[911, 930]





 8
1068
EKQRELKTARTLSLFYGVNV
MORC1
23
2461
KMKESDHQIIKRRLRTKTAK
MPHOSPH1





[341, 360]



[1801, 1820]





 8
1069
KKIIETMSSSKLSNVEASKE
MPHOSPH1
23
2462
QSTTSVYSSFVFNLFTPEGA
NLRP4





[1749, 1768]



[366, 385]





 8
1070
AASRYNLTISDVSVSDVPFP
MUC-1
23
2463
NVSQQALDLQNLRFDPDLMG
NXF2 





[1128, 1147]



[226, 245]





 8
1071
EAFSRASLVSVYNSYPYYPY
NKX3.1
23
2464
NVDVSSTIYNNEVLHQPLSE
NY-BR-1





[203, 222]



[1180, 1199]





 8
1072
KFKEHLKQMTLQLELKQIPW
NLRP4
23
2465
FELFGFDILIDDNLKPWLLE
NYD-TSPG





[25, 44]



[367, 386]





 8
1073
LLSSTWQELILLSSLTVYSK
NR6A1
23
2466
EKAQAKTASELSKSMESMRG
ODF2 





[319, 338]



[328, 347]





 8
1074
SETLKHLVLQFLQQYYSIYD
NXF2
23
2467
VAFNQQQLVQQEQHLKEQQR
PASD1





[385, 404]



[475, 494]





 8
1075
AQRKSKSLKINLNYAGDALR
NY-BR-1
23
2468
RSMRDDTMWQLYEWQQRQFY
PEPP2





[1200, 1219]



[493, 512]





 8
1076
LVKRKLVHDIIDLIYLNGLR
NYD-TSPG
23
2469
ADGSEVSFLEYYRKQYNQEI
PIWIL1





[402, 421]



[335, 354]





 8
1077
SMQNYVQFLKSSYANVFGDG
ODF2
23
2470
RGPAQRESVGLVSMFRGLGI
PIWIL2 





[792, 811]



[61, 80]





 8
1078
SISARTKAFRVDSTPGPAAY
ODF3
23
2471
RNEWYDFFIVSQSVQDGTVT
PIWIL3





[123, 142]



[792, 811]





 8
1079
DLSRSLFYQRWPVDVSNRIH
ODF4
23
2472
NPAAFVRAIQQYVDPDVQLV
PIWIL4





[106, 125]



[528, 547]





 8
1080
SMEWDTQVVKGSSPLGPAGL
OIP5
23
2473
SLFFLRGRLDQLLRHVMNPL
PRAME





[36, 55]



[305, 324]





 8
1081
SQGQRGHTSMKAVYVEPAAA
PASD1
23
2474
KLGSGNDFEVFFQRLGIASG
PSMA 





[212, 231]



[514, 533]





 8
1082
MQKLGFGTGVNVYLMKRSPR
PBK
23
2475
YKPDSNEFAVGTKNYSVSAG
SAGE1





[35, 54]



[777, 796]





 8
1083
LHKEKYTLEQALLSASQEIE
PEPP2
23
2476
LQQLEKYKPYEEALLQAEAP
SART3





[659, 678]



[289, 308]





 8
1084
VGQSIHREPNLSLSNRLYYL
PIWIL1
23
2477
TPEIYWKLDSKAVPSQTVSR
SCP-1 





[842, 861]



[803, 822]





 8
1085
HFWALFYPKRAMDQARELVN
PIWIL2
23
2478
VDGKKLRIGEYKQLMRSRRQ
SOX-6 





[604, 623]



[700, 719]





 8
1086
SREIRELPLLNAMPLHSWLI
PIWIL3
23
2479
LPTVVAYNNRAQAEIKLQNW
SPAG1





[493, 512]



[239, 258]





 8
1087
QHKLSLWPGFAISVSYFERK
PIWIL4
23
2480
LMELQEAVRWTEMIRASREN
SPAG9





[237, 256]



[522, 541]





 8
1088
LQALYVDSLFFLRGRLDQLL
PRAME
23
2481
LLPSDLKRLNVPKDSLIPLT
SPO11





[298, 317]



[313, 332]





 8
1089
LTSPSMEIKEVASIILHKDF
PRSS55
23
2482
LATSHMDFSTKSVFSKFAQL
TAG-1





[129, 148]



[208, 227]





 8
1090
KRQIYVAAFTVQAAAETLSE
PSMA
23
2483
YPRIISDVLIDEHLVLKSAS
TDRD1





[729, 748]



[880, 899]





 8
1091
NILMLHEVVFDRKSGSLALI
RAGE-1
23
2484
WNSQEFIQTLSDDFISVRER
TEX14





[62, 81]



[1245, 1264]





 8
1092
SQPTPDNVLSAVTPELINLA
SAGE1
23
2485
LSRKLDKAVVHLKKAHRRVH
TEX15





[402, 421]



[993, 1012]





 8
1093
QVISVTFEKALNAGFIQATD
SART3
23
2486
SVLDNITTDKILIDVFDGLP
TPTE 





[397, 416]



[452, 471]





 8
1094
KDKRDYLWTSAKNTLSTPLP
SCP-1
23
2487
AVQELRRQNYSSNAYHMSST
TSGA10





[833, 852]



[644, 663]





 8
1095
QEEKILNMFRQQQKILQQSR
SCP3a
23
2488
SPLTGIADASQSSMHNALHI
TYR 





[146, 165]



[349, 368]





 8
1096
DRDEAWVLETIGKYWAAEKV
SCRN1
24
2489
RHLDLSNNSLVSLTYVSFRN
5T4 





[161, 180]



[237, 256]





 8
1097
KKIRTTLQKIRTQMFKDEIR
se57-1
24
2490
IEPLESSVGFEHVIYQVKHK
ADAM2





[38, 57]



[127, 146]





 8
1098
DISSGLVAIFIAFYGDRKKV
SLCO6A1
24
2491
FQTKAATVTKELRESSLLNQ
AFP 





[152, 171]



[202, 221]





 8
1099
QEMRQFFTVGQQPQIPITTG
SOX-6
24
2492
DDKSGDASRLTSAFPDSLYE
AKAP-3





[719, 738]



[697, 716]





 8
1100
REILREQPDNIPAFAAAYFE
SP17
24
2493
SDMMVSLMKTLKVHSSGKPI
AKAP-4





[25, 44]



[342, 361]





 8
1101
YLSKAERFKMMLTLISKGQK
SPAG1
24
2494
NYDEKRQLSLNINKLPGDKL
BRDT 





[875, 894]



[511, 530]





 8
1102
AQRKRFTRVEMARVLMERNQ
SPAG9
24
2495
DQLGNEYFRQPPPRSPPLIH
CAGE1





[498, 517]



[176, 195]





 8
1103
EVLEERTRIQFIRWSHTRIF
SPATA19
24
2496
QTALQKTQLQLQEMAQKATH
CCDC62





[106, 125]



[104, 123]





 8
1104
SSDYLSRVYLPNKLKFGGWI
SPO11
24
2497
KSLKSQVAEAKMTFKIFQMN
cTAGE5





[377, 396]



[181, 200]





 8
1105
SYVYMKRNYKAMTKLGFKVT
SSX-1
24
2498
KKGRSKKAHVLAASVEQATQ
CTNNA2





[47, 66]



[50, 69]





 8
1106
WEKMKASEKIFYVYMKRKYE
SSX-2
24
2499
SRERGSGIRSVSFYEHIITV
DCAF12





[37, 56]



[336, 355]





 8
1107
FGRLQGIFPKIMPKKPAEEG
SSX-3
24
2500
LVLAGVGFFIHRRRKNQRAR
EPHA2





[101, 120]



[549, 568]





 8
1108
EVMTKLGFKVTLPPFMRSKR
SSX-4
24
2501
KLARQATNLKVNFFFERIMK
FBXO39





[56, 75]



[275, 294]





 8
1109
RGKHAWTHRVRERKQLVIYE
SSX-5
24
2502
LSAASPTISSFSPRLENRNN
FSIP1





[159, 178]



[330, 349]





 8
1110
KERISALNLQIEEEKNKQRQ
SYCE1
24
2503
KFKKAMTIGDVSLVQELLDS
GASZ





[134, 153]



[49, 68]





 8
1111
KQKNEKLISLQEQLQRFLKK
TAF7L
24
2504
HQVRSFFQRLQPGLKWVPET
Glypican-





[443, 462]



3









[36, 55]





 8
1112
QALAPDFRLNPVRRLIPAAR
TAG-1
24
2505
PSGSWSQKRSFVYVWKTWGQ
gp100





[413, 432]



[139, 158]





 8
1113
SEDDQWYRASVLAYASEESV
TDRD1
24
2506
STDKVIVFVSRKAVADHLSS
HAGE





[553, 572]



[486, 505]





 8
1114
IMLLERSIMAKEGPLKVAQT
TEKT5
24
2507
DMRRLIDLGVGLAPYSAVEK
JARID1B





[374, 393]



[937, 956]





 8
1115
KDRTMNLQDIRYILKNDLKD
TEX14
24
2508
AIIGKQGQHIKQLSRFAGAS
KOC1





[497, 516]



[419, 438]





 8
1116
ALKSRISWEGLLALDNGEME
TEX15
24
2509
ILETKELNDLHIEALAVIAN
KU-CT-1





[712, 731]



[240, 259]





 8
1117
KPKPHVSDHNRLLHLARPKA
THEG
24
2510
AEPLFEQNNSLNVNFNTQKK
LIPI





[289, 308]



[77, 96]





 8
1118
DSKLYIPLEYRSISLAIALF
TPTE
24
2511
DLVKLKYLEYRQVPNSNPAR
MAGE-B3





[117, 136]



[251, 270]





 8
1119
DDERMEQMSNMTLMKETIST
TSGA10
24
2512
NMLGIYDGKRHLIFGEPRKL
MAGE-B4





[155, 174]



[225, 244]





 8
1120
RGQRPRTSAPSRAGALLLLL
TSP50
24
2513
PGSPSFSSTLLSLFQSSPER
MAGE-C1





[10, 29]



[376, 395]





 8
1121
ESEQAALGEEAVLLLDDIMA
TSPY1
24
2514
RLSTLKFIGQYGNGLKSGSM
MORC1





[53, 72]



[89, 108]





 8
1122
KSYLEQASRIWSWLLGAAMV
TYR
24
2515
KSSGQMAQKFSFSKVFGPAT
MPHOSPH1





[465, 484]



[104, 123]





 8
1123
LLLRTPYSSDNLYQMTSQLE
WT1
24
2516
KQKFSRLWSSKSVTEIHLYF
NLRP4





[215, 234]



[104, 123]





 8
1124
KIESQRIISGRISGYISEAS
ZNF165
24
2517
NEWNYTRAGQAFTMLQTEGK
NXF2





[201, 220]



[597, 616]





 9
1125
AYPEKMANRVLLELNSADLD
5T4
24
2518
KEILEAEIESHHPRLASAVQ
NY-BR-1





[324, 343]



[1132, 1151]





 9
1126
DENSYWRNQNPGSLLQLPHT
ACRBP
24
2519
LMAEDEPSGALLKPLVFRVD
NYD-TSPG





[303, 322]



[73, 92]





 9
1127
HPDTFSYPIERGRILNWEGV
ACTL8
24
2520
DEMNKEIEAARRQFQSQLAD
ODF2





[59, 78]



[576, 595]





 9
1128
DVAFLLVYREKSNYVGATFQ
ADAM2
24
2521
DSVDLGAAGASAQPLQPSSP
PASD1





[264, 283]



[345, 364]





 9
1129
LFGLEIWTNKNLIVVDDVRK
ADAM29
24
2522
RRGWLYKQDSTGMKLWKKRW
PEPP2





[245, 264]



[172, 191]





 9
1130
QLAVSVILRVAKGYQELLEK
AFP
24
2523
WYDFFIVSQAVRSGSVSPTH
PIWIL1





[364, 383]



[774, 793]





 9
1131
LMTDTQFVSAVKRTVFSHGS
AKAP-3
24
2524
LLPELSFMTGIPEKMKKDFR
PIWIL2





[348, 367]



[493, 512]





 9
1132
KEFADSISKGLMVYANQVAS
AKAP-4
24
2525
ALLDHEAKKMSTYLKTISPN
PIWIL3





[323, 342]



[733, 752]





 9
1133
EVDMLKIRSEFKRKYGKSLY
ANXA2
24
2526
VAESSSNTSSRLSVIVVRKK
PIWIL4





[297, 316]



[715, 734]





 9
1134
DEIEIDFETLKASTLRELEK
BRDT
24
2527
LAKFSPYLGQMINLRRLLLS
PRAME





[550, 569]



[249, 268]





 9
1135
EYSDKTTQFPSVYAVPGTEQ
CABYR
24
2528
NDQLMFLERAFIDPLGLPDR
PSMA





[114, 133]



[665, 684]





 9
1136
KNKSVSQYLEMDKTLSKKEE
CAGE1
24
2529
MPAMSTRDQHATIIHNLREE
SAGE1





[431, 450]



[378, 397]





 9
1137
NIGAIGLELWQVRSGTIFDN
CALR3
24
2530
EEDEVKAARTRRKVLSRAVA
SART3





[296, 315]



[25, 44]





 9
1138
LHNLRQIYVKQQSDLQFLNF
CCDC62
24
2531
RVQAENSRLEMHFKLKEDYE
SCP-1





[282, 301]



[229, 248]





 9
1139
KNDLYPNPKPEVLHMIYMRA
CDCA1
24
2532
QQPHGVDGKLSSINNMGLNS
SOX-6





[33, 52]



[517, 536]





 9
1140
MMQKPGSNAPVGGNVTSSFS
CT45
24
2533
GTTKTFKIPIEHLDFKYIEK
SPAG1





[84, 103]



[13, 32]





 9
1141
ISTEHQSLVLVKRLLAVSVS
CT46
24
2534
EQKREQYRQVKAHVQKEDGR
SPAG9





[20, 39]



[623, 642]





 9
1142
PPWEQDYRNMFPPPGQSYPD
CTAGE2
24
2535
ARNEAPAFTIDNRSSWENIK
SPO11





[566, 585]



[63, 82]





 9
1143
SVRSRLYVGREKKLALMLSG
cTAGE5
24
2536
EPVQQDMNGILLGYEIRYWK
TAG-1





[65, 84]



[834, 853]





 9
1144
DSKLAVSLAETTGLIKLEEE
CTCFL
24
2537
LQKQVEKHEHILLFLLNNST
TDRD1





[166, 185]



[1147, 1166]





 9
1145
NAVVLTVKASYVASTKYQKV
CTNNA2
24
2538
LEAQLHEYVKQGNYVKVKKI
TEX14





[874, 893]



[23, 42]





 9
1146
FIWRAISITPVHKSSSGFQD
CXorf48
24
2539
LVELQMMMETIQFIENKKRH
TEX15





[229, 248]



[1690, 1709]





 9
1147
LEHTLLSKGFRGASPHRKST
CXorf61
24
2540
AARVSPISESVLARLSKFEV
TPTE





[94, 113]



[49, 68]





 9
1148
PQRPRNRPYFQRRRQQAPGP
DBPC
24
2541
EIQGNVKVLKSERDKIFLLY
TSGA10





[316, 335]



[49, 68]





 9
1149
VVDVQTSQITKIPILKDREP
DCAF12
25
2542
FLLVYREKSNYVGATFQGKM
ADAM2





[114, 133]



[267, 286]





 9
1150
LEGGHWLSEKRHRLQAIRDG
DKKL1
25
2543
EKNIFLASFVHEYSRRHPQL
AFP





[184, 203]



[346, 365]





 9
1151
PPSYLGQSVPQFFTFEDAPS
DMRT1
25
2544
FRGQERPDDFTASVSEGIMT
AKAP-3





[296, 315]



[268, 287]





 9
1152
SRKRKAVTKRARLQRSYEMN
DPPA2
25
2545
SQKMDMSNIVLMLIQKLLNE
AKAP-4





[147, 166]



[621, 640]





 9
1153
DSKSLRTALQKEITTRYQLD
EpCAM
25
2546
RRRREAMVGTIDMTLQSDIM
BRDT





[158, 177]



[920, 939]





 9
1154
RARRPKFADIVSILDKLIRA
EPHA2
25
2547
LEKRVKELQMKITKQQVFID
CAGE1





[858, 877]



[333, 352]





 9
1155
SRFFIDFPHIEEQQKKIESY
FAM46D
25
2548
LHDELLFTVEREKRKDELLN
CCDC62





[264, 283]



[250, 269]





 9
1156
LVIAEMMELGSRSRGASQKK
FATE1
25
2549
SENGAYLDNPPKGALKKLIH
cTAGE5





[32, 51]



[299, 318]





 9
1157
EDYFSHHLAVYNSPQFKKTM
FBXO39
25
2550
LANRFKEFGKEMVKLNYVAA
CTNNA2





[201, 220]



[172, 191]





 9
1158
EMENTKKFLSLTAVSEETVG
FSIP1
25
2551
NKNKELGAVSLDGYFHLWKA
DCAF12





[168, 187]



[262, 281]





 9
1159
DKMEHAQKLMRLQNLRGGHI
FTHL17
25
2552
EKDGEFSVLQLVGMLRGIAA
EPHA2





[62, 81]



[706, 725]





 9
1160
GHLITAVQNVITELPVNSQK
GASZ
25
2553
ALRVFKARIYTNRYETNEED
FBXO39





[368, 387]



[395, 414]





 9
1161
QGNHVPPYYGNSVRATVQRY
GATA-3
25
2554
KELDSQLQDAIQKMKKLDKI
FSIP1





[56, 75]



[109, 128]





 9
1162
KMEEKYQLTARLNMEQLLQS
Glypican-
25
2555
QLLQSASMELKFLIIQNAAV
Glypican-





3



3





[76, 95]



[91, 110]





 9
1163
MEVTVYHAAGSRSYVPLAHS
gp100
25
2556
LADTNSLAVVSTQLIMPGQE
gp100





[184, 203]



[571, 590]





 9
1164
LMPGFIHLVLQPSLKGQRNR
HAGE
25
2557
PSLKGQRNRPGMLVLTPTRE
HAGE





[297, 316]



[308, 327]





 9
1165
PYNDYFEYFGPDFKLHISPS
HDAC1
25
2558
LTESKETASAMATLGEARLR
JARID1B





[329, 348];



[1132, 1151]





HDAC2









[330, 349]









 9
1166
SPTNMQGFTKSLNAFNVGDD
HDAC3
25
2559
RIRKLQIRNIPPHLQWEVLD
KOC1





[74, 93]



[79, 98]





 9
1167
EVSESPGSIQVARGQPAVLP
IGFS11
25
2560
DLRAVLLINSKSYVSPPSSM
KU-CT-1





[24, 43]



[597, 616]





 9
1168
TVEYELKYRNIGSETWKTII
IL13RA2
25
2561
KNLLKHGASLDNFHFIGVSL
LIPI





[66, 85]



[162, 181]





 9
1169
FKSDYFNMPVHMVPTELVEK
JARID1B
25
2562
ALSTTTSVDVSYKKSYKGAN
MAGE-B3





[389, 408]



[68, 87]





 9
1170
QFEQSETETVHLFIPALSVG
KOC1
25
2563
VAARRGTTAMTSAYSRATSS
MAGE-B4





[399, 418]



[321, 340]





 9
1171
AAYNKLLNNNLSLKYSQTGY
KU-CT-1
25
2564
DVQSPLQNPASSFFSSALLS
MAGE-C1





[542, 561]



[123, 142]





 9
1172
ITMPFSSPMEAELVRRILSR
Lage-1
25
2565
EVKKAEEAVKIAESILKEAQ
MORC1





[92, 111]



[288, 307]





 9
1173
WKNIHKQVIQSAYEIIKLKG
LDHC
25
2566
YLAYDETLNVLKFSAIAQKV
MPHOSPH1





[227, 246]



[460, 479]





 9
1174
AARAPSTRITYGTITKERDY
LEMD1
25
2567
GLRKTDFDEETQALLTAEEE
NLRP4





[118, 137]



[956, 975]





 9
1175
NFNTQKKTVWLIHGYRPVGS
LIPI
25
2568
SLSALPKTQHDLSSILVDVW
NXF2





[90, 109]



[470, 489]





 9
1176
SDPARYEFLWGPRALAETSY
MAGE-A1
25
2569
VPNKAFELKNEQTLRADPMF
NY-BR-1





[257, 276]



[477, 496]





 9
1177
GSDPRSFPLWYEEALKDEEE
MAGE-A10
25
2570
DETTPAVVQSVLLERGWNKF
NYD-TSPG





[320, 339]



[92, 111]





 9
1178
LLTQNWVQEKYLVYRQVPGT
MAGE-A11
25
2571
TVTKSHKRGMKGDTVNVRRS
ODF2





[358, 377]



[39, 58]





 9
1179
AREPFTKAEMLGSVIRNFQD
MAGE-A12
25
2572
GASAQPLQPSSPVAYDIISQ
PASD1





[126, 145]



[353, 372]





 9
1180
APEEKIWEELSMLEVFEGRE
MAGE-A2
25
2573
YTLEQALLSASQEIEMHADN
PEPP2





[216, 235]



[664, 683]





 9
1181
KASSSLQLVFGIELMEVDPI
MAGE-A3
25
2574
KSQGLQISAGFQELSLAERG
PIWIL1





[153, 172]



[61, 80]





 9
1182
PRALAETSYVKVLEHVVRVN
MAGE-A4
25
2575
NFYDPTSAMVLQQHRLQIWP
PIWIL2





[276, 295];



[342, 361]





MAGE-A8









[278, 297]









 9
1183
RKVAKLVHFLLLKYRAREPV
MAGE-A6
25
2576
NKLIGSIVLTKYNNKTYRVD
PIWIL3





[111, 130]



[316, 335]





 9
1184
VAELVRFLLRKYQIKEPVTK
MAGE-A8
25
2577
ILPSNQKTYYDSIKKYLSSD
PIWIL4





[116, 135]



[550, 569]





 9
1185
NYKRYFPVIFGKASEFMQVI
MAGE-A9
25
2578
DELFSYLIEKVKRKKNVLRL
PRAME





[141, 160]



[189, 208]





 9
1186
DHFTEILNGASRRLELVFGL
MAGE-B1
25
2579
YDVLLSYPNKTHPNYISIIN
PSMA





[144, 163]



[113, 132]





 9
1187
TKGEMLKIVGKRFREHFPEI
MAGE-B2
25
2580
AFINMAATGVSSMSTRDQYA
SAGE1





[133, 152]



[604, 623]





 9
1188
ILKKASFNMEVVFGVDLKKV
MAGE-B3
25
2581
YVEFKEEKSALQALEMDRKS
SART3





[152, 171]



[750, 769]





 9
1189
EPTTKAEMLKIISKKYKEHF
MAGE-B4
25
2582
SEEETLKTLYRNNNPPASHL
SCP-1





[128, 147]



[905, 924]





 9
1190
EYKPYFPQILNRTSQHLVVA
MAGE-B6
25
2583
KQIEQLYAAQLASMQVSPGA
SOX-6





[228, 247]



[364, 383]





 9
1191
PVSSSFSYTLLSLFQSSPER
MAGE-C1
25
2584
RKDKPAATAASFTAEEWEKI
SPAG1





[446, 465]



[76, 95]





 9
1192
EEPVTEAEMLMIVIKYKDYF
MAGE-C2
25
2585
ESLFEELSSAGSGLIGDVDE
SPAG9





[159, 178]



[380, 399]





 9
1193
RAQLRLDFIHANSTTHSFLF
MORC1
25
2586
IPLTKRDQMKLDSILRRPYV
SPO11





[10, 29]



[329, 348]





 9
1194
EENIGILPRTLNVLFDSLQE
MPHOSPH1
25
2587
SPPATYRWKMNGTEMKLEPG
TAG-1





[166, 185]



[66, 85]





 9
1195
TDYYQELQRDISEMFLQIYK
MUC-1
25
2588
RPAKSKKLNKLVENSLSISN
TDRD1





[1063, 1082]



[135, 154]





 9
1196
HQKYLSAPERAHLAKNLKLT
NKX3.1
25
2589
QLYNWAAPEVILQKAATVKS
TEX14





[145, 164]



[418, 437]





 9
1197
SFFSDFGLMWYLEELKKEEF
NLRP4
25
2590
ELQTYHDQLVELLEETKREK
TEX15





[4, 23]



[1758, 1777]





 9
1198
SDEGMEVIERLIYLYHKFHQ
NR6A1
25
2591
FHNRVVRIMIDDHNVPTLHQ
TPTE





[362, 381]



[295, 314]





 9
1199
PSLSQEQQEMVQAFSAQSGM
NXF2
25
2592
KQKVQDTNLEVNKLKNILKS
TSGA10





[566, 585]



[386, 405]





 9
1200
QLKVLIAENTMLTSKLKEKQ
NY-BR-1
26
2593
RVSGSSQSPPNLKYKSTLKI
AKAP-3





[1111, 1130]



[201, 220]





 9
1201
STQSQALGSLRTTTPAFTLN
NYD-TSPG
26
2594
DEAVGKVARKQLLDWLLANL
AKAP-4





[9, 28]



[835, 854]





 9
1202
KNYEGMIDNYKSQVMKTRLE
ODF2
26
2595
LQLPDYYTIIKNPMDLNTIK
BRDT





[537, 556]



[61, 80]





 9
1203
TKYVFDSAPSHSISARTKAF
ODF3
26
2596
NVEELIEDKYKIILEKNDTK
CAGE1





[112, 131]



[360, 379]





 9
1204
STLMLFPINIWIFELERNVS
ODF4
26
2597
DAPAFNEKASIVLPSQDDFS
CCDC62





[157, 176]



[610, 629]





 9
1205
DQASFTTSMEWDTQVVKGSS
OIP5
26
2598
RANRDYVFKQVQEAIAGISN
CTNNA2





[29, 48]



[237, 256]





 9
1206
TSNSEAISSSSIPQFPITSD
PASD1
26
2599
WVYRGEAERIFIELKFTVRD
EPHA2





[658, 677]



[85, 104]





 9
1207
NDHYRSVYQKRLMDEAKILK
PBK
26
2600
QRREKEIKKQGLEMRIKLWE
FSIP1





[71, 90]



[133, 152]





 9
1208
RSVPAGLTLQSVSPQSLQGK
PEPP2
26
2601
ELKFLIIQNAAVFQEAFEIV
Glypican-





[595, 614]



3









[99, 118]





 9
1209
LQFYNIIFRRLLKIMNLQQI
PIWIL1
26
2602
EKVPVSEVMGTTLAEMSTPE
gp100





[209, 228]



[377, 396]





 9
1210
RTDGGLFLLADVSHKVIRND
PIWIL2
26
2603
GRTGRAGRTGVSITTLTRND
HAGE





[369, 388]



[576, 595]





 9
1211
KKMSTYLKTISPNNFTLAFI
PIWIL3
26
2604
NLNNMPVMEQSVLAHITADI
JARID1B





[740, 759]



[460, 479]





 9
1212
VAGSMGFNVDYPKIIKVQEN
PIWIL4
26
2605
VNTDSETAVVNVTYSSKDQA
KOC1





[509, 528]



[113, 132]





 9
1213
SISISALQSLLQHLIGLSNL
PRAME
26
2606
KIPKEKLPDFSWELHISELK
KU-CT-1





[417, 436]



[758, 777]





 9
1214
LYSEELFPEELSVVLGTNDL
PRSS55
26
2607
ERMEGRPLRTTVFLDTSGTY
LIPI





[110, 129]



[334, 353]





 9
1215
RPFYRHVIYAPSSHNKYAGE
P5MA
26
2608
RAGREHFAFGEPRELLTKVW
MAGE-C1





[684, 703]



[1029, 1048]





 9
1216
VYSKQPYTEYISTRWYRAPE
RAGE-1
26
2609
PLNSFQYQRAQAMGIPFIIQ
MORC1





[152, 171]



[466, 485]





 9
1217
NVLSGLINMAGASIPAMSSR
SAGE1
26
2610
VSLDSNSNSKILNVKRATIS
MPHOSPH1





[459, 478]



[502, 521]





 9
1218
RTRRKVLSRAVAAATYKTMG
SART3
26
2611
FVKQAVNLLQEANFHIIDNV
NLRP4





[33, 52]



[565, 584]





 9
1219
GAIRKMREDRWAVIAKMDRK
SCP-1
26
2612
VEMRDVHKDQQLRHTPYSIR
NXF2





[946, 965]



[65, 84]





 9
1220
LQKKIMMETQQQEIASVRKS
SCP3a
26
2613
ELEVKQQLEQALRIQDIELK
NY-BR-1





[211, 230]



[1006, 1025]





 9
1221
EIEALLGMDLVALGLERGET
SCRN1
26
2614
STDVLVKRKLVHDIIDLIYL
NYD-TSPG





[103, 122]



[398, 417]





 9
1222
EKEKRTLLERKLSLENKLLQ
se57-1
26
2615
QLADLQQLPDILKITEAKLA
ODF2





[199, 218]



[592, 611]





 9
1223
PGSTRIKARKRKQLHFFDSR
SLCO6A1
26
2616
VAENISSLLGHLPAEIVGKK
PASD1





[340, 359]



[57, 76]





 9
1224
EGSDQHVASHLPLHPIMHNK
SOX-6
26
2617
TLRKTKKMMDLRTERPRSAV
PEPP2





[31, 50]



[868, 887]





 9
1225
GKYSAAIALLEPAGSEIADD
SPAG1
26
2618
NEYMPSRIIVYRDGVGDGQL
PIWIL1





[466, 485]



[690, 709]





 9
1226
KTRDGGSVVGASVFYKDVAG
SPAG9
26
2619
RTLGRGSSDASLLPLGRAAG
PIWIL2





[699, 718]



[142, 161]





 9
1227
QDIHVTADVVKAHLSKSDLL
SPATA19
26
2620
ERRIGGVFQDLVVNTRQDMK
PIWIL3





[81, 100]



[92, 111]





 9
1228
ADSKMKAEIQALTFLSSDYL
SPO11
26
2621
QLYQYHVTYIPDLASRRLRI
PIWIL4





[362, 381]



[122, 141]





 9
1229
AFDDIATYFSKKEWKKMKYS
SSX-1
26
2622
SRYISMSVWTSPRRLVELAG
PRAME





[24, 43]



[12, 31]





 9
1230
PNRGNQVERPQMTFGRLQGI
SSX-2
26
2623
LQDFDKSNPIVLRMMNDQLM
PSMA





[88, 107]



[650, 669]





 9
1231
AQIPEKIQKAFDDIAKYFSK
SSX-3
26
2624
GIPSMSTKDLYATVTQNVHE
SAGE1





[15, 34]



[518, 537]





 9
1232
WEKMKSSEKIVYVYMKLNYE
SSX-4
26
2625
NEQRMKAAEKEAALVQQEEE
SART3





[37, 56]



[577, 596]





 9
1233
NGDDAFVRRPRVGSQIPEKM
SSX-5
26
2626
KMKDLTFLLEESRDKVNQLE
SCP-1





[2, 21]



[281, 300]





 9
1234
KIEDLMEMVQKLQKVGSLEP
SYCE1
26
2627
SLYSFRNTSTSPHKPDEGSR
SOX-6





[32, 51]



[88, 107]





 9
1235
KDKLKIDLLPDGRHAVVEVE
TAF7L
26
2628
RSGQFAEAAGKYSAAIALLE
SPAG1





[126, 145]



[457, 476]





 9
1236
TDGRHFVSQTTGNLYIARTN
TAG-1
26
2629
LMPLVVAVLENLDSVFAQDQ
SPAG9





[179, 198]



[50, 69]





 9
1237
TADELRMISSTFLNLPFQGI
TDRD1
26
2630
SSSEVLASIENIIQDIITSL
SPO11





[807, 826]



[43, 62]





 9
1238
LQVRGAEASRLWASRLTDDS
TEKT5
26
2631
FAFGNPVPRIKWRKVDGSLS
TAG-1





[100, 119]



[262, 281]





 9
1239
LVYERITIGTLFSVLHERAS
TEX14
26
2632
NSGKLLDHVLIEMGYGLKPS
TDRD1





[324, 343]



[431, 450]





 9
1240
KQRFRGMLWFDLSLLPELVQ
TEX15
26
2633
KAVVSGNYLEADVRLPKPYY
TEX14





[2085, 2104]



[466, 485]





 9
1241
PSTTMTKARKARRARALMEL
THEG
26
2634
NIHTSLAIAQKLMELKLGKI
TEX15





[112, 131]



[351, 370]





 9
1242
MDVLLAVFVERRQQYFSDLF
TPTE
26
2635
IYSIPRYVRDLKIQIEMEKK
TPTE





[139, 158]



[421, 440]





 9
1243
DKKSENIASLGESLAMKEKT
TSGA10
26
2636
RMEQMSNMTLMKETISTVEK
TSGA10





[278, 297]



[158, 177]





 9
1244
IDQMTQTASDVPVLQVIMHS
TSP50
27
2637
KDTTIATILLKKVLLKHAKE
AKAP-3





[171, 190]



[309, 328]





 9
1245
TPESAPEELLAVQVELEPVN
TSPY1
27
2638
MMAYSDTTMMSDDIDWLRSH
AKAP-4





[104, 123]



[1, 20]





 9
1246
FLLHHAFVDSIFEQWLRAHR
TYR
27
2639
GLHNYYDVVKNPMDLGTIKE
BRDT





[386, 405]



[305, 324]





 9
1247
ELVRHHNMHQRNMTKLQLAL
WT1
27
2640
KKTLQNLEEVLANTQKHLQE
CAGE1





[430, 449]



[379, 398]





 9
1248
GRAFSQSSNLSQHQRIHMRE
ZNF165
27
2641
ITLSSIFTKDLVEKHNLPWS
CCDC62





[462, 481]



[393, 412]





10
1249
AFARRPPLAELAALNLSGSA
5T4
27
2642
STKYQKVYGTAAVNSPVVSW
CTNNA2





[110, 129]



[887, 906]





10
1250
LQNETYSALSPGKSEDVVLR
ACRBP
27
2643
VMWEVMTYGERPYWELSNHE
EPHA2





[510, 529]



[806, 825]





10
1251
SNTYQLPDGSRVELTPMQRV
ACTL8
27
2644
EGDQSGWVVPVKGYELAVTQ
FSIP1





[235, 254]



[297, 316]





10
1252
VILAQLLSLSMGITYDDINK
ADAM2
27
2645
VIYTQLMNPGLPDSALDINE
Glypican-





[309, 328]



3









[177, 196]





10
1253
PFGGQKHIIHIKVKKLLFSK
ADAM29
27
2646
PDGQVIWVNNTIINGSQVWG
gp100





[57, 76]



[98, 117]





10
1254
LQTMKQEFLINLVKQKPQIT
AFP
27
2647
PEELVSMAERFKAHQQKREM
HAGE





[545, 564]



[614, 633]





10
1255
YDSDSWAEDLIVSALLLIQY
AKAP-3
27
2648
HVERKILDLFQLNKLVAEEG
JARID1B





[518, 537]



[122, 141]





10
1256
DIMEAMLKRLVSALIGEEKE
AKAP-4
27
2649
PKDVFDPLMIESKKAATVVL
KU-CT-1





[421, 440]



[13, 32]





10
1257
AQRQDIAFAYQRRTKKELAS
ANXA2
27
2650
ATTFIYNRAVKNTRKVAVSL
LIPI





[66, 85]



[138, 157]





10
1258
PNHHQLAFNYQELEHLQTVK
BRDT
27
2651
SVLQIPVSAASSSTLVSIFQ
MAGE-C1





[732, 751]



[161, 180]





10
1259
PAQLAAQMLGKVSSIHSDQS
CABYR
27
2652
GVNVENRSQAGMFIYSNNRL
MORC1





[172, 191]



[357, 376]





10
1260
SDEAKSIRDVPTLLGAKLDK
CAGE1
27
2653
ILQIEDSEMSRVIRVSELSL
MPHOSPH1





[674, 693]



[359, 378]





10
1261
QDWEKHFLDASTSKQSDWNG
CALR3
27
2654
LKKEEFRKFKEHLKQMTLQL
NLRP4





[226, 245]



[18, 37]





10
1262
TSKLQRLLAESRQMVTDLEL
CCDC62
27
2655
LSDITEKAPKVKTLNLSKNK
NXF2





[631, 650]



[288, 307]





10
1263
MIVKKEKLATAQFKINKKHE
CDCA1
27
2656
AFKPAIEMQNSVPNKAFELK
NY-BR-1





[345, 364]



[466, 485]





10
1264
AQLQRTPMSALVFPNKISTE
CT46
27
2657
YNEDDSVVEKAVSVRPEAAP
NYD-TSPG





[4, 23]



[465, 484]





10
1265
VAEAKMTFKRFQANEERLEI
CTAGE2
27
2658
HELAETEHENTVLRHNIERM
ODF2





[157, 176]



[167, 186]





10
1266
MAATEISVLSEQFTKIKELE
CTCFL
27
2659
DKVNPKSSQRKLNWIPSFPT
PASD1





[1, 20]



[10, 29]





10
1267
ADMADVMRLLSHLKIVEEAL
CTNNA2
27
2660
EEETRGVISYQTLPRNMPSH
PEPP2





[141, 160]



[427, 446]





10
1268
VEEDKPHYGLRAIKVDVVPR
CXorf48
27
2661
IDVEVTRPEWYDFFIVSQAV
PIWIL1





[80, 99]



[765, 784]





10
1269
SGLINSNTDNNLAVYDLSRD
CXorf61
27
2662
AFDGSILYLPVKLQQVLELK
PIWIL2





[46, 65]



[273, 292]





10
1270
VPVKGSRYAPNRRKSRRFIP
DBPC
27
2663
GSKITYIDYYRQQHKEIVTV
PIWIL3





[166, 185]



[352, 371]





10
1271
FHLWKAENTLSKLLSTKLPY
DCAF12
27
2664
LKKKRNDNSEAQLAHLIPEL
PIWIL4





[276, 295]



[360, 379]





10
1272
KMTDNKTGEVLISENVVASI
DKKL1
27
2665
PMQDIKMILKMVQLDSIEDL
PRAME





[108, 127]



[219, 238]





10
1273
TYYSSFYQPSLFPYYNNLYN
DMRT1
27
2666
FSTQKVKMHIHSTNEVTRIY
PSMA





[208, 227]



[337, 356]





10
1274
VRTYWIIIELKHKAREKPYD
EpCAM
27
2667
PPEELHAAAYVFTNDGQQMR
SAGE1





[139, 158]



[13, 32]





10
1275
PPQQSRVWKYEVTYRKKGDS
EPHA2
27
2668
RQKMSEIFPLTEELWLEWLH
SART3





[460, 479]



[135, 154]





10
1276
EQQKKIESYLHNHFIGEGMT
FAM46D
27
2669
ESKKKRKMAFEFDINSDSSE
SCP-1





[275, 294]



[877, 896]





10
1277
PNTKAEMEMSLAEELNHGRQ
FATE1
27
2670
SKDWKEKMERLNTSELLGEI
SOX-6





[6, 25]



[158, 177]





10
1278
FERIMKYERLARILLQEIPI
FBXO39
27
2671
HPFSMKPLLRRAMAYETLEQ
SPAG1





[289, 308]



[517, 536]





10
1279
PVKGYELAVTQHQQLAEIDI
FSIP1
27
2672
NEQLITQYEREKALRKHAEE
SPAG9





[306, 325]



[82, 101]





10
1280
EAGLAEYLFDKLTLGGRVKE
FTHL17
27
2673
AVPSNIQGIRNLVTDAKFVL
SPO11





[163, 182]



[202, 221]





10
1281
EKDHIFSSYTAFGDLEVFLH
GASZ
27
2674
STGILSVRDATKITLAPSSA
TAG-1





[265, 284]



[499, 518]





10
1282
SSFNPAALSRHMSSLSHISP
GATA-3
27
2675
KEILPNGHVKVHFVDYGNIE
TDRD1





[390, 409]



[785, 804]





10
1283
ARRDLKVFGNFPKLIMTQVS
Glypican-
27
2676
PPPSQELLDDIELLKQQQGS
TEX14





3



[1331, 1350]





[201, 220]









10
1284
SLIYRRRLMKQDFSVPQLPH
gp100
27
2677
ENQIDTAFLSSTSKYEKLEK
TEX15





[613, 632]



[1188, 1207]





10
1285
IKNIQSTTNTTIQIIQEQPE
HAGE
27
2678
KQKARRIYPSDFAVEILFGE
TPTE





[90, 109]



[520, 539]





10
1286
TYETAVALDTEIPNELPYND
HDAC1
27
2679
QSQIALQEKESEIQLLKEHL
TSGA10





[313, 332]



[580, 599]





10
1287
LDQIRQTIFENLKMLNHAPS
HDAC3
28
2680
VFSHGSQKATDIMDAMLRKL
AKAP-3





[355, 374]



[362, 381]





10
1288
LGQSFSFHSGNANIPSIYAN
IGFS11
28
2681
NSSDDSEDERVKRLAKLQEQ
BRDT





[341, 360]



[410, 429]





10
1289
VNGSSENKPIRSSYFTFQLQ
IL13RA2
28
2682
NIENYSTNALIQPVDTISIS
CAGE1





[214, 233]



[97, 116]





10
1290
SIPVHLNSLPRLETLVAEVQ
JARID1B
28
2683
ELNDMVAVHQQQLLSWEEDR
CCDC62





[1048, 1067]



[43, 62]





10
1291
EEVKLEAHIRVPSFAAGRVI
KOC1
28
2684
NEFDNKIILDPMTFSEARFR
CTNNA2





[484, 503]



[281, 300]





10
1292
LQEPSDLRAVLLINSKSYVS
KU-CT-1
28
2685
IVSILDKLIRAPDSLKTLAD
EPHA2





[592, 611]



[867, 886]





10
1293
EALFKKSAETLWNIQKDLIF
LDHC
28
2686
GSRSSNASLEVLSTEPGSFK
FSIP1





[313, 332]



[23, 42]





10
1294
LQEVKILAQFYNDFVNISSI
LIPI
28
2687
FTDVSLYILGSDINVDDMVN
Glypican-





[402, 421]



3









[149, 168]





10
1295
AREPVTKAEMLESVIKNYKH
MAGE-A1
28
2688
RSYVPLAHSSSAFTITDQVP
gp100





[119, 138]



[195, 214]





10
1296
LVQFLLFKYQMKEPITKAEI
MAGE-A10
28
2689
LLMEAQLLQVSLPEIQELYQ
JARID1B





[141, 160]



[1349, 1368]





10
1297
TVRPADLTRVIMPLEQRSQH
MAGE-A11
28
2690
PVIQLLALKTLGVIANDKES
KU-CT-1





[100, 119]



[205, 224]





10
1298
PRKLLTQDLVQENYLEYRQV
MAGE-A12
28
2691
FSFKLLNQLGMIEEPRLYEK
LIPI





[242, 261]



[376, 395]





10
1299
EEGPRMFPDLESEFQAAISR
MAGE-A2
28
2692
QSPPEGENTHSPLQIVPSLP
MAGE-C1





[92, 111]



[518, 537]





10
1300
GSVVGNWQYFFPVIFSKASS
MAGE-A3
28
2693
EGDLEQTDTYLEALLKEDNL
MORC1





[137, 156]



[937, 956]





10
1301
GSNPARYEFLWGPRALAETS
MAGE-A4
28
2694
NMANSIKFSVWVSFFEIYNE
MPHOSPH1





[264, 283]



[262, 281]





10
1302
KASDSLQLVFGIELMEVDPI
MAGE-A6
28
2695
HYEEQQAWNITLRIFQKMDR
NLRP4





[153, 172]



[62, 81]





10
1303
AEMLESVIKNYKRYFPVIFG
MAGE-A9
28
2696
LLRRTKRDIVDSLSALPKTQ
NXF2





[132, 151]



[459, 478]





10
1304
LNGASRRLELVFGLDLKEDN
MAGE-B1
28
2697
ANILIDSGADINLVDVYGNT
NY-BR-1





[150, 169]



[66, 85]





10
1305
NSATEEEIWEFLNMLGVYDG
MAGE-B2
28
2698
TDINTLTRQKELLLQKLSTF
ODF2





[216, 235]



[244, 263]





10
1306
EPRKLITQDLVKLKYLEYRQ
MAGE-B3
28
2699
TQLLQQLYTSKAVSDEAVLT
PASD1





[243, 262]



[178, 197]





10
1307
LNMLGIYDGKRHLIFGEPRK
MAGE-B4
28
2700
KQDSTGMKLWKKRWFVLSDL
PEPP2





[224, 243]



[178, 197]





10
1308
ARKIITEDLVQDKYVVYRQV
MAGE-B6
28
2701
LFLPKRLQQKVTEVFSKTRN
PIWIL1





[328, 347]



[168, 187]





10
1309
KQPITKAEMLTNVISRYTGY
MAGE-C1
28
2702
HRPSERQDNHGMLLKGEILL
PIWIL2





[926, 945]



[474, 493]





10
1310
PHSSPPYYEFLWGPRAHSES
MAGE-C2
28
2703
PMGITMKPAEMIEVDGDANS
PIWIL3





[290, 309]



[535, 554]





10
1311
LKSGSMRIGKDFILFTKKEE
MORC1
28
2704
ASRRLRIALLYSHSELSNKA
PIWIL4





[103, 122]



[135, 154]





10
1312
QKWREERDQLVAALEIQLKA
MPHOSPH1
28
2705
RLSEGDVMHLSQSPSVSQLS
PRAME





[1516, 1535]



[333, 352]





10
1313
DNRPALGSTAPPVHNVTSAS
MUC-1
28
2706
SGKIVIARYGKVFRGNKVKN
PSMA





[943, 962]



[197, 216]





10
1314
AFSHTQVIELERKFSHQKYL
NKX3.1
28
2707
RHSSSKRRKSMSSWLDKQED
SAGE1





[130, 149]



[55, 74]





10
1315
FKDPKRAMEAFNLVRESEQL
NLRP4
28
2708
YVEIWQAYLDYLRRRVDFKQ
SART3





[315, 334]



[417, 436]





10
1316
PSPGSTLSSSRSVELNGFMA
NR6A1
28
2709
AVPSQTVSRNFTSVDHGISK
SCP-1





[190, 209]



[814, 833]





10
1317
TMNKRYNVSQQALDLQNLRF
NXF2
28
2710
IGGSLGRGSSLDILSSLNSP
SOX-6





[220, 239]



[468, 487]





10
1318
IEVHNKASLTPLLLSITKRS
NY-BR-1
28
2711
NWREKLSPIPAVPASVPLQA
SPAG1





[109, 128]



[575, 594]





10
1319
SDFKDFIFDDMYIVQKYISN
NYD-TSPG
28
2712
AATSPSTNGASPVMDKPPEM
SPAG9





[226, 245]



[855, 874]





10
1320
FKLENERLKASFAPMEDKLN
ODF2
28
2713
RKEMEIMADSKMKAEIQALT
SPO11





[504, 523]



[355, 374]





10
1321
RTGKDLGPAYSILGRYQTKT
ODF3
28
2714
LVSSSAWSSALGSQTTFGPV
TAG-1





[78, 97]



[19, 38]





10
1322
YFNHKSFWSLILSHPSGAVS
ODF4
28
2715
YGNIEEVTADELRMISSTFL
TDRD1





[201, 220]



[800, 819]





10
1323
IVNASEMDIQNVPLSEKIAE
OIP5
28
2716
RVQRYGLHPDVNVYLGLTSE
TEX14





[179, 198]



[530, 549]





10
1324
SIPQFPITSDSTISTLETPQ
PASD1
28
2717
DSQSDLTLHSEIAYISKPGI
TEX15





[668, 687]



[1550, 1569]





10
1325
MDEAKILKSLHHPNIVGYRA
PBK
28
2718
GVKTPSQKRYVAYFAQVKHL
TPTE





[83, 102]



[384, 403]





10
1326
YNVTSDYAVHPMSPVGRTSR
PEPP2
29
2719
VSALLLIQYHLAQGGRADAR
AKAP-3





[128, 147]



[529, 548]





10
1327
RDWGLSFDSNLLSFSGRILQ
PIWIL1
29
2720
KPGDDIVLMAQALEKLFMQK
BRDT





[439, 458]



[110, 129]





10
1328
RINLKNTSFITSQELNWVKE
PIWIL2
29
2721
EERNKHLEDLIRKPREKARK
CAGE1





[572, 591]



[730, 749]





10
1329
DVSHKLLRIETAYDFIKRTS
PIWIL3
29
2722
NHPKVDIKREKNQKSLFKDQ
CCDC62





[283, 302]



[337, 356]





10
1330
PGFAISVSYFERKLLFSADV
PIWIL4
29
2723
DGVRDIRKAVLMIRTPEELE
CTNNA2





[244, 263]



[618, 637]





10
1331
KLPTLAKFSPYLGQMINLRR
PRAME
29
2724
KEVPVAIKTLKAGYTEKQRV
EPHA2





[245, 264]



[639, 658]





10
1332
LVNYNLWIEKVTQLEGRPFN
PRSS55
29
2725
VVMVDREKKRLVELLKDLDE
FSIP1





[288, 307]



[269, 288]





10
1333
LKKEGWRPRRTILFASWDAE
PSMA
29
2726
YQLTARLNMEQLLQSASMEL
Glypican-





[405, 424]



3









[81, 100]





10
1334
YVMELPKLKLSGVVRLSSYS
RAGE-1
29
2727
PSAAELQDLLDVSFEFDVEL
JARID1B





[345, 364]



[885, 904]





10
1335
FGQNYERIFILLEEVQGSMK
SAGE1
29
2728
LVRGEYGRAWNEVMLQNDSR
KU-CT-1





[838, 857]



[815, 834]





10
1336
EKALNAGFIQATDYVEIWQA
SART3
29
2729
SLTDSESLIESEPLFTYTLD
MAGE-C1





[404, 423]



[890, 909]





10
1337
ESKQLNVYEIKVNKLELELE
SCP-1
29
2730
MKRSSSLPSWKSLLNVPMED
MORC1





[632, 651]



[764, 783]





10
1338
GEVQNMLEGVGVDINKALLA
SCP3a
29
2731
LKLGIKHQSVAFTKLNNASS
MPHOSPH1





[68, 87]



[330, 349]





10
1339
FTGTPDPSRSIFKPFIFVDD
SCRN1
29
2732
DLRRNGVVDADIPALLGTKI
NLRP4





[294, 313]



[418, 437]





10
1340
YESTSAHIIEETEYVKKIRT
se57-1
29
2733
PPEKPSAFEPAIEMQKSVPN
NY-BR-1





[23, 42]



[698, 717]





10
1341
RKRKQLHFFDSRLKDLKLGT
SLCO6A1
29
2734
EQLHVQLADKDLYVAEALST
ODF2





[348, 367]



[421, 440]





10
1342
TGGATVAEARVYRDARGRAS
SOX-6
29
2735
VEQYGPQENVHMFVDSDSTY
PASD1





[597, 616]



[247, 266]





10
1343
IAKPNNAYEFGQIINALSTR
SPAG1
29
2736
DRPLTKINSVKLNSLPSEYE
PEPP2





[800, 819]



[335, 354]





10
1344
GYRNKIYVVQPKAMKIEKSF
SPAG9
29
2737
GVGDGQLKTLVNYEVPQFLD
PIWIL1





[1063, 1082]



[703, 722]





10
1345
DIMRDRIEQVARSISRLTDV
SPATA19
29
2738
SINLTLTKWYSRVVFQMPHQ
PIWIL2





[134, 153]



[763, 782]





10
1346
DVLDRHRESLLAALRRGGRE
SPO11
29
2739
LAFIVVKKRINTRFFLKHGS
PIWIL3





[14, 33]



[756, 775]





10
1347
DNDHNRRIQVEHPQMTFGRL
SSX-1
29
2740
ASSSNGFLGTSRISTNDKYG
PIWIL4





[85, 104]



[40, 59]





10
1348
PNRGNQVQRPQMTFGRLQGI
SSX-3
29
2741
SLSGVMLTDVSPEPLQALLE
PRAME





[88, 107]



[355, 374]





10
1349
HRLRERKQLVVYEEISDPEE
SSX-4
29
2742
MPEGDLVYVNYARTEDFFKL
PSMA





[166, 185]



[169, 188]





10
1350
QIPEKMQKAFDDIAKYFSEK
SSX-5
29
2743
TNDGQQMRSDEVNLVATGHQ
SAGE1





[16, 35]



[25, 44]





10
1351
LQIEEEKNKQRQLRLAFEEQ
SYCE1
29
2744
AHGTVKDLRLVTNRAGKPKG
SART3





[142, 161]



[823, 842]





10
1352
GSIPGFLISSGMSSHKQGHT
TAF7L
29
2745
ESNKARAAHSFVVTEFETTV
SCP-1





[295, 314]



[365, 384]





10
1353
GLSYRWLLNEFPNFIPTDGR
TAG-1
29
2746
LNSPALFGDQDTVMKAIQEA
SOX-6





[163, 182]



[484, 503]





10
1354
IISDVLIDEHLVLKSASPHK
TDRD1
29
2747
LAITAPKDLPMFLSNKLEGD
SPAG1





[883, 902]



[829, 848]





10
1355
FQAENTIMLLERSIMAKEGP
TEKT5
29
2748
MSERVSGLAGSIYREFERLI
SPAG9





[368, 387]



[20, 39]





10
1356
WKRLGWSESSRIIVLDQSDL
TEX14
29
2749
SGPSSKIRTREAAPSVAPSG
TAG-1





[1476, 1495]



[697, 716]





10
1357
TKREKNSYYVFLKYKRQVNE
TEX15
29
2750
EIIPLNRIYHLNRNIDLFPP
TDRD1





[1773, 1792]



[355, 374]





10
1358
RSSLEYRASSRLKELAAPKI
THEG
29
2751
DIPWKGLDGSVVKKAVVSGN
TEX14





[221, 240]



[453, 472]





10
1359
QKRYVAYFAQVKHLYNWNLP
TPTE
29
2752
TPKKVEMQRSLPGSLLPLEN
TEX15





[390, 409]



[2384, 2403]





10
1360
ENELDSAHSEIELLRSQMAN
TSGA10
29
2753
HLFHQKRQLEKLIRRRVSEN
TPTE





[540, 559]



[207, 226]





10
1361
DIGLLKLKQELKYSNYVRPI
TSP50
30
2754
SFYANRLTNLVIAMARKEIN
AKAP-3





[206, 225]



[125, 144]





10
1362
SNPYFQNKVITKEYLVNITE
TSPY1
30
2755
SVFPKTSISPLNVVQGASVN
BRDT





[207, 226]



[179, 198]





10
1363
PAFLPWHRLFLLRWEQEIQK
TYR
30
2756
LSKKEEEVERLQQLKKELEK
CAGE1





[205, 224]



[445, 464]





10
1364
AQYRIHTHGVFRGIQDVRRV
WT1
30
2757
QAFLRHPDVAATRANRDYVF
CTNNA2





[284, 303]



[225, 244]





10
1365
EHGQEIFQKKVSPPGPALNV
ZNF165
30
2758
LDDLAPDTTYLVQVQALTQE
EPHA2





[142, 161]



[494, 513]





11
1366
DERQNRSFEGMVVAALLAGR
5T4
30
2759
LEMRIKLWEEIKSAKYSEAW
FSIP1





[188, 207]



[144, 163]





11
1367
TPTAKAWKYMEEEILGFGKS
ACRBP
30
2760
NNYPSLTPQAFEFVGEFFTD
Glypican-





[340, 359]



3









[132, 151]





11
1368
WEGSNRNFSVWLGASVVAHL
ACTL8
30
2761
PDDWDNRTSYLHSPFSTGRS
JARID1B





[328, 347]



[1316, 1335]





11
1369
VLIAIMVKVNFQRKKWRTED
ADAM2
30
2762
ISELKFQLKSNVIPIGHVKK
KU-CT-1





[701, 720]



[773, 792]





11
1370
ERNDSKLLEDLYVIVNIVDS
ADAM29
30
2763
ERTQSTFEGFAQSPLQIPVS
MAGE-C1





[215, 234]



[219, 238]





11
1371
QITEEQLEAVIADFSGLLEK
AFP
30
2764
LPSIPLGTMSTISPSKNEKE
MORC1





[562, 581]



[529, 548]





11
1372
IDGHMSGQMVEHLMNSVMKL
AKAP-3
30
2765
NASSRSHSIFTVKILQIEDS
MPHOSPH1





[661, 680]



[346, 365]





11
1373
QVASDMMVSLMKTLKVHSSG
AKAP-4
30
2766
FFKDPKRAMEAFNLVRESEQ
NLRP4





[339, 358]



[314, 333]





11
1374
KELASALKSALSGHLETVIL
ANXA2
30
2767
VIEVHNKASLTPLLLSITKR
NY-BR-1





[81, 100]



[108, 127]





11
1375
ELEHLQTVKNISPLQILPPS
BRDT
30
2768
APMEDKLNQAHLEVQQLKAS
ODF2





[743, 762]



[516, 535]





11
1376
AQLEENAKYSSVYMEAEATA
CABYR
30
2769
LELMMDHLQKQPNTLRHVVI
PASD1





[366, 385]



[402, 421]





11
1377
SGEMLKFTEKSLAKSIAKES
CAGE1
30
2770
PAQTVHYRPINLSSSENKIV
PEPP2





[197, 216]



[360, 379]





11
1378
GTIFDNFLITDDEEYADNFG
CALR3
30
2771
FRLTSRPQWALYQYHIDYNP
PIWIL1





[310, 329]



[119, 138]





11
1379
NFNVENSQELIQMYDSKMEE
CCDC62
30
2772
LVSMFRGLGIETVSKTPLKR
PIWIL2





[300, 319]



[71, 90]





11
1380
NYKEKMKDTVQKLKNARQEV
CDCA1
30
2773
LLNAMPLHSWLILYSRSSHR
PIWIL3





[253, 272]



[501, 520]





11
1381
TERERMENIDSTILSPKQIK
CT46
30
2774
EKQLIGLIVLTRYNNRTYSI
PIWIL4





[228, 247]



[294, 313]





11
1382
HSEQNELMADISKRIQSLED
CTAGE2
30
2775
KYAGESFPGIYDALFDIESK
PSMA





[129, 148]



[699, 718]





11
1383
EELERTIHSYQGQIISHEKK
cTAGE5
30
2776
INDDIKYQLMKEVRRFGQNY
SAGE1





[440, 459]



[823, 842]





11
1384
EESEKYILTLQTVHFTSEAV
CTCFL
30
2777
HVDLIRLLRLEGELTKVRMA
SART3





[73, 92]



[115, 134]





11
1385
SLEERLESIISGAALMADSS
CTNNA2
30
2778
GSTLKFGAIRKMREDRWAVI
SCP-1





[302, 321]



[940, 959]





11
1386
SIYFSSDVVTGNVPLKVGQK
CXorf48
30
2779
GATVAEARVYRDARGRASSE
SOX-6





[56, 75]



[599, 618]





11
1387
ALIVFWKYRRFQRNTGEMSS
CXorf61
30
2780
GLQLANDSVNRLSRILMELD
SPAG1





[14, 33]



[553, 572]





11
1388
NPATAVSGTPAPPARSQADK
DBPC
30
2781
ILENTQLLETKNALNIVKND
SPAG9





[68, 87]



[414, 433]





11
1389
ETWRNYFSDIDFFPNAVYTH
DCAF12
30
2782
EYQNGDGFGYLLSFRRQGST
TAG-1





[405, 424]



[737, 756]





11
1390
EVLISENVVASIQPAEGSFE
DKKL1
30
2783
SIKIVDILEEEVVTFAVEVE
TDRD1





[116, 135]



[409, 428]





11
1391
PQYSMALAADSASGEVGNPL
DMRT1
30
2784
SSTAQENLALETSSPIEEDF
TEX14





[229, 248]



[1093, 1112]





11
1392
HKAREKPYDSKSLRTALQKE
EpCAM
30
2785
SYGENIVELSSSDSSLLLKD
TEX15





[150, 169]



[1421, 1440]





11
1393
MAAGYTAIEKVVQMTNDDIK
EPHA2
30
2786
VFDGLPLYDDVKVQFFYSNL
TPTE





[926, 945]



[466, 485]
















TABLE 25B







Hotspot Sequences and corresponding TAA

















Source



Source





Antigen(s)



Antigen(s)



SEQ

[AA posi-

SEQ

[AA posi-


Cy-
ID

tion in
Cy-
ID

tion in


cle
NO
Sequence
Antigen]
cle
NO
Sequence
Antigen]





28
5432
SVYADQVNIDYLMNRPQNLR
AKAP4 
11
5682
SQVAGRLIIRAEELAQMWKV
Ropporin-1A





[157, 176]



[77-96]





24
5433
FTSSAMSSFNRHMKTHTSEK
CTCFL
11
5683
YPEEIVRYYSPGYSDTLLQR
SPAG6





[264, 283]



[481-500]





31
5434
KQQVFIDVINKLKENVEELI
CAGE1
11
5684
ESTEGSRSRSRSLDIQPSSE
SPAG8





[346, 365]



[5-24]





10
5435
KKIEVYLRLHRHAYPEQRQD
DPPA2
11
5685
KSLPNENFQSLYNKELPVHI
TDRD4





[114, 133]



[903-922]





15
5436
GSKLGRRAKPEGALQNNDGL
EpCAM
11
5686
FQQQQHQILATPLQNLQVLA
TTK





[75, 94]



[491-510]





31
5437
SDTKDYFMSKTLGIGALKAP
FSIP1
11
5687
ASAAARGFPLRTLNDWFSSM
WBP2NL





[516, 535]



[133-152]





16
5438
KLHNINRPLTMKKEGIQTRN
GATA-3
11
5688
RTYLSQKSLQAHIKRAHKRA
ZNF645





[347, 366]



[122-141]





20
5439
SVMDLVGSILKNLARVHPVS
LDHC
12
5689
KWVGESERQLRLLFDQAYQM
ATAD2





[255, 274]



[504-523]





22
5440
QEESFSPTAMDAIFGSLSDE
MAGE-A11
12
5690
KVFTHQGKVALYGKLVQSAQ
CASC5





[176, 195]



[2009-2028]





14
5441
EDSVFAHPRKLLMQDLVQEN
MAGE-A2
12
5691
KQHREEDEVDSVLLSASKIL
CCDC110





[235, 254]



[5-24]





18
5442
REALDEKVAELVRFLLRKYQ
MAGE-A8
12
5692
ATYLWWVNNQSLPVSPRLQL
CEA





[109, 128]



[174-193]





31
5443
LQRPVSSFFSYTLASLLQSS
MAGE-C1
12
5693
LLKQQEEQTRVALLEQQMQA
CEP55





[775, 794]



[339-358]





31
5444
ESLVEKTPDEAASLVEGTSD
NY-BR-1
12
5694
SDLDFPTQVIPLKTLNAVAS
EZH2





[262, 281]



[87-106]





28
5445
DWNLYWRTSSFAMTEHNSVK
NYD-TSPG
12
5695
SYGERHLDDLSLKILREDKK
HORMAD2





[120, 139]



[57-76]





 3
5446
SARVASRSAGRGDGQEAPDV
PAGE4
12
5696
LRDAVVIEQSSSLNEASSGL
hTERT





[2, 21]



[786-805]





31
5447
YLTGLTDKMRNDFNVMKDLA
PIWIL1
12
5697
PPMQLGFPSLHSFIKEHSLQ
KIF20A





[388, 407]



[511-530]





31
5448
ENPAMQEKKRSSIWQFFSRL
SPAG9
12
5698
SLQARLFPGLAIKIQRSNGL
MCAK





[540, 559]



[6-25]





32
5449
NEQDLVREEAQKMSSLLPTM
SPAG9
12
5699
TRFFSRITKANVDLLPRGAP
MSLN





[953, 972]



[138-157]





18
5450
GFSYEQDPTLADPEAVARAW
TSP50
12
5700
MWKVVNLPTDLFNSVMNVGR
Ropporin-1A





[105, 124]



[93-112]





 1
5451
RQLRLLFDQAYQMRPSIIFF
ATAD2
12
5701
AVTNTLPVLLSLYMSTESSE
SPAG6





[511-530]



[375-394]





 1
5452
GVVFLALSAQLLQARLMKEE
BAGE-3
12
5702
YWPLRGKREAMLEMLLQHQI
SPAG8





[4-23]



[342-361]





 1
5453
RLLFSSSAAFAKFEITLFLS
CASC5
12
5703
KFEDGIWYRAKVIGLPGHQE
TDRD4





[2266-2285]



[736-755]





 1
5454
QQLESFQALRMQTLQNVSMV
CCDC110
12
5704
EDLSGRELTIDSIMNKVRDI
TTK





[61-80]



[4-23]





 1
5455
AQNTTYLWWVNGQSLPVSPR
CEA
12
5705
NEGPPAGYRASPAGSGARPQ
WBP2NL





[527-546]



[266-285]





 1
5456
KKRSEELLSQVQFLYTSLLK
CEP55
12
5706
RDHLSYIPPEQHTMVSLPSV
ZNF645





322-341]



[174-193]





 1
5457
HPLLGVSATLNSVLNSNAIK
DKK1
13
5707
VLRMTRARRSQVEQQQLITV
ATAD2





[24-43]



[1293-1312]





 1
5458
TGEELFFDYRYSQADALKYV
EZH2
13
5708
TIREFFILLQVHILIQKPRQ
CASC5





[718-737]



[1895-1914]





 1
5459
MSWAGASTYRPRPARYVEPP
GAGE-2
13
5709
AKIQYLQNYLKESVQIQKKV
CCDC110





[1-20]



[426-445]





 1
5460
EKRYLRMAVLTLYTDPMGSE
HORMAD2
13
5710
TPIISPPDSSYLSGANLNLS
CEA





[95-114]



[595-614]





 1
5461
AEANAVATMPVALLADSPAA
HSPB9
13
5711
KLDRQHVQHQLHVILKELRK
CEP55





[24-43]



[367-386]





 1
5462
SFFYVTETTFQKNALFFYRK
hTERT
13
5712
KVMMVNGDHRIGIFAKRAIQ
EZH2





[559-578]



[698-717]





 1
5463
ANIRFSIWISFFEIYNELLY
KIF20A
13
5713
GFHSMKVKVMTEATKVIDLE
HORMAD2





[295-314]



[226-245]





 1
5464
KAQNASKGIYAMASRDVFLL
MCAK
13
5714
DTDPRALVQLLAQHSSPWQV
hTERT





[365-384]



[442-461]





 1
5465
SQQNVSMDLATFMKLRTDAV
MSLN
13
5715
VGQASFFNLTVKEMVKDVLK
KIF20A





[520-539]



[131-150]





 1
5466
DEERELEKLFQLGPPSPVKM
PTTG-1
13
5716
FQIILRAKGRMHGKFSLVDL
MCAK





[150-169]



[474-493]





 1
5467
STFQFLYTYIAKVDGEISAS
Ropporin-1A
13
5717
DVLYPKARLAFQNMNGSEYF
MSLN





[159-178]



[482-501]





 1
5468
QNIETLQNAGVMSLLRTLLL
SPAG6
13
5718
EDFDPGVKEAAAWALRYIAR
SPAG6





[32-51]



[135-154]





 1
5469
FRHGHAGLLTMQLKSPMPSS
SPAG8
13
5719
ATAVNTRQRYYPMAGYIKED
TDRD4





[309-328]



[77-96]





 1
5470
KMKSLEKISYVYMKRKYEAM
SSX-7
13
5720
VSDEKSSELIITDSITLKNK
TTK





[39-58]



[340-359]





 1
5471
GERVDVSKYLIKKGLALRER
TDRD4
13
5721
PQRSEGSNVFSGRKTGTLFL
WBP2NL





[1087-1106]



[34-53]





 1
5472
KKFAFVHISFAQFELSQGNV
TTK
13
5722
IKRAHKRARKQVTSASLEKV
ZNF645





[140-159]



[134-153]





 1
5473
PKPEEKRFLLEEPMPFFYLK
URLC10
14
5723
ASLADVDPMQLDSSVRFDSV
ATAD2





[95-114]



[409-428]





 1
5474
RTLNDWFSSMGIYVITGEGN
WBP2NL
14
5724
EITGMNTLLSAPIHTQMQQK
CASC5





[143-162]



[131-150]





 1
5475
IPPEQHTMVSLPSVQHMLQE
ZNF645
14
5725
KDKERQPFLVKQGSIISENE
CCDC110





[180-199]



[393-412]





 2
5476
SRQDQIHSSIVSTLLALMDG
ATAD2
14
5726
ERVDGNRQIIGYVIGTQQAT
CEA





[542-561]



[71-90]





 2
5477
TALDVHFVSTLEPLSNAVKR
BAGE-3
14
5727
EKVAASPKSPTAALNESLVE
CEP55





[37-56]



[420-439]





 2
5478
WEQSLFSTTKPLFSSGQFSM
CASC5
14
5728
EWSGAEASMFRVLIGTYYDN
EZH2





[717-736]



[431-450]





 2
5479
LKFHSRVPRYTLSFLDQTKH
CCDC110
14
5729
VKVMTEATKVIDLENNLFRE
HORMAD2





[371-390]



[232-251]





 2
5480
AQYSWFVNGTFQQSTQELFI
CEA
14
5730
EHRLREEILAKFLHWLMSVY
hTERT





[267-286]



[533-552]





 2
5481
LTDKERHALLEKIRVLEAEK
CEP55
14
5731
ERGIGQATHRFTFSQIFGPE
KIF20A





[51-70]



[111-130]





 2
5482
STLDGYSRRTTLSSKMYHTK
DKK1
14
5732
EYTLNTLRYADRVKELSPHS
MCAK





[163-182]



[573-592]





 2
5483
PRKFPSDKIFEAISSMFPDK
EZH2
14
5733
EDIRKWNVTSLETLKALLEV
MSLN





[215-234]



[382-401]





 2
5484
KEPINVQVGFVSTGFHSMKV
HORMAD2
14
5734
AWALRYIARHNAELSQAVVD
SPAG6





[213-232]



[146-165]





 2
5485
EELVVQVDGQWLMVTGQQQL
HSPB9
14
5735
LERSASTDKTLLNSSAVMLD
TDRD4





[66-85]



[125-144]





 2
5486
QQVWKNPTFFLRVISDTASL
hTERT
14
5736
ELRNLKSVQNSHFKEPLVSD
TTK





[1023-1042]



[323-342]





 2
5487
DSMEKVKVYLAVAPLLPSEL
KIF20A
14
5737
ESTAAQAPENEASLPSASSS
WBP2NL





[60-79]



[286-305]





 2
5488
ETASNEVVYRFTARPLVQTI
MCAK
14
5738
PIQWETVSIFTRKHGNLTVD
ZNF645





[317-336]



[222-241]





 2
5489
DLPGRFVAESAEVLLPRLVS
MSLN
15
5739
YQMRPSIIFFDEIDGLAPVR
ATAD2





[191-210]



[521-540]





 2
5490
ESNLLQSPSSILSTLDVELP
PTTG-1
15
5740
KNDMDITKSYTIEINHRPLL
CASC5





[175-194]



[895-914]





 2
5491
IRVQPQDLIQWAADYFEALS
Ropporin-1A
15
5741
RPLASDLKGYFKVKDRTLKH
CCDC110





[26-45]



[813-832]





 2
5492
VKEAAAWALRYIARHNAELS
SPAG6
15
5742
GIQNELSVDHSDPVILNVLY
CEA





[141-160]



[394-413]





 2
5493
MQDGSESFFFRHGHRGLLTM
SPAG8
15
5743
KSETTLEKLKGEIAHLKTSV
CEP55





[300-319]



[22-41]





 2
5494
RLQRIFPKIMPKKPAEEGND
SSX-7
15
5744
VEDETVLHNIPYMGDEVLDQ
EZH2





[103-122]



[122-141]





 2
5495
LNAAMNIARALQLSPSLRTY
TDRD4
15
5745
ITYLRGLFPESSYGERHLDD
HORMAD2





[237-256]



[46-65]





 2
5496
LYYMTYGKTPFQQIINQISK
TTK
15
5746
REKRAERLTSRVKALFSVLN
hTERT





[724-743]



[647-666]





 2
5497
LVVALPRVWTDANLTARQRD
URLC10
15
5747
KLNILKESLTSFYQEEIQER
KIF20A





[8-27]



[625-644]





 2
5498
KLVFRNGDAIEFAQLMVKAA
WBP2NL
15
5748
ESALAQQAKHFSALRDVIKA
MCAK





[114-133]



[684-703]





 2
5499
ELSLSLPFPIQWETVSIFTR
ZNF645
15
5749
EDLKALSQQNVSMDLATFMK
MSLN





[214-233]



[514-533]





 3
5500
KKSQNYNIFQLENLYAVISQ
ATAD2
15
5750
PPNILKHVVGQFSKVLPHDS
SPAG6





[1342-1361]



[425-444]





 3
5501
FVQNTLTKLLKDRRKMQTVQ
BAGE-3
15
5751
KLAYIEPYKRTMQWSKEAKE
TDRD4





[82-101]



[792-811]





 3
5502
EHTTGQLTTMNRQIAVKVEK
CASC5
15
5752
SGTVNQIMMMANNPEDWLSL
TTK





[814-833]



[49-68]





 3
5503
SIEMEAMKTNILLIQDEKEM
CCDC110
16
5753
KEERTKFFEDLILKQAAKPP
ATAD2





[568-587]



[926-945]





 3
5504
AYSGREIIYPNASLLIQNII
CEA
16
5754
QAPPSSLLVHKLIFQYVEEK
CASC5





[94-113]



[2190-2209]





 3
5505
LRDQLKARYSTTTLLEQLEE
CEP55
16
5755
NLKSKMKPLIFTTQSLIQKV
CCDC110





[87-106]



[454-473]





 3
5506
LNSVLNSNAIKNLPPPLGGA
DKK1
16
5756
FVSNLATGRNNSIVKSITVS
CEA





[33-52]



[656-675]





 3
5507
KTLNAVASVPIMYSWSPLQQ
EZH2
16
5757
RDQLKARYSTTTLLEQLEET
CEP55





[99-118]



[88-107]





 3
5508
LIRKLYILMQDLEPLPNNVV
HORMAD2
16
5758
SFLFNLNNDFVVDATRKGNK
EZH2





[160-179]



[664-683]





 3
5509
RVSYRMSQKVHRKMLPSNLS
HSPB9
16
5759
VTEMYQFKFKYTKEGATMDF
HORMAD2





[92-111]



[116-135]





 3
5510
RVKALFSVLNYERARRPGLL
hTERT
16
5760
FQKNRLFFYRKSVWSKLQSI
hTERT





[657-676]



[568-587]





 3
5511
STYDETLHVAKFSAIASQLV
KIF20A
16
5761
KQIRQEEMKKLSLLNGGLQE
KIF20A





[489-508]



[215-234]





 3
5512
ILRAKGRMHGKFSLVDLAGN
MCAK
16
5762
RAKGRMHGKFSLVDLAGNER
MCAK





[477-496]



[479-498]





 3
5513
LAFQNMNGSEYFVKIQSFLG
MSLN
16
5763
TVAEVQKLLGPHVEGLKAEE
MSLN





[490-509]



[543-562]





 3
5514
DAYPEIEKFFPFNPLDFESF
PTTG-1
16
5764
LNPDAKLKHQILSALSQVSK
SPAG6





[109-128]



[219-238]





 3
5515
GEISASHVSRMLNYMEQEVI
Ropporin-1A
16
5765
SDILELGARIFVSSIKNGMW
TDRD4





[173-192]



[461-480]





 3
5516
SLAEQNRFYKKAAAFVLRAV
SPAG6
16
5766
TYGKTPFQQIINQISKLHAI
TTK





[91-110]



[728-747]





 3
5517
IPPGFRNLVADRVPNYTSWS
SPAG8
17
5767
LHNHSAASATGSLDLSSDFL
ATAD2





[213-232]



[10-29]





 3
5518
KHAWTHRLRERKQLVIYEEI
SSX-7
17
5768
SFADTIKVFQTESHMKIVRK
CASC5





[161-180]



[60-79]





 3
5519
NPWEKLSIHLYFDGMSLSYF
TDRD4
17
5769
TLEFEMRHLQREYLSLSDKI
CCDC110





[1330-1349]



[759-778]





 3
5520
NQTLDSYRNEIAYLNKLQQH
TTK
17
5770
QHTQELFISNITEKNSGLYT
CEA





[562-581]



[457-476]





 3
5521
KAASAAARGFPLRTLNDWFS
WBP2NL
17
5771
IAELESKTNTLRLSQTVAPN
CEP55





[131-150]



[139-158]





 3
5522
QDVVTPNSVRSQVPALTTTY
ZNF645
17
5772
VYEFRVKESSIIAPAPAEDV
EZH2





[301-320]



[466-485]





 4
5523
VEKALAILSQPTPSLVVDHE
ATAD2
17
5773
RTLEVQSDYSSYARTSIRAS
hTERT





[1312-1331]



[938-957]





 4
5524
AQLLQARLMKEESPVVSWRL
BAGE-3
17
5774
QATHRFTFSQIFGPEVGQAS
KIF20A





[12-31]



[116-135]





 4
5525
PVQNDLAYANDFASEYYLES
CASC5
17
5775
QPDYDLETFVNKAESALAQQ
MCAK





[1360-1379]



[671-690]





 4
5526
NSDILKNYNNFYRFLPTAPP
CCDC110
17
5776
GVLANPPNISSLSPRQLLGF
MSLN





[190-209]



[50-69]





 4
5527
TQDATYLWWVNNQSLPVSPR
CEA
17
5777
VAELATRPQNIETLQNAGVM
SPAG6





[171-190]



[24-43]





 4
5528
LESLKQLHEFAITEPLVTFQ
CEP55
17
5778
QLIEGLDILFLLKTIEEFYK
TDRD4





[394-413]



[696-715]





 4
5529
SFGNDHSTLDGYSRRTTLSS
DKK1
17
5779
DPKQRISIPELLAHPYVQIQ
TTK





[157-176]



[775-794]





 4
5530
FRRADEVKSMFSSNRQKILE
EZH2
18
5780
RRSQVEQQQLITVEKALAIL
ATAD2





[32-51]



[1300-1319]





 4
5531
KEGVNSHFLLFDKEPINVQV
HORMAD2
18
5781
YSQDLGEMTKLNSKRVSFKL
CASC5





[201-220]



[1432-1451]





 4
5532
EDNDHARDGFQMKLDAHGFA
HSPB9
18
5782
NENNRMSIEMEAMKTNILLI
CCDC110





[45-64]



[562-581]





 4
5533
EAFTTSVRSYLPNTVTDALR
hTERT
18
5783
NGNRTLTLFNVTANDARAYV
CEA





[113-132]



[551-570]





 4
5534
FPSLHSFIKEHSLQVSPSLE
KIF20A
18
5784
RHRLLEKIRVLEAEKEKNAY
CEP55





[517-536]



[56-75]





 4
5535
MAMDSSLQARLFPGLAIKIQ
MCAK
18
5785
NAVASVPIMYSWSPLQQNFM
EZH2





[1-20]



[102-121]





 4
5536
ATQMDRVNAIPFTYEQLDVL
MSLN
18
5786
RAVRSLLRSHYREVLPLATF
hTERT





[333-352]



[8-27]





 4
5537
QIAHLPLSGVPLMILDEERE
PTTG-1
18
5787
KDVLKGQNWLIYTYGVTNSG
KIF20A





[135-154]



[146-165]





 4
5538
IRAEELAQMWKVVNLPTDLF
Ropporin-1A
18
5788
QEHLVNSADDVIKMIDMGSA
MCAK





[85-104]



[435-454]





 4
5539
DILPQLVYSLAEQNRFYKKA
SPAG6
18
5789
QNVSMDLATFMKLRTDAVLP
MSLN





[83-102]



[522-541]





 4
5540
DYRQEQPETFWIQRAPQLPV
SPAG8
18
5790
VVGQFSKVLPHDSKARRLFV
SPAG6





[403-422]



[432-451]





 4
5541
ISYVYMKRKYEAMTKLGFKA
SSX-7
18
5791
SVIKILEDNVLLVELFDSLG
TDRD4





[46-65]



[825-844]





 4
5542
WEEEAKVEFLKMVNNKAVSM
TDRD4
18
5792
SVVKDSQVGTVNYMPPEAIK
TTK





[590-609]


[
[677-696]





 4
5543
PYVQIQTHPVNQMAKGTTEE
TTK
19
5793
QNIPSFAPVLLLATSDKPHS
ATAD2





[789-808]



[882-901]





 4
5544
NGDAIEFAQLMVKAASAAAR
WBP2NL
19
5794
VQEIAEKQALAVGNKIVLHT
CASC5





[119-138]



[1234-1253]





 4
5545
EYNKEGKYYSKGVKLVRKKK
ZNF645
19
5795
LPTAPPNVMSQADTVILDKS
CCDC110





[12-31]



[204-223]





 5
5546
GSSVKEVETYHRTRALRSLR
ATAD2
19
5796
SWRINGIPQQHTQVLFIAKI
CEA





[59-78]



[626-645]





 5
5547
EPEDGTALDVHFVSTLEPLS
BAGE-3
19
5797
LKDALEKNQQWLVYDQQREV
CEP55





[32-51]



[174-193]





 5
5548
EWSDDQAVFTFVYDTIQLTI
CASC5
19
5798
FVVDATRKGNKIRFANHSVN
EZH2





[2139-2158]



[673-692]





 5
5549
NPQFSSEKNLVFGTRIEKDL
CCDC110
19
5799
IPQDRLTEVIASIIKPQNTY
hTERT





[97-116]



[720-739]





 5
5550
DDPTISPSYTYYRPGVNLSL
CEA
19
5800
QDQTLAELQNNMVLVKLDLR
KIF20A





[416-435]



[785-804]





 5
5551
QQWLVYDQQREVYVKGLLAK
CEP55
19
5801
IKIQRSNGLIHSANVRTVNL
MCAK





[182-201]



[17-36]





 5
5552
GFINDEIFVELVNALGQYND
EZH2
19
5802
PIIRSIPQGIVAAWRQRSSR
MSLN





[164-183]



[258-277]





 5
5553
EKVTEMYQFKFKYTKEGATM
HORMAD2
19
5803
MSQRQVLQVFEQYQKARTQF
SPAG6





[114-133]



[1-20]





 5
5554
ERNRVATMPVRLLRDSPAAQ
HSPB9
19
5804
SLPSPGELYAVQVKHVVSPN
TDRD4





[25-44]



[1406-1425]





 5
5555
TLTDLQPYMRQFVAHLQETS
hTERT
19
5805
AKGTTEEMKYVLGQLVGLNS
TTK





[765-784]



[802-821]





 5
5556
IAEQYHTVLKLQGQVSAKKR
KIF20A
20
5806
VRFDSVGGLSNHIAALKEMV
ATAD2





[810-829]



[423-442]





 5
5557
EVYVTFFEIYNGKLFDLLNK
MCAK
20
5807
FPFLDKRYRKIVDVNFQSLL
CASC5





[396-415]



[2167-2186]





 5
5558
YPESVIQHLGYLFLKMSPED
MSLN
20
5808
TAEENFLQEIKNAKSEASIY
CCDC110





[364-383]



[671-690]





 5
5559
GLKLGSGPSIKALDGRSQVS
PTTG-1
20
5809
VNEEATGQFRVYPELPKPSI
CEA





[23-42]



[130-149]





 5
5560
LHSQVAGRLIIRAEELAQMW
Ropporin-1A
20
5810
IFELEKKTETAAHSLPQQTK
CEP55





[75-94]



[202-221]





 5
5561
AHSENLAMAVIISKGVPQLS
SPAG6
20
5811
YMRLRQLKRFRRADEVKSMF
EZH2





[322-341]



[23-42]





 5
5562
SSDDSPRSALAAATAAAAAA
SPAG8
20
5812
YVVELLRSFFYVTETTFQKN
hTERT





[35-54]



[552-571]





 5
5563
PEKIQKSFDDIAKYFSKKEW
SSX-7
20
5813
MSQGILSPPAGLLSDDDVVV
KIF20A





[18-37]



[1-20]





 5
5564
VVEKQFDQLLAFFDSRKKNL
TDRD4
20
5814
LLLVHEPKLKVDLTKYLENQ
MCAK





[189-208]



[288-307]





 5
5565
WERKSYWKNMLEAVHTIHQH
TTK
20
5815
SRDPSWRQPERTILRPRFRR
MSLN





[622-641]



[276-295]





 5
5566
SNVFSGRKTGTLFLTSYRVI
WBP2NL
20
5816
SKHSVDLAEMVVEAEIFPVV
SPAG6





[40-59]



[237-256]





 5
5567
KRTYLSQKSLQAHIKRRHKR
ZNF645
20
5817
SILVQFVDYGSTAKLTLNRL
TDRD4





[121-140]



[1510-1529]





 6
5568
PASPARPRYRLSSAGPRSPY
ATAD2
20
5818
VERGAVPLEMLEIALRNLNL
TTK





[325-344]



[170-189]





 6
5569
LQARLMKEESPVVSWRLEPE
BAGE-3
21
5819
RKIRKKSNWYLGTIKKARKI
ATAD2





[15-34]



[1164-1183]





 6
5570
NQDARILAMTPESIYSNPSI
CASC5
21
5820
AGKLNLSPSQYINEENLPVY
CASC5





[429-448]



[1726-1745]





 6
5571
LEALVKKLLPFRETVSKFHV
CCDC110
21
5821
ELKKHSQENIKFENSISRLT
CCDC110





[315-334]



[721-740]





 6
5572
SASGHSRTTVKTITVSAELP
CEA
21
5822
QQSTQELFIPNITVNNSGSY
CEA





[482-501]



[278-297]





 6
5573
EEKDVLKQQLSAATSRIAEL
CEP55
21
5823
LKELRKARNQITQLESLKQL
CEP55





[123-142]



[381-400]





 6
5574
LQQNFMVEDETVLHNIPYMG
EZH2
21
5824
FLFNLNNDFVVDATRKGNKI
EZH2





[116-135]



[665-684]





 6
5575
QDLEPLPNNVVLTMKLHYYN
HORMAD2
21
5825
LWGSRHNERRFLRNTKKFIS
hTERT





[169-188]



[477-496]





 6
5576
VVQVDGQWLMVTGQQQLDVR
HSPB9
21
5826
LNGGLQEEELSTSLKRSVYI
KIF20A





[69-88]



[228-247]





 6
5577
LGLDDIHRAWRTFVLRVRAQ
hTERT
21
5827
SLRSRSTRMSTVSELRITAQ
MCAK





[681-700]



[106-125]





 6
5578
ILIKQDQTLAELQNNMVLVK
KIF20A
21
5828
SGKKAREIDESLIFYKKWEL
MSLN





[781-800]



[304-323]





 6
5579
FVNKAESALAQQAKHFSALR
MCAK
21
5829
ALALGRLANYNDDLAEAVVK
SPAG6





[679-698]



[62-81]





 6
5580
LSTERVRELAVALAQKNVKL
MSLN
21
5830
SLYLTGAVATIILQVDSEEN
TDRD4





[77-96]



[1051-1070]





 6
5581
NLLQSPSSILSTLDVELPPV
PTTG-1
21
5831
SEEEKKNLSASTVLTAQESF
TTK





[177-196]



[196-215]





 6
5582
NRAELTPELLKILHSQVAGR
Ropporin-1A
22
5832
EIVVIGATNRLDSIDPALRR
ATAD2





[63-82]



[567-586]





 6
5583
LQVFEQYQKARTQFVQMVAE
SPAG6
22
5833
ADGTSLDFSTYRSSQMESQF
CASC5





[7-26]



[1856-1875]





 6
5584
PQKQPPWEFLQVLEPGARGL
SPAG8
22
5834
STDNLSSNIIIHPSENSDIL
CCDC110





[239-258]



[175-194]





 6
5585
THRLRERKQLVIYEEISDPE
SSX-7
22
5835
PNASLLIQNIIQNDTGFYTL
CEA





[165-184]



[103-122]





 6
5586
VPKLSEFELIKMTNEIQSNL
TDRD4
22
5836
GETENREKVAASPKSPTAAL
CEP55





[1199-1218]



[414-433]





 6
5587
GQNESFARIQVRFAELKAIQ
TTK
22
5837
MFSSNRQKILERTEILNQEW
EZH2





[104-123]



[41-60]





 6
5588
GWEGQATFKLVFRNGDAIEF
WBP2NL
22
5838
RNTKKFISLGKHAKLSLQEL
hTERT





[106-125]



[489-508]





 6
5589
SLSLPFPIQWETVSIFTRKH
ZNF645
22
5839
SPMFESTAADLGSVVRKNLL
KIF20A





[216-235]



[21-40]





 7
5590
REDKVIPVTRSLRARNIVQS
ATAD2
22
5840
EEQVHSIRGSSSANPVNSVR
MCAK





[122-141]



[170-189]





 7
5591
TPEDLMLSQYVYRPKIQIYR
CASC5
22
5841
GLKAEERHRPVRDWILRQRQ
MSLN





[1928-1947]



[557-576]





 7
5592
FHSRVPRYTLSFLDQTKHEM
CCDC110
22
5842
QEIKAEPGSLLQEYINSINS
SPAG6





[373-392]



[460-479]





 7
5593
IIQNDTGFYTLHVIKSDLVN
CEA
22
5843
HFYIRKYSQIKDAKVLEKKV
TDRD4





[112-131]



[429-448]





 7
5594
VERQTITQLSFELSEFRRKY
CEP55
22
5844
LNKLQQHSDKIIRLYDYEIT
TTK





[250-269]



[575-594]





 7
5595
WRKRVKSEYMRLRQLKRFRR
EZH2
23
5845
KEMVVFPLLYPEVFEKFKIQ
ATAD2





[15-34]



[439-458]





 7
5596
DYQPLGFKEGVNSHFLLFDK
HORMAD2
23
5846
EENMDITKSHTVAIDNQIFK
CASC5





[194-213]



[507-526]





 7
5597
QQQLDVRDPERVSYRMSQKV
HSPB9
23
5847
NSISRLTEDKILLENYVRSI
CCDC110





[82-101]



[734-753]





 7
5598
DYSSYARTSIRASLTFNRGF
hTERT
23
5848
EPEIQNTTYLWWVNNQSLPV
CEA





[945-964]



[346-365]





 7
5599
SPYARILRSRRSPLLKSGPF
KIF20A
23
5849
IPYMGDEVLDQDGTFIEELI
EZH2





[867-886]



[131-150]





 7
5600
PKESLRSRSTRMSTVSELRI
MCAK
23
5850
HVRKAFKSHVSTLTDLQPYM
hTERT





[103-122]



[754-773]





 7
5601
DRVNAIPFTYEQLDVLKHKL
MSLN
23
5851
DLKPLLSNEVIWLDSKQIRQ
KIF20A





[337-356]



[200-219]





 7
5602
PALPKATRKALGTVNRATEK
PTTG-1
23
5852
KAHTPFRESKLTQVLRDSFI
MCAK





[54-73]



[534-553]





 7
5603
SVMNVGRFTEEIEWLKFLAL
Ropporin-1A
23
5853
RELAVALAQKNVKLSTEQLR
MSLN





[106-125]



[83-102]





 7
5604
PTIQQTAALALGRLANYNDD
SPAG6
23
5854
VRYYSPGYSDTLLQRVDSYQ
SPAG6





[55-74]



[486-505]





 7
5605
GSESFFFRHGHRGLLTMQLK
SPAG8
23
5855
KFKSQSLRSHFEKNTTLHYH
TDRD4





[303-322]



[650-669]





 7
5606
SGPKRGKHAWTHRLRERKQL
SSX-7
23
5856
NPEDWLSLLLKLEKNSVPLS
TTK





[155-174]



[61-80]





 7
5607
KIVAIKEFNPLSILVQFVDY
TDRD4
24
5857
ISAKDFEVAMQKMIPASQRA
ATAD2





[1499-1518]



[674-693]





 7
5608
LSDALLNKLIGRYSQAIEAL
TTK
24
5858
LLPNEIAIRPMDKTVLFTDN
CASC5





[79-98]



[1167-1186]





 7
5609
ALIPNGESLLKRSPNVELSF
WBP2NL
24
5859
DEVDSVLLSASKILNSSEGV
CCDC110





[14-33]



[11-30]





 7
5610
DIQAPPPELSLSLPFPIQWE
ZNF645
24
5860
EPETQDATYLWWVNNQSLPV
CEA





[207-226]



[168-187]





 8
5611
KRYYLRQRKATVYYQAPLEK
ATAD2
24
5861
RQVYEFRVKESSIIAPAPAE
EZH2





[292-311]



[464-483]





 8
5612
PHVSKERIQQSLSNPLSISL
CASC5
24
5862
DGLRPIVNMDYVVGARTFRR
hTERT





[566-585]



[628-647]





 8
5613
LKEFKKIISKYNVLQGQNKT
CCDC110
24
5863
DISMYGKEELLQVVEAMKTL
KIF20A





[505-524]



[554-573]





 8
5614
PRLQLSNDNRTLTLLSVTRN
CEA
24
5864
DDVAAINPELLQLLPLHPKD
MCAK





[367-386]



[59-78]





 8
5615
HQLHVILKELRKARNQITQL
CEP55
24
5865
LDQDQQEAARAALQGGGPPY
MSLN





[375-394]



[215-234]





 8
5616
GPNAKSVQREQSLHSFHTLF
EZH2
24
5866
REIAKHTPELSQLVVNAGGV
SPAG6





[266-285]



[276-295]





 8
5617
STGFHSMKVKVMTEATKVID
HORMAD2
24
5867
NVWQPDAIEVLQQLLSKRQV
TDRD4





[224-243]



[1301-1320]





 8
5618
YRMSQKVHRKMLPSNLSPTA
HSPB9
24
5868
NESFARIQVRFAELKAIQEP
TTK





[95-114]



[106-125]





 8
5619
RLPRLPQRYWQMRPLFLELL
hTERT
25
5869
LSLEHIGRRRLRSAGAAQKK
ATAD2





[378-397]



[29-48]





 8
5620
DGGILPRSLALIFNSLQGQL
KIF20A
25
5870
NLNNLNGKTGEFLAFQTVHL
CASC5





[176-195]



[1586-1605]





 8
5621
DSSFPNWEFARMIKEFRATL
MCAK
25
5871
EKNIQLSLEKQQMMEALDQL
CCDC110





[224-243]



[527-546]





 8
5622
LLATQMDRVNAIPFTYEQLD
MSLN
25
5872
RNNSIVKSITVSASGTSPGL
CEA





[331-350]



[664-683]





 8
5623
KMTEKTVKAKSSVPASDDAY
PTTG-1
25
5873
QRGSKKHLLLAPSDVAGWGI
EZH2





[92-111]



[607-626]





 8
5624
KMLKEFAKAAIRVQPQDLIQ
Ropporin-1A
25
5874
TYVPLLGSLRTAQTQLSRKL
hTERT





[16-35]



[1088-1107]





 8
5625
IQEPEIALKRIAASALSDIA
SPAG6
25
5875
QNLVPFRDSKLTRVFQGFFT
KIF20A





[176-195]



[454-473]





 8
5626
RKLFEVESVTHHDYRMELAQ
SPAG8
25
5876
KREEKKAQNSEMRMKRAQEY
MCAK





[373-392]



[204-223]





 8
5627
MNGDDAFARRPRAGAQIPEK
SSX-7
25
5877
PQAPRRPLPQVATLIDRFVK
MSLN





[1-20]



[409-428]





 8
5628
RRGQIIRMVTDTLVEVLLYD
TDRD4
25
5878
LSEEPEDHIKAAAAWALGQI
SPAG6





[980-999]



[344-363]





 8
5629
KIIRLYDYEITDQYIYMVME
TTK
25
5879
EEFARTTDDYLSNLIKAKSY
TDRD4





[584-603]



[210-229]





 8
5630
HTENRRGALIPNGESLLKRS
WBP2NL
25
5880
DSRGQTTKARFLYGENMPPQ
TTK





[7-26]



[230-249]





 8
5631
TTYDPSSGYIIVKVPPDMNS
ZNF645
26
5881
SEKLQLDLSSINISAKDFEV
ATAD2





[318-337]



[662-681]





 9
5632
SSSKYAPSYYHVMPKQNSTL
ATAD2
26
5882
RNKKNSRRVSFADTIKVFQT
CASC5





[1114-1133]



[51-70]





 9
5633
QLNNRDRRNVDFTSSHATAV
CASC5
26
5883
DLPTENQEENLSMEKSHHFE
CCDC110





[1302-1321]



[115-134]





 9
5634
MSQADTVILDKSKITVPFLK
CCDC110
26
5884
TVYAEPPKPFITSNNSNPVE
CEA





[212-231]



[317-336]





 9
5635
QQHTQVLFIAKITPNNNGTY
CEA
26
5885
VVDATRKGNKIRFANHSVNP
EZH2





[634-653]



[674-693]





 9
5636
VYDQQREVYVKGLLAKIFEL
CEP55
26
5886
SLLRSHYREVLPLATFVRRL
hTERT





[186-205]



[12-31]





 9
5637
YQHLEGAKEFAAALTAERIK
EZH2
26
5887
QGTIKDGGILPRSLALIFNS
KIF20A





[325-344]



[171-190]





 9
5638
IKKASVLLIRKLYILMQDLE
HORMAD2
26
5888
IRALGQNKAHTPFRESKLTQ
MCAK





[153-172]



[527-546]





 9
5639
RSLLRSHYREVLPLATFVRR
hTERT
26
5889
LFSLGWVQPSRTLAGETGQE
MSLN





[11-30]



[25-44]





 9
5640
LNQNSSRSHSIFSIRILHLQ
KIF20A
26
5890
TNTLPVLLSLYMSTESSEDL
SPAG6





[373-392]



[377-396]





 9
5641
AKHFSALRDVIKALRLAMQL
MCAK
26
5891
ISPEKIYVQWLLTENLLNSL
TDRD4





[691-710]



[926-945]





 9
5642
RQLDVLYPKARLAFQNMNGS
MSLN
26
5892
ISVKGRIYSILKQIGSGGSS
TTK





[479-498]



[518-537]





 9
5643
SQVSTPRFGKTFDAPPALPK
PTTG-1
27
5893
KIDLHKYLTVKDYLRDIDLI
ATAD2





[39-58]



[1037-1056]





 9
5644
PELLKILHSQVAGRLIIRAE
Ropporin-1A
27
5894
QDLIKDPRNLLANQTLVYSQ
CASC5





[69-88]



[1415-1434]





 9
5645
LKDKDEYVKKNASTLIREIA
SPAG6
27
5895
IKNAKSEASIYKNSLSEIGK
CCDC110





[260-279]



[680-699]





 9
5646
FEVESVTHHDYRMELAQAGT
SPAG8
27
5896
ETQNPVSARRSDSVILNVLY
CEA





[376-395]



[216-235]





 9
5647
DIAKYFSKKEWEKMKSLEKI
SSX-7
27
5897
IFAKRAIQTGEELFFDYRYS
EZH2





[27-46]



[710-729]





 9
5648
RSHFEKNTTLHYHPPILPKE
TDRD4
27
5898
TDALRGSGAWGLLLRRVGDD
hTERT





[657-676]



[128-147]





 9
5649
IGSGGSSKVFQVLNEKKQIY
TTK
27
5899
PVPANIRFSIWISFFEIYNE
KIF20A





[531-550]



[292-311]





 9
5650
GGWEGQATFKLVFRNGDAIE
WBP2NL
27
5900
ETGQEAAPLDGVLANPPNIS
MSLN





[105-124]



[40-59]





 9
5651
SASEFASHHYNLNILPQFTE
ZNF645
27
5901
YYSPGYSDTLLQRVDSYQPL
SPAG6





[351-370]



[488-507]





10
5652
QEEDTFRELRIFLRNVTHRL
ATAD2
27
5902
YDDGLWYRAKIVAIKEFNPL
TDRD4





[981-1000]



[1490-1509]





10
5653
RPMDKTVVFVDNHVELEMTE
CASC5
27
5903
QVLNEKKQIYAIKYVNLEEA
TTK





[963-982]



[541-560]





10
5654
LQNVSMVQSEISEILNKSII
CCDC110
28
5904
SLDLSSDFLSLEHIGARRLR
ATAD2





[74-93]



[21-40]





10
5655
PPAQYSWLIDGNIQQHTQEL
CEA
28
5905
FQDLSINSADKIHITRSHIM
CASC5





[443-462]



[398-417]





10
5656
EVHNLNQLLYSQRRADVQHL
CEP55
28
5906
SKMKPLIFTTQSLIQKVETY
CCDC110





[275-294]



[457-476]





10
5657
EWKQRRIQPVHILTSVSSLR
EZH2
28
5907
TYLWWVNGQSLPVSPRLQLS
CEA





[59-78]



[531-550]





10
5658
KRYLRMAVLTLYTDPMGSEK
HORMAD2
28
5908
YRYSQADALKYVGIEREMEI
EZH2





[96-115]



[726-745]





10
5659
GLLLDTRTLEVQSDYSSYAR
hTERT
28
5909
SVWSKLQSIGIRQHLKRVQL
hTERT





[932-951]



[579-598]





10
5660
TVKEMVKDVLKGQNWLIYTY
KIF20A
28
5910
FRDSKLTRVFQGFFTGRGRS
KIF20A 





[140-159]



[459-478]





10
5661
EELSSQMSSFNEAMTQIREL
MCAK
28
5911
VIQHLGYLFLKMSPEDIRKW
MSLN





[625-644]



[368-387]





10
5662
QGGIPNGYLVLDLSMQEALS
MSLN
28
5912
AVSMKVFREEDGVLIVDLQK
TDRD4





[587-606]



[606-625]





10
5663
AHLPLSGVPLMILDEERELE
PTTG-1
28
5913
LNKLIGRYSQAIEALPPDKY
TTK





[137-156]



[84-103]





10
5664
GPDGIITVNDFTQNPRVQLE
Ropporin-1A
29
5914
RIRSRYSGVNQSMLFDKLIT
ATAD2





[193-212]



[159-178]





10
5665
LPHDSKARRLFVTSGGLKKV
SPAG6
29
5915
EKLQDGRITIREFFILLQVH
CASC5





[440-459]



[1887-1906]





10
5666
SYQPPGNVYWPLRGKREAML
SPAG8
29
5916
IAESENQIQPQSALKVLQQQ
CCDC110





[334-353]



[43-62]





10
5667
SSDMPVSLRDALVFMELAKF
TDRD4
29
5917
NGIPQQHTQVLFIAKITPNN
CEA





[632-651]



[630-649]





10
5668
KAVERGAVPLEMLEIALRNL
TTK
29
5918
FSVLNYERARRPGLLGASVL
hTERT





[168-187]



[662-681]





10
5669
WEGQATFKLVFRNGDAIEFA
WBP2NL
29
5919
PRSLALIFNSLQGQLHPTPD
KIF20A





[107-126]



[181-200]





10
5670
PQFTQTDAMDHRRWPAWKRL
ZNF645
29
5920
SLSPEELSSVPPSSIWAVRP
MSLN





[377-396]



[451-470]





11
5671
AVLQKMDDMKKMRRQRMREL
ATAD2
29
5921
QDKNQWRRGQIIRMVTDTLV
TDRD4





[183-202]



[974-993]





11
5672
EKSTKIDTTSFLANLKLHTE
CASC5
29
5922
ITDSITLKNKTESSLLAKLE
TTK





[198-217]



[350-369]





11
5673
LKNYNNFYRFLPTAPPNVMS
CCDC110
30
5923
IYKDRMKIGASLADVDPMQL
ATAD2





[194-213]



[400-419]





11
5674
NGNRTLTLFNVTANDTASYK
CEA
30
5924
RLLGEEIEYLKRWGPNYNLM
CASC5





[195-214]



[2237-2256]





11
5675
FNSSINNIHEMEIQLKDALE
CEP55
30
5925
LHSVEEKLSGDSVNSLPQSV
CCDC110





[160-179]



[139-158]





11
5676
NGDHRIGIFAKRAIQTGEEL
EZH2
30
5926
VHNLPQHLFGYSWYKGERVD
CEA





[703-722]



[55-74]





11
5677
ITNEHESLKMVKKLFATSIS
HORMAD2
30
5927
AFKSHVSTLTDLQPYMRQFV
hTERT





[25-44]



[758-777]





11
5678
DKEQLRPSFLLSSLRPSLTG
hTERT
30
5928
RILRSRRSPLLKSGPFGKKY
KIF20A





[337-356]



[871-890]





11
5679
SELALRRSQRLAASASTQQL
KIF20A
30
5929
RITKANVDLLPRGAPERQRL
MSLN





[670-689]



[143-162]





11
5680
ITAQENDMEVELPAAANSRK
MCAK
30
5930
VGDDGTIFVVPKLSEFELIK
TDRD4





[122-141]



[1190-1209]





11
5681
EDLDALPLDLLLFLNPDAFS
MSLN
30
5931
VQNSHFKEPLVSDEKSSELI
TTK





[113-132]



[330-349]









Example 17—Personalised Selection of Peptides to Treat Cancer

Effective immunotherapy for cancer patients stimulates T cell responses (ideally CD4+ and CD8+ T cell responses) that target TAA expressed by the cancer cells of the specific patient.


For treatment of a specific cancer patient, peptides comprising one or more of the 3286 hotspot amino acid sequences can be selected based on (i) cancer type (select peptides comprising hotspot sequences that are fragments of TSAs that are associated with the patient's cancer); (ii) TSA expression or TSA expression rate (sample patient's cancer cells and select peptides comprising hotspot sequences that are fragments of a TSA in fact expressed in the patient's cancer cells; or select peptides comprising hotspot sequences that are fragments of TSAs that are most frequently expressed in the patient's type of cancer); (iii) patient HLA genotype (select peptides comprising fragments of TSAs that comprise an amino acid sequence that is a T cell epitope capable of binding to at least three HLA class I alleles of the patient (HLA class I-binding PEPI3+) (and ideally also comprise an amino acid sequence that is a T cell epitope capable of binding to multiple HLA class II alleles of the patient (HLA class II-binding PEPI2/3/4/5+)).


To illustrate the options for selecting peptides comprising hotspot amino acid sequences to treat individual patients, HLA class I-binding PEPI3+ were identified in the hotspot sequences for three colorectal cancer patients, one ovarian cancer patient and three breast cancer patients with known HLA genotypes. Only hotspot sequences that are fragments of TSA associated with the corresponding cancer (colorectal, ovarian, breast, Table 24) were considered. The number of hotspots sequences containing such a PEPI3+ and the number of antigens that could be targeted using selected peptides comprising a hotspot amino acid sequence are shown in Table 26. As expected, more hotspots containing PEPI3+ were identified and more TSA could be targeted using the hotspot sequences identified following a greater number of cycles of the method described in Example 16.









TABLE 26







Number of selectable peptides matching to the patient HLA background) from


antigens related to the indication. In case of MaxCycle = 1, each antigen has only one


potential peptide, therefore the peptide and antigen are selected together. The MaxCycle >1


means that more than one peptides are related to a single antigen and hopefully more


than one is matching to the patient's HLA set, therefore #peptides >= #antigens.













Patient
MaxCycle = 1
MaxCycle = 3
MaxCycle = 5
MaxCycle = 30
















Indication
ID
#Peptides
#AG
#Peptides
#AG
#Peptides
#AG
#Peptides
#AG





Colorectal
CRC_P1
16
16
32
24
36
25
63
27


(70 AGs)
CRC_P2
13
13
29
15
34
27
54
28



CRC_P3
14
14
36
31
48
37
98
43


Ovarian
OC_P1
10
10
17
14
28
20
51
22


(54 AGs)











Breast
BRC_P1
27
17
45
31
60
34
99
35


(70 AGs)
BRC_P2
23
13
43
35
48
36
86
36



BRC_P3
13
13
26
19
33
23
60
28









Table 27 shows the peptide/hotspot amino acid sequences that are fragments of the breast cancer-associated TSA identified just in the first cycle of the method described in Example 16 that are expected to induce T cell responses in the three breast cancer patients of Table 26.









TABLE 27







Options for peptide selection for breast cancer


patients. Sequences are fragments of known 


breast cancer-associated CTAs and were identi-


fied in first cycle of method described in 


Example 16. “+” indicates peptide comprises 


subject-matched HLA class I-binding PEPI3+











SEQ






ID

BRC_
BRC_
BRC_


NO
Sequence
P1
P2
P3





  4
PHNFRVYSYSGTGIMKPLDQ








  7
DEVSFYANRLTNLVIAMARK
+
+






  8
IDDLSFYVNRLSSLVIQMAH

+
+





 10
ARAVFLALSAQLLQARLMKE








 16
QTTQNGRFYAISARFKPFSN








 19
EGKDPAFTALLTTQLQVQRE








 20
QGPTAVRKRFFESIIKEAAR








 21
ATAQLQRTPMSALVFPNKIS

+






 22
LDMVHSLLHRLSHNDHILIE
+







 26
HTRFTQSGTMKIHILQKHGE
+







 29
NTGEMSSNSTALALVRPSSS








 32
NLLRGIDSLFSAPMDFRGLP

+






 35
SERVRTYWIIIELKHKAREK
+
+






 40
EHLEVKFMNPYNAVLTKKFQ
+
+






 41
SGSSYFVLANGHILPNSENA








 42
ISDTKDYFMSKTLGIGRLKR
+







 44
EEMRSHYVAQTGILWLLMNN








 45
SRGKSTYYWPRPRRYVQPPE








 46
WRGRSTYYWPRPRRYVQPPE








 48
ALSRHMSSLSHISPFSHSSH

+






 51
RLNDLQMSNFVNLKNITYLV

+






 54
KKVNFLDMSLDDIIIYKELE


+





 57
KLRYRYTLDDLYPMMNALKL
+
+
+





 60
PDSRLLQLHITMPFSSPMEA
+
+






 61
QRNVAIMKSIIPAIVHYSPD
+







 62
SEELNIILQGNIILSTEKSK








 64
VKVLEYVIKVSARVRFFFPS

+
+





 65
DDTTAMASASSSATGSFSYP








 66
DPTSHSYVLVTSLNLSYDGI
+
+






 67
ALSRKMAELVHFLLLKYRAR
+
+






 68
GREDSVFAHPRKLLMQDLVQ
+

+





 69
FPVIFSKASSSLQLVFGIEL








 70
VNARVRIAYPSLREAALLEE








 71
KSPQGASAIPTAIDFTLWRQ








 72
KKLLTQYFVQENYLEYRQVP


+





 73
RAPEEAIWEALSVMGLYDGR

+






 74
PAQLEFMFQEALKLKVAELV
+
+
+





 80
RPVSSFFSYTLASLLQSSHE


+





 81
ATVMASESLSVMSSNVSFSE
+







 83
RSQAGMFIYSNNRLIKMHEK
+

+





 87
EEAFSRASLVSVYNSYPYYP
+







 90
QSQGSVLAFTRTFIATPGSS

+






 91
KRASQYSGQLKVLIAENTML
+







 93
KEFTVSGNILTIRLTAADHR








 96
EKSTKYVFDSAPSHSISART








 97
NSPLPFQWRITHSFRWMAQV

+
+





105
KEMELWMKAMLDAALVQTEP
+







106
QYAHKLAFLVGQSIHREPNL
+







107
RSVVGFVASINLTLTKWYSR
+
+
+





110
KAVSQDMVIYSTEIHYSSKG








111
RLDQLLRHVMNPLETLSITN

+






116
PPAFINMAATGVSSMSTRDQ
+







118
NNNIEKMITAFEELRVQAEN

+






122
QSSGISFQSKYLSFFILGQT








124
PDNIPAFAAAYFESLLEKRE
+
+






126
RDAVKFFVAVPGQVISPQSS
+







127
KKMKTSESSTILVVRYRRNV


+





129
AEIQALTFLSSDYLSRVYLP








130
RIQVEHPQMTFGRLHRIIPK
+

+





131
VERPQMTFGRLQGISPKIMP
+







132
QRPQMTFGRLQGIFPKIMPK
+







133
SEKIVYVYMKLNYEVMTKLG

+






134
NQVEHPQMTFGRLQGIFPKI








135
EFEETAKKVRRAIEQLAAMD








142
LSQFWEFSETTASTVSTTLH








149
EELQKVQFEKVSALADLSST
+
+






155
VGILHLGSRQKKIRIQLRSQ












Example 18—Selection of Polynucleic Acids for Treatment of Cancer

Some peptides that are difficult to manufacture and use as peptide vaccines can still be used in vaccines and immunotherapy if delivered to patients as peptide-encoding polynucleic acids or vectors. To optimally design a set of peptides for treating cancer to be encoded by a nucleic acid or vector for administration to patients, the method of Example 16 was repeated but without eliminating hotspot sequences that did not meet the peptide manufacturing feasibility requirements. Table 28 shows the hotspot sequences identified in the first 20 cycles and the TSA of which they are a fragment.









TABLE 28







Hotspot Sequences and corresponding TAA

















Source



Source



SEQ

antigen(s)

SEQ

antigen(s)


Cy-
ID

and AA
Cy-
ID

and AA


cle
NO
AA Sequence
position
cle
NO
AA Sequence
position





 1
2787
AGDGRLRLARLALVLLGWVS
5T4
19
4110
PFKCSMCKYASVEASKLKRH
CTCFL





[11-30]



[341-360]





 1
2788
ELLHTFLAWKTSYLVLRPHD
ADAM2
19
4111
DSLCPQVINAALTLAARPQS
CTNNA2





[245-264]



[456-475]





 1
2789
NKTLGTFSIAVAHHLGHNLG
ADAM29
19
4112
FYEHIITVGTGQGSLLFYDI
DCAF12





[320-339]



[348-367]





 1
2790
IARRHPFLYAPTILLWAARY
AFP
19
4113
HGRLLSADTKGWVRLQFHAG
DPPA2





[166-185]



[227-246]





 1
2791
MAARAVFLALSAQLLQARLM
BAGE-1
19
4114
NRQCQCTSVGAQNTVICSKL
EpCAM





[1-20]



[43-62]





 1
2792
MAAGVVFLALSAQLLQARLM
BAGE-2
19
4115
CSPGFFKFEASESPCLECPE
EPHA2





[1-20];



[276-295]





BAGE-3









[1-20]









 1
2793
MAAGAVFLALSAQLLQARLM
BAGE-5
19
4116
GDFQEAMTHLQHKLICTRKP
FAM46D





[1-20]



[209-228]





 1
2794
YKDAYKFAADVRLMFMNCYK
BRDT
19
4117
PQDQSCWAFLPDLCLCRVFW
FBXO39





[331-350]



[10-29]





 1
2795
ASQLASKMHSLLALMVGLLT
CAGE1
19
4118
EQLKCLLDECILKQKSIIKL
FSIP1





[610-629]



[406-425]





 1
2796
WAICMLRVALATVYFQEEFL
CALR3
19
4119
HEIFNLLSFTLNPLEGKLQQ
GASZ





[9-28]



[228-247]





 1
2797
PEVLHMIYMRALQIVYGIRL
CDCA1
19
4120
FSHSSHMLTTPTPMHPPSSL
GATA-3





[42-61]



[410-429]





 1
2798
PCEYYFRVYHSLCPISWVES
COX6B2
19
4121
SSRRRELIQKLKSFISFYSA
Glypican-





[55-74]



3









[385-404]





 1
2799
EAARCMARDFVKHLKKKLKR
CT45
19
4122
LHDPSGYLAEADLSYTWDFG
gp100





[168-187]



[244-263]





 1
2800
LIRKIYILMQNLGPLPNDVC
CT46
19
4123
CYVNDIVLAILELLKYHQRV
HDAC1





[153-172]



[151-170]





 1
2801
HFVLLDMVHSLLHRLSHNDH
CT47
19
4124
YGAGHPMKPHRLALTHSLVL
HDAC3





[120-139]



[18-37]





 1
2802
NYIDQFLLTSFPTFTSVGVL
CTAGE1
19
4125
IGTGAVIIIFCIALILGAFF
IGFS11





[34-53]



[247-266]





 1
2803
FFAVLFLWRSFRSVTSRLYV
CTAGE2
19
4126
CTNGSEVQSSWAETTYWISP
IL13RA2





[23-42]



[113-132]





 1
2804
HCDVCMFTSSRMSSFNRHMK
CTCFL
19
4127
MPKTGFLIIVLVMIAMEGGH
MAGE-A1





[258-277]



[189-208]





 1
2805
MNFYLLLASSILCALIVFWK
CXorf61
19
4128
NMMGLYDGMEHLIYGEPRKL
MAGE-A10





[1-20]



[251-270]





 1
2806
AATVPATAAGVVAVVVPVPA
DBPC
19
4129
LGLVGAQALQAEEQEAAFFS
MAGE-A11





[15-34]



[133-152]





 1
2807
WVPTTHRRMISLFLLPACIF
DPPA2
19
4130
FTKAEMLGSVIRNFQDFFPV
MAGE-A12





[249-268]



[130-149]





 1
2808
CSERVRTYWIIIELKHKARE
EpCAM
19
4131
LLGDNQVMPKTGLLIIVLAI
MAGE-A2





[135-154]



[189-208]





 1
2809
QYTEHFMAAGYTAIEKVVQM
EPHA2
19
4132
LVHFLLLKYRAREPVTKAEM
MAGE-A3





[920-939]



[116-135]





 1
2810
YQPAPYFAAEARYPIYVIPE
FAM46D
19
4133
LLGDNQIMPKTGFLIIILAI
MAGE-A6





[349-368]



[189-208]





 1
2811
ETLIIAVLVSASIANLWLWM
FATE1
19
4134
HAETSYEKVINYLVMLNARE
MAGE-A9





[162-181]



[277-296]





 1
2812
CSGSSYFVLANGHILPNSEN
FMR1NB
19
4135
DPPRFQFLWGPRAYAETSKM
MAGE-B2





[91-110]



[267-286]





 1
2813
TLELYTSYLYLSMAFYFNRD
FTHL17
19
4136
DGNQSSAWTLPRNGLLMPLL
MAGE-B4





[26-45]



[186-205]





 1
2814
TGILWLLMNNCFLNLSPRKP
GAGE-1
19
4137
SILKADMLKCVRREYKPYFP
MAGE-B6





[119-138]



[215-234]





 1
2815
SVDSNFQYGWTPLMYAASVA
GASZ
19
4138
DYFPVILKRAREFMELLFGL
MAGE-C2





[71-90]



[176-195]





 1
2816
FEFVGEFFTDVSLYILGSDI
Glypican-
19
4139
GSAATWGQDVTSVPVTRPAL
MUC-1





3



[89-108]





[142-161]









 1
2817
GKTLCYLMPGFIHLVLQPSL
HAGE
19
4140
NVSCNQLDTGVPLLCEALCS
NLRP4





[291-310]



[757-776]





 1
2818
AKCVEFVKSFNLPMLMLGGG
HDAC1
19
4141
PLGTPMLIEDGYAVTQAELF
NR6A1





[282-301]



[265-284]





 1
2819
EASGFCYVNDIVLAILELLK
HDAC2
19
4142
AVTCGFHHIHEQIMEYIRKL
NY-BR-1





[147-166]



[189-208]





 1
2820
GECVEYVKSFNIPLLVLGGG
HDAC3
19
4143
AEMDGAAAAKQVMALKDTIG
ODF2





[277-296]



[214-233]





 1
2821
ALINLNVIWMVTPLSNANQP
IGFS11
19
4144
PMVMGPNTVGKASQPSFSIK
ODF3





[51-70]



[145-164]





 1
2822
GYLGYLYLQWQPPLSLDHFK
IL13RA2
19
4145
AVFQCAQCHAVLADSVHLAW
OIP5





[44-63]



[76-95]





 1
2823
CDDSYHTFCLIPPLHDVPKG
JARID1B
19
4146
GFMITLSTDGVIICVAENIS
PASD1





[330-349]



[43-62]





 1
2824
DDAAPRVEGVPVAVHKHALH
KAAG1
19
4147
ADIFAFGLTLWEMMTLSIPH
PBK





[3-22]



[228-247]





 1
2825
CPDESWALKAIEALSGKIEL
KOC1
19
4148
TFKLCHMYWNWPGTIRVPAP
PIWIL2





[44-63]



[924-943]





 1
2826
GIFIIVVFVYLTVENKSLFG
LEMD1
19
4149
NNFTLAFIVVKKRINTRFFL
PIWIL3





[162-181]



[752-771]





 1
2827
KYSAHAFQFSPRNVLWLLVV
LIPI
19
4150
IPQHKLSLWPGFAISVSYFE
PIWIL4





[13-32]



[235-254]





 1
2828
VDPTGHSFVLVTSLGLTYDG
MAGE-A10
19
4151
FDECGITDDQLLALLPSLSH
PRAME





[194-213]



[385-404]





 1
2829
VALSRKMAELVHFLLLKYRA
MAGE-A12
19
4152
AMNFDFPFKKGSGIPLLTTN
RAGE-1





[107-126]



[234-253]





 1
2830
FRAALSKKVADLIHFLLLKY
MAGE-A5
19
4153
LEEDLQIATKTICQLTEEKE
SCP-1





[105-124]



[341-360]





 1
2831
VKDPVAWEAGMLMHFILRKY
MAGE-B1
19
4154
SCHSFQSAYLIVDRDEAWVL
SCRN1





[104-123]



[149-168]





 1
2832
WTLPRNGLLMPLLSVIFLNG
MAGE-B4
19
4155
CCSLDLLMKKIKGKDLQLLE
se57-1





[193-212]



[85-104]





 1
2833
FLWGPRAYAETTKMRVLRVL
MAGE-B6
19
4156
KATEYLVIIGASEFLPIYLE
SLCO6A1





[357-376]



[392-411]





 1
2834
RRANGYRALMDKSLHVGTQC
MART1
19
4157
GSDQHVASHLPLHPIMHNKP
SOX-6





[49-68]



[32-51]





 1
2835
PARWSFRAYTSVLYFNPWMR
MORC1
19
4158
GDTFLLLIQSLKNNLIEKDP
SPAG1





[232-251]



[847-866]





 1
2836
VFCLTVVCWTWVPLRGPSSP
NA17-A
19
4159
KSDSPKSAQKFSLILKILSM
SPO11





[12-31]



[101-120]





 1
2837
NQKICIFVNHSTAPYSVKNK
NXF2
19
4160
NQEKLCMLTAELLEYCNAPK
TDRD1





[189-208]



[965-984]





 1
2838
NTALHYAVYSEILSVVAKLL
NY-BR-1
19
4161
PVWGLQLLLPLLLPSFIHFS
TEX101





[84-103]



[230-249]





 1
2839
MVILTILAIAPSVPFAANCF
NYD-
19
4162
LKRLSSFIGAGSPSLVKACD
TEX14





TSPG



[1285-1304]





[348-367]









 1
2840
SRLLEFYLAMPFATPMEAEL
NY-ESO-1
19
4163
LSKPIFCFVKDVHPDLEMND
TEX15





[85-104]



[2511-2530]





 1
2841
CLCDYKLYCLRPSLRELERK
ODF1
19
4164
SRAAQMAVPSSRILQLSKPK
THEG





[74-93]



[256-275]





 1
2842
LRAPAYSFRGAPMLLAENCS
ODF3
19
4165
IALQEKESEIQLLKEHLCLA
TSGA10





[46-65]



[583-602]





 1
2843
IPVGFHLYSTHAALAALRGH
OIP5
19
4166
AGCQKSEAPPIYLQVSSYQH
TSP50





[142-161]



[332-351]





 1
2844
FPTYDYFNQVTLQLLDGFMI
PASD1
19
4167
ALLAGLVSLLCRHKRKQLPE
TYR





[27-46]



[490-509]





 1
2845
ASQDPFPAAIILKVALNMAR
PBK
19
4168
PVETKAHFDSSEPQLLWDCD
ZNF165





[133-152]



[165-184]





 1
2846
EMELWMKAMLDAALVQTEPV
PEPP2
20
4169
PILPPSLQTSYVFLGIVLAL
5T4





[255-274]



[346-365]





 1
2847
PAPCQYAHKLAFLVGQSIHR
PIWIL1
20
4170
FESFCQFTHYRCSNHVYYAK
ACRBP





[829-848]



[100-119]





 1
2848
MRSVVGFVASINLTLTKWYS
PIWIL2
20
4171
CDRRCLFQLETVAVTQMNKC
ACTL8





[754-773]



[193-212]





 1
2849
PAPCHYAHKLAYLVGQSIHQ
PIWIL3
20
4172
KMCDANYAGGVVLHPRTISL
ADAM2





[850-869]



[285-304]





 1
2850
LNKQGMMMSIATKIAMQMTC
PIWIL4
20
4173
CSQPRCIMHEGNPPITKFSN
ADAM29





[582-601]



[349-368]





 1
2851
LCSIDWFMVTVHPFMLNNDV
PLAC1
20
4174
TLHRNEYGIASILDSYQCTA
AFP





[29-48]



[20-39]





 1
2852
HLERLAYLHARLRELLCELG
PRAME
20
4175
DILCPKAKRTSRFLSGIINF
CDCA1





[456-475]



[108-127]





 1
2853
NASGAHALQPAAAILALLPA
PSCA
20
4176
APPWEQDYRMMFPPPGQSYP
CTAGE2





[84-103]



[565-584]





 1
2854
EKKIMHYMYQLCKSLDHIHR
RAGE-1
20
4177
KGAKGTFHCDVCMFTSSRMS
CTCFL





[102-121]



[251-270]





 1
2855
PTGLINMAATPIPAMSARDL
SAGE1
20
4178
PHCRDEMAAARGALKKNATM
CTNNA2





[179-198]



[200-219]





 1
2856
KRCQHKIAEMVALMEKHKHQ
SCP-1
20
4179
TKCNTLFVVDVQTSQITKIP
DCAF12





[701-720]



[107-126]





 1
2857
QVPRTYAIMISRPAWLWGAE
SCRN1
20
4180
KVCRDTLRDWCQQLGLSTNG
DPPA2





[61-80]



[94-113]





 1
2858
YKLPLFIAFIFSTLIFSGFS
SLCO6A1
20
4181
SKLAAKCLVMKAEMNGSKLG
EpCAM





[576-595]



[60-79]





 1
2859
EEAVMYYTRSISALPTVVAY
SPAG1
20
4182
ERYMCSRFFIDFPHIEEQQK
FAM46D





[226-245]



[259-278]





 1
2860
TGKLGFSFVRITALMVSCNR
SPAG9
20
4183
WASPQNFTSVCEELVNNVED
GASZ





[1138-1157]



[392-411]





 1
2861
VEHPQMTFGRLHRIIPKIMP
SSX-1
20
4184
IDKYWREYILSLEELVNGMY
Glypican-





[94-113]



3









[292-311]





 1
2862
EKIVYVYMKLNYEVMTKLGF
SSX-4
20
4185
GTATLRLVKRQVPLDCVLYR
gp100





[44-63]



[460-479]





 1
2863
EHPQMTFGRLQGIFPKITPE
SSX-5
20
4186
HYGLYKKMIVFKPYQASQHD
HDAC3





[95-114]



[38-57]





 1
2864
PHPGTVISHSVAMLILIGSL
TAG-1
20
4187
GRQCVEHYRLLHRYCVFSHD
JARID1B





[1019-1038]



[611-630]





 1
2865
LPASTLSRLSNALLLRLECN
TAG-2a
20
4188
TGAVGMACAISILLKDLADE
LDHC





[37-56]



[28-47]





 1
2866
YLPGYRYLNSWRPSLFYKIA
TEKT5
20
4189
GASLDNFHFIGVSLGAHISG
LIPI





[40-59]



[168-187]





 1
2867
AMIGCRLMSGILAVGPMFVR
TEX101
20
4190
LESLFRAVITKKVADLVGFL
MAGE-A1





[187-206]



[94-113]





 1
2868
LTGATQMAYLGSLPVIGEKE
TEX14
20
4191
AQIACSSPSVVASLPLDQSD
MAGE-A10





[221-240]



[87-106]





 1
2869
TLYFYKFFLPTILSLSFFIL
TMEM31
20
4192
LGDNQIVPKTGLLIIVLAII
MAGE-A12





[132-151]



[190-209]





 1
2870
GFLEKEFYHKTNIKMRCEFL
TRAG-3
20
4193
YLQLVFGIEVVEVVPISHLY
MAGE-A2





[18-37]



[157-176]





 1
2871
APSRTLLLALPLPLSLLAAL
TSP50
20
4194
IGHLYIFATCLGLSYDGLLG
MAGE-A3





[366-385]



[172-191]





 1
2872
HLCKIMLFFRSNPYFQNKVI
TSPY1
20
4195
IWKFMNVLGAYDGEEHLIYG
MAGE-B1





197-216]



[220-239]





 1
2873
KGAATKMAAVTAPEAESAPA
VCX
20
4196
CATEEKIWEFLNKMRIYDGK
MAGE-B3





[53-72]



[217-236]





 1
2874
DVRDLNALLPAVPSLGGGGG
WT1
20
4197
RLSKDAVKKKACTLAQFLQK
MAGE-B6





[4-23]



[189-208]





 1
2875
SRQKKIRIQLRSQCATWKVI
XAGE-1
20
4198
RYTGYFPVIFRKAREFIEIL
MAGE-C1





[20-39];



[941-960]





XAGE-1b









[20-39]









 1
2876
CKECGRAFNLNSHLIRHQRI
ZNF165
20
4199
ARWSFRAYTSVLYFNPWMRI
MORC1





[402-421]



[233-252]





 2
2877
PTSSASSFSSSAPFLASAVS
5T4
20
4200
QSGAGVPGWGIALLVLVCVL
MUC-1





[34-53]



[1151-1170]





 2
2878
SVWLGASVVAHLSTYQSEWM
ACTL8
20
4201
LVANFEKARRAHWIFLGCFL
NLRP4





[336-355]



[484-503]





 2
2879
VFQLIGLTNAIFVSFNITII
ADAM2
20
4202
QLNKRYWYICQDFTEYKYTH
NR6A1





[205-224]



[413-432]





 2
2880
ETFMNKFIYEIARRHPFLYA
AFP
20
4203
DQSAYVSAIRDCFPKLLRLD
NXF2





[156-175]



[338-357]





 2
2881
SGQMVEHLMNSVMKLCVIIA
AKAP-3
20
4204
TRKDCLAKHLKHMRRMYGTS
NYD-TSPG





[666-685]



[154-173]





 2
2882
AVLQWIAASQFNVPMLYFMG
AKAP-4
20
4205
IDTSNSEAISSSSIPQFPIT
PASD1





[776-795]



[656-675]





 2
2883
RCIIILVLQEPTAFRISVTS
BAGE-2
20
4206
KELTPTSPDCLRYYNILFRR
PIWIL3





[60-79]



[212-231]





 2
2884
SVTSSCFVQNTLTKLLKDRR
BAGE-3
20
4207
LETWGLHFGSQISLTGRIVP
PIWIL4





[76-95];



[431-450]





BAGE-2









[76-95]









 2
2885
MLAKKHFSYAWPFYNPVDVN
BRDT
20
4208
VLPGLAYLATADMPAMSTRD
SAGE1





[283-302]



[366-385]





 2
2886
CKVDGFTHLYTLILRPDLSY
CALR3
20
4209
MIGYALGYVLGAPLVKVPEN
SLCO6A1





[163-182]



[275-294]





 2
2887
CCHPSNFIIEAPGHMSDVEW
CCDC62
20
4210
FVRITALMVSCNRLWVGTGN
SPAG9





[515-534]



[1145-1164]





 2
2888
IRLEHFYMMPVNSEVMYPHL
CDCA1
20
4211
KKLWDTFHVPVFTLVDADPH
SPO11





[59-78]



[262-281]





 2
2889
NCYQNFLDYHRCLKTRTRRG
COX6B2
20
4212
EDVPLAAKLVDLPCVIESLR
TAF7L





[31-50]



[145-164]





 2
2890
VGHYTQLVWYSTYQVGCGIA
CRISP2
20
4213
GYVDYGNFEILSLMRLCPII
TDRD1





[134-153]



[575-594]





 2
2891
PTAVRKRFFESIIKEAARCM
CT45
20
4214
QDTLQLLVMTKCRLEHELAI
TEKT5





[154-173]



[437-456]





 2
2892
HAAARNLWGNLPPLLLPQRL
CT47
20
4215
AFCELQTYHDQLVELLEETK
TEX15





[155-174]



[1755-1774]





 2
2893
MFVIISLHNCVVISFVLFLF
CTAGE1
20
4216
IKLLRNIPRWTHLLALLRLI
TPTE





[1-20]



[181-200]





 2
2894
VRREKKFAVALSGLIEEKCK
CTAGE2
20
4217
WVLTVAHCLIWRDVIYSVRV
TSP50





[42-61]



[147-166]





 2
2895
HICHTRFTQSGTMKIHILQK
CTCFL
20
4218
STPMFNDINIYDLFVWMHYY
TYR





[401-420]



[163-182]





 2
2896
HISDSFLETNVPLLVLIEAA
CTNNA2
20
4219
PFMCAYPGCNKRYFKLSHLQ
WT1





[387-406]



[322-341]





 2
2897
MLRLLRLALAFYGRTADPAE
CXorf48
20
4220
HDGCERRLNLNSNEFTHQKS
ZNF165





[1-20]



[272-291]





 2
2898
RWCPPPFFYRRRFVRGPRPP
DBPC
 1
4221
VESTPMIMENIQELIRSAQE
ACRBP





[222-241]



[275-294]





 2
2899
VLAFGLLLAAATATFAAAQE
EpCAM
 1
4222
LNWEGVQYLWSFVLENHRRE
ACTL8





[6-25]



[73-92]





 2
2900
WDLMQNIMNDMPIYMYSVCN
EPHA2
 1
4223
DEVSFYANRLTNLVIAMARK
AKAP-3





[52-71]



[122-141]





 2
2901
VPKQMMQMFGLGAISLILVC
FMR1NB
 1
4224
IDDLSFYVNRLSSLVIQMAH
AKAP-4





[180-199]



[214-233]





 2
2902
ACGLYYKLHNINRPLTMKKE
GATA-3
 1
4225
RTKKELASALKSALSGHLET
ANXA2





[341-360]



[78-97]





 2
2903
IQKLKSFISFYSALPGYICS
Glypican-
 1
4226
PSNINQFAAAYFQELTMYRG
CABYR





3



[30-49]





[392-411]









 2
2904
LLVLMAVVLASLIYARRLMK
gp100
 1
4227
SPASELIAIQDSHSLGSSKS
CCDC62





[603-622]



[566-585]





 2
2905
NDLQMSNFVNLKNITYLVLD
HAGE
 1
4228
EGKDPAFTALLTTQLQVQRE
CRISP2





[377-396]



[20-39]





 2
2906
ASGFCYVNDIVLAILELLKY
HDAC1
 1
4229
FAVLFFLWRSFRSVRSRLYV
cTAGE5





[147-166]



[53-72]





 2
2907
GAESGRYYCLNVPLRDGIDD
HDAC3
 1
4230
KKNATMLYTASQAFLRHPDV
CTNNA2





[210-229]



[214-233]





 2
2908
TVTIRNISALSSGLYQCVAS
IGFS11
 1
4231
NEDNIYISNSIYFSIAIVSE
CXorf48





[199-218]



[122-141]





 2
2909
YKLRYRYTLDDLYPMMNALK
JARID1B
 1
4232
SRVLHGYAAQQLPSLLKERE
DCAF12





[730-749]



[64-83]





 2
2910
LHDGLRQVAGPGAAAAHLPR
KAAG1
 1
4233
NLLRGIDSLFSAPMDFRGLP
DKKL1





[21-40]



[63-82]





 2
2911
GTGAVGMACAISILLKDLAD
LDHC
 1
4234
IAERQRVMAAQVALRRQQAQ
DMRT1





[27-46]



[108-127]





 2
2912
STRKLYEKKLVQLLVSPPCA
LEMD1
 1
4235
KRDNRVAYMNPIAMARWRGP
FAM133A





[29-48]



[3-22]





 2
2913
DYFPEIFREASVCMQLLFGI
MAGE-A11
 1
4236
EHLEVKFMNPYNAVLTKKFQ
FBXO39





[258-277]



[90-109]





 2
2914
FQDFFPVIFSKASEYLQLVF
MAGE-A12
 1
4237
ISDTKDYFMSKTLGIGRLKR
FSIP1





[143-162]



[515-534]





 2
2915
PPQSPQGASALPTTISFTCW
MAGE-A4
 1
4238
MSWRGRSTYRPRPRRYVEPP
GAGE-2





[62-81]



[1-20];









GAGE-1









[1-20];









GAGE-8









[1-20]





 2
2916
LKSPQGASAIPTAIDFTLWR
MAGE-A5
 1
4239
SRGKSTYYWPRPRRYVQPPE
GAGE-3





[62-81]



[4-23]





 2
2917
FLWGPRAYAETSKMKVLEFL
MAGE-B2
 1
4240
WRGRSTYYWPRPRRYVQPPE
GAGE-6





[273-292]



[3-22];









GAGE-7









[3-22]





 2
2918
PREDAHFIYGYPKKGHGHSY
MART
 1
4241
ALSRHMSSLSHISPFSHSSH
GATA-3





[2-21]



[396-415]





 2
2919
KFRPGSVVVQLTLAFREGTI
MUC-1
 1
4242
DGGNKHFLRNQPLTFALQLH
gp100





[1093-1112]



[226-245]





 2
2920
MVLPDVFIRCVVFCLTVVCW
NA17-A
 1
4243
KKVNFLDMSLDDIIIYKELE
HOM-TES-85





[1-20]



[21-40]





 2
2921
QYIPHLFSYSGHSPLLPQQA
NR6A1
 1
4244
IQNHDIMHAIISPLRSANTV
KU-CT-1





[224-243]



[435-454]





 2
2922
GQSQGSVLAFTRTFIATPGS
NXF2
 1
4245
PDSRLLQLHITMPFSSPMEA
Lage-1





[509-528]



[83-102]





 2
2923
LLKEFTVSGNILTIRLTAAD
NY-ESO-1
 1
4246
QRNVAIMKSIIPAIVHYSPD
LDHC





[122-141]



[111-130]





 2
2924
EKDVTYSYGLGSCVKIESPC
ODF1
 1
4247
VKVLEYVIKVSARVRFFFPS
MAGE-A1





[183-202]



[277-296]





 2
2925
PPTTGFMKHTPTKLRAPAYS
0DF3
 1
4248
DPTSHSYVLVTSLNLSYDGI
MAGE-A11





[33-52]



[283-302]





 2
2926
SNRIHTSAHVMSMGLLHFYK
ODF4
 1
4249
GREDSVFAHPRKLLMQDLVQ
MAGE-A2





[121-140]



[233-252]





 2
2927
SLGAVVFSRVTNNVVLEAPF
OIP5
 1
4250
FPVIFSKASSSLQLVFGIEL
MAGE-A3





[100-119]



[147-166]





 2
2928
DGPDTKRVCLRNEEQMKLPA
PAGE1
 1
4251
VNARVRIAYPSLREAALLEE
MAGE-A4





[77-96]



[294-313]





 2
2929
GLTLWEMMTLSIPHINLSND
PBK
 1
4252
KKLLTQYFVQENYLEYRQVP
MAGE-A6





[234-253]



[243-262]





 2
2930
NRKYAFKAAHPNMRTYYFCT
PEPP2
 1
4253
RAPEEAIWEALSVMGLYDGR
MAGE-A8





[231- 250]



[218-237]





 2
2931
GKQQTVMAIATKIALQMNCK
PIWIL1
 1
4254
PAQLEFMFQEALKLKVAELV
MAGE-A9





[592-611]



[97-116]





 2
2932
CLRYYNILFRRTFKLLDFEQ
PIWIL3
 1
4255
SSDPPRFQFLWGPRAYAETS
MAGE-B2





[221-240]



[265-284]





 2
2933
YFERKLLFSADVSYKVLRNE
PIWIL4
 1
4256
LIMKTNMLVQFLMEMYKMKK
MAGE-B3





[252-271]



[111-130]





 2
2934
FKFIGLMILLTSAFSAGSGQ
PLAC1
 1
4257
RPVSSFFSYTLASLLQSSHE
MAGE-C1





[4-23]



[777-796]





 2
2935
RHSQTLKAMVQAWPFTCLPL
PRAME
 1
4258
ATVMASESLSVMSSNVSFSE
MAGE-C2





[64-83]



[354-373]





 2
2936
PGSPRSWLLLCPLSHVLFRA
PRSS55
 1
4259
EIYNEYIYDLFVPVSSKFQK
MPHOSPH1





[330-349]



[277-296]





 2
2937
MAGLALQPGTALLCYSCKAQ
PSCA
 1
4260
GVSFFFLSFHISNLQFNSSL
MUC-1





[1-20]



[1039-1058]





 2
2938
QVRGGMVFELANSIVLPFDC
PSMA
 1
4261
EEAFSRASLVSVYNSYPYYP
NKX3.1





[578-597]



[202-221]





 2
2939
AASDNVFSTVPPAFINMAAT
SAGE1
 1
4262
SLLRKKMLPEASLLIAIKPV
NLRP4





[592-611]



[263-282]





 2
2940
EDANSCHSFQSAYLIVDRDE
SCRN1
 1
4263
IERLIYLYHKFHQLKVSNEE
NR6A1





[145-164]



[369-388]





 2
2941
LWTWWINFLFAAVVAWCTLI
SLCO6A1
 1
4264
ADKDLYVAEALSTLESWRSR
ODF2





[311-330]



[428-447]





 2
2942
QFIPSTMAAAAASGLSPLQL
SOX-6
 1
4265
NSPLPFQWRITHSFRWMAQV
ODF4





[306-325]



[63-82]





 2
2943
KGIVLVALADGTLAIFHRGV
SPAG9
 1
4266
MGFLARLIYARRPMIYVESS
PAGE1





[1010-1029]



[1-20]





 2
2944
MIITTWIVYILARKGVGLPF
SPATA19
 1
4267
GPDMEAFQQELALLKIEDEP
PAGE2





[1-20]



[65-84]





 2
2945
DSILRAPYVTCQPFWRKEME
SPO11
 1
4268
RGDGQEAPDVVAFVAPGESQ
PAGE4





[340-359]



[12-31]





 2
2946
FLKDHRISTFKNWPFLEGCA
Survivin
 1
4269
GTDVEAFQQELALLKIEDAP
PAGE5





[13-32]



[84-103]





 2
2947
VTGYKMLYQNDLHLTPTLHL
TAG-1
 1
4270
KNTPGIYTSLVNYNLWIEKV
PRSS55





[944-963]



[279-298]





 2
2948
ECNVVIIAHCNLEPLVSRDP
TAG-2a
 1
4271
SNPIVLRMMNDQLMFLERAF
PSMA





[54-73]



[656-675]





 2
2949
IPVWGLQLLLPLLLPSFIHF
TEX101
 1
4272
GSTGFSSRLAATQDLPFIHQ
RCAS1





[229-248]



[123-142]





 2
2950
EPTFSFFSGPYMVMTNLVWN
TEX14
 1
4273
KDSITVFVSNLPYSMQEPDT
SART3





[247-266]



[701-720]





 2
2951
GLPIILHLFALSTLYFYKFF
TMEM31
 1
4274
KLNQEYSQQFLTLFQQWDLD
SCP3a





[120-139]



[120-139]





 2
2952
KIKKIVHSIVSSFAFGLFGV
TPTE
 1
4275
TSELKTEGVSPYLMLIRLRK
se57-1





[80-99]



[316-335]





 2
2953
IKMRCEFLACWPAFTVLGEA
TRAG-3
 1
4276
KERQLSTMITQLISLREQLL
SOX-6





[30-49]



[187-206]





 2
2954
QNYSSNAYHMSSTMKPNTKC
TSGA10
 1
4277
PDNIPAFAAAYFESLLEKRE
SP17





[651-670]



[32-51]





 2
2955
IWRDIDFAHEAPAFLPWHRL
TYR
 1
4278
KKMKTSESSTILVVRYRRNV
SPAN-Xc





[194-213]



[40-59]





 2
2956
ASSGQARMFPNAPYLPSCLE
WT1
 1
4279
TRIQFIRWSHTRIFQVPSEM
SPATA19





[120-139]



[112-131]





 2
2957
KKIRIQLRSQCATWKVICKS
XAGE-1c
 1
4280
AEIQALTFLSSDYLSRVYLP
SPO11





[102-121]



[368-387]





 3
2958
LRRLELASNHFLYLPRDVLA
5T4
 1
4281
VERPQMTFGRLQGISPKIMP
SSX-2





[212-231]



[94-113]





 3
2959
CDTDYIQYPNYCSFKSQQCL
ACRBP
 1
4282
QRPQMTFGRLQGIFPKIMPK
SSX-3





[477-496]



[95-114]





 3
2960
WNEPQMVFPNIVNYLPCKEN
ACTL8
 1
4283
EFEETAKKVRRAIEQLAAMD
Survivin





[22-41]



[123-142]





 3
2961
RYIENIYHSKPMRWPFFLFI
ADAM2
 1
4284
LFLRSQEAAATVQLFQEEHR
SYCE1





[674-693]



[229-248]





 3
2962
PRCIIILVLQEPTPFRISVT
BAGE-3
 1
4285
ESGQYRANEGTSSIVMEIQK
TAF7L





[59-78]



[377-396]





 3
2963
ECIEDFNTMFSNCYLYNKPG
BRDT
 1
4286
SSEVLEYMNQLSASLKETYA
TDRD1





[93-112]



[285-304]





 3
2964
EACRETYMEFLWQYKSSADK
CDCA1
 1
4287
GKINQNYASIITEAFPKPKD
TEX15





[132-151]



[368-387]





 3
2965
TRRGKSTQPCEYYFRVYHSL
COX632
 1
4288
VSRAAQMAVPSSRILQLSKP
THEG





[47-66]



[255-274]





 3
2966
NQDSLKYYYVCQYCPAGNNM
CRISP2
 1
4289
DLDLTYVTERIIAMSFPSSG
TPTE





[157-176]



[236-255]





 3
2967
ECYQFKFKYTNNGPLMDFIS
CT46
 1
4290
EELQKVQFEKVSALADLSST
TSGA10





[113-132]



[492-511]





 3
2968
VVARRYPASGIHFVLLDMVH
CT47
 1
4291
HNRESYMVPFIPLYRNGDFF
TYR





[109-128]



[420-439]





 3
2969
WELVIRAAVAGFFAVLFLWR
CTAGE2
 1
4292
QTPGINLDLGSGVKVKIIPK
XAGE-1c





[12-31]



[125-144];









XAGE-1









[46-65];









XAGE-1b









[46-65]





 3
2970
CNDCNMAFVTSGELVAHRRY
CTCFL
 1
4293
SRQKKIRIQLRSQVLGREMR
XAGE-1d





[315-334]



[20-39]





 3
2971
SSILCALIVFWKYRRFQRNT
CXorf61
 1
4294
MSWRGRSTYRPRPRRSLQPP
XAGE-2





[9-28]



[1-20]





 3
2972
ADKPVLAIQVLGTVKWFNVR
DBPC
 1
4295
MIWRGRSTYRPRPRRSVPPP
XAGE-3





[85-104]



[1-20]





 3
2973
VLLLLLSTLVIPSAAAPIHD
DKKL1
 2
4296
SHKTPFVSPLLASQSLSIGN
ACRBP





[16-35]



[399-418]





 3
2974
CKKCNLIAERQRVMAAQVAL
DMRT1
 2
4297
RIVEIVVVIDNYLYIRYERN
ADAM29





[102-121]



[198-217]





 3
2975
TNTVEVITSAPGAMLASWAR
DPPA2
 2
4298
STPPSAYGSVKAYTNFDAER
ANXA2





[172-191]



[18-37]





 3
2976
MNDMPIYMYSVCNVMSGDQD
EPHA2
 2
4299
QLLQARLMKEESPVVSWRLE
BAGE-1





[59-78]



[13-32];









BAGE-2









[13-32];









BAGE-3









[13-32];









BAGE-5









[13-32]





 3
2977
IWILLFVCYYLSYYLCSGSS
FMR1NB
 2
4300
AKYSSVYMEAEATALLSDTS
CABYR





[76-95]



[372-391]





 3
2978
YYWPRPRRYVQPPEMIGPMR
GAGE-7
 2
4301
ENHPKSMTMMPALFKENRND
CAGE1





[9-28]



[756-775]





 3
2979
HHPGLSHSYMDAAQYPLPEE
GATA-3
 2
4302
ATAQLQRTPMSALVFPNKIS
CT46





[27-46]



[2-21]





 3
2980
GECCKYSYKGLRSVCVYGGG
HAGE
 2
4303
ALKKLIHAAKLNASLKTLEG
cTAGE5





[334-353]



[312-331];









CTAGE2









[282-301]





 3
2981
ISKVMEMYQPSAVVLQCGAD
HDAC2
 2
4304
NTGEMSSNSTALALVRPSSS
CXorf61





[246-265]



[27-46]





 3
2982
KPHRLALTHSLVLHYGLYKK
HDAC3
 2
4305
GQGSLLFYDIRAQRFLEERL
DCAF12





[25-44]



[358-377]





 3
2983
AVLPCTFTTSAALINLNVIW
IGFS11
 2
4306
TELHPRVAFWIIKLPARRSH
DKKL1





[40-59]



[161-180]





 3
2984
QDMDCVYYNWQYLLCSWKPG
IL13RA2
 2
4307
SDSTYYSSFYQPSLFPYYNN
DMRT1





[141-160]



[205-224]





 3
2985
QCAGEFVITFPRAYHSGFNQ
JARID1B
 2
4308
GKKIEVYLRLHRHAYPEQRQ
DPPA2





[573-592]



[113-132]





 3
2986
GVPVAVHKHALHDGLRQVAG
KAAG1
 2
4309
EKEKDVRSLSKKRKKSYPDD
FAM133A





[11-30]



[168-187]





 3
2987
PVSGPFLVKTGYAFVDCPDE
KOC1
 2
4310
RRQFEFSVDSFQIVLDPMLD
FAM46D





[28-47]



[166-185]





 3
2988
PDFSMYVYEVTKSILPITNI
KU-CT-1
 2
4311
EVMARQLYAVNARLRALEEQ
FATE1





[721-740]



[135-154]





 3
2989
LHITMPFSSPMEAELVRRIL
Lage-1
 2
4312
NLKVNFFFERIMKYERLARI
FBXO39





[90-109]



[282-301]





 3
2990
PRIETILMMYTRNNLNCAEP
LIPI
 2
4313
KLQELSAASPTISSFSPRLE
FSIP1





[60-79]



[326-345]





 3
2991
DPACYEFLWGPRALVETSYV
MAGE-A3
 2
4314
GWESGLVAMESAFHLEKNVN
FTHL17





[265-284]



[93-112]





 3
2992
PDPESVFRAALSKKVADLIH
MAGE-A5
 2
4315
EEMRSHYVAQTGILWLLMNN
GAGE-1





[99-118]



[109-128]





 3
2993
AALSRKVAKLVHFLLLKYRA
MAGE-A6
 2
4316
MNLSRGKSTYYWPRPRRYVQ
GAGE-3





[107-126]



[1-20]





 3
2994
DPAGHSYILVTALGLSCDSM
MAGE-A9
 2
4317
MSWRGRSTYYWPRPRRYVQP
GAGE-6





[169-188]



[1-20];









GAGE-7









[1-20]





 3
2995
ALPKSGLLMSLLVVIFMNGN
MAGE-B6
 2
4318
EKFKKAMTIGDVSLVQELLD
GASZ





[281-300]



[48-67]





 3
2996
KVVEFLAMLKNTVPITFPSS
MAGE-C1
 2
4319
KPHRIRMTHNLLLNYGLYRK
HDAC2





[1083-1102]



[32-51];









HDAC1









[31-50]





 3
2997
AGREHFVYGEPRELLTKVWV
MAGE-C2
 2
4320
MASFRKLTLSEKVPPNHPSR
HOM-TES-85





[260-279]



[1-20]





 3
2998
IGCWYCRRANGYRALMDKSL
MART1
 2
4321
PIRSSYFTFQLQNIVKPLPP
IL13RA2





[43-62]



[222-241]





 3
2999
AYTSVLYFNPWMRIFIQAKR
MORC1
 2
4322
YENDIASMNLQAHLIPGLNL
KOC1





[239-258]



[351-370]





 3
3000
LVALAIVYLIALAVCQCRRK
MUC-1
 2
4323
ATVLTNMAMQEPLRLNIQNH
KU-CT-1





[1170-1189]



[419-438]





 3
3001
GSYRKWMCFSESQVQPTQKQ
NA17-A
 2
4324
GAVLKDFTVSGNLLFMSVRD
Lage-1





[32-51]



[120-139]





 3
3002
SLVSVYNSYPYYPYLYCVGS
NKX3.1
 2
4325
AQFYNDFVNISSIGLTYFQS
LIPI





[209-228]



[409-428]





 3
3003
ESSYVFLHVCIQEFCAALFY
NLRP4
 2
4326
VSARVRFFFPSLREAALREE
MAGE-A1





[445-464]



[286-305]





 3
3004
AFREQYMGMSVPPHYQYIPH
NR6A1
 2
4327
ESVIRNYEDHFPLLFSEASE
MAGE-A10





[209-228]



[162-181]





 3
3005
HTPHKTLMPYASLFQSHSCK
NYD-TSPG
 2
4328
PDLESEFQAAISRKMVELVH
MAGE-A2





[515-534]



[99-118]





 3
3006
LQQLSLLMWITQCFLPVFLA
NY-ESO-1
 2
4329
VVGNWQYFFPVIFSKASSSL
MAGE-A3





[153-172]



[139-158]





 3
3007
CDLHPYPYCLCYSKRSRSCG
ODF1
 2
4330
VVGNWQYFFPVIFSKASDSL
MAGE-A6





[47-66]



[139-158]





 3
3008
RGPIMALYSSPGPKYLIPPT
ODF3
 2
4331
DGREHSVYWKLRKLLTQEWV
MAGE-A8





[16-35]



[235-254]





 3
3009
QCHAVLADSVHLAWDLSRSL
OIP5
 2
4332
AHAETSYEKVINYLVMLNAR
MAGE-A9





[82-101]



[276-295]





 3
3010
QEDRLYLVGNVCILRTQLLQ
PASD1
 2
4333
TEEEIWKFMNVLGAYDGEEH
MAGE-B1





[163-182]



[216-235]





 3
3011
GFTTSILQYENSIMLCTDVS
PIWIL1
 2
4334
TNKKKVSFSSPLILGATIQK
MAGE-B3





[251-270]



[33-52]





 3
3012
CIPFYNVVFRRVMKLLDMKL
PIWIL2
 2
4335
VAARRGTTAMTSAYSRATSS
MAGE-B4





[319-338]



[321-340]





 3
3013
NHVQPHAYQFTYRVTECGIR
PLAC1
 2
4336
PQILNRTSQHLVVAFGVELK
MAGE-B6





[64-83]



[234-253]





 3
3014
LQHLIGLSNLTHVLYPVPLE
PRAME
 2
4337
NPASSFFSSALLSIFQSSPE
MAGE-C1





[427-446]



[130-149]





 3
3015
CWTARIRAVGLLTVISKGCS
PSCA
 2
4338
SSASSTLYLVFSPSSFSTSS
MAGE-C2





[39-58]



[40-59]





 3
3016
SAGCVFYEIASLQPLFPGVN
RAGE-1
 2
4339
RSQAGMFIYSNNRLIKMHEK
MORC1





[187-206]



[363-382]





 3
3017
MAITQFRLFKFCTCLATVFS
RCAS1
 2
4340
YEQANLNMANSIKFSVWVSF
MPHOSPH1





[1-20]



[256-275]





 3
3018
PNNVLSTVQPVIIYLTATGI
SAGE1
 2
4341
PQKRSRAAFSHTQVIELERK
NKX3.1





[312-331]



[123-142]





 3
3019
CKALMRFIMVTSVISLILLV
SLCO6A1
 2
4342
GINNVSFSGQSVLLFEVLFY
NLRP4





[451-470]



[673-692]





 3
3020
RALELHPFSMKPLLRRAMAY
SPAG1
 2
4343
KRASQYSGQLKVLIAENTML
NY-BR-1





[512-531]



[1103-1122]





 3
3021
SAQKFSLILKILSMIYKLVQ
SPO11
 2
4344
WTLSRFFSYLRSWDVDDLLL
NYD-TSPG





[107-126]



[322-341]





 3
3022
TSEKINMISGVLQRYCRFGS
SSX-3
 2
4345
GDGPYSTFLTSSPIRSRSPP
ODF2





[147-166]



[809-828]





 3
3023
MGAPTLPPAWQPFLKDHRIS
Survivin
 2
4346
NDQESSQPVGSVIVQEPTEE
PAGE2





[1-20]



[16-35]





 3
3024
DKKTFYKTADISQMLVCTAD
TAF7L
 2
4347
MSARVRSRSRGRGDGQEAPD
PAGE4





[167-186]



[1-20]





 3
3025
LSNRLLLRLECNVVIIAHCN
TAG-2a
 2
4348
RGNDQESSQPVGPVIVQQPT
PAGE5





[45-64]



[33-52]





 3
3026
ECYQPYYLPGYRYLNSWRPS
TEKT5
 2
4349
NHPVRFLQAQPIVPVQRAAE
PASD1





[34-53]



[599-618]





 3
3027
YWTERFLEDTTLTITVPAVS
THEG
 2
4350
LVGRNFYDPTSAMVLQQHRL
PIWIL2





[172-191]



[338-357]





 3
3028
PYRLPALFELYPEFLLVFKE
TMEM31
 2
4351
TKFKQSRAMNFDFPFKKGSG
RAGE-1





[84-103]



[227-246]





 3
3029
DVKVQFFYSNLPTYYDNCSF
TPTE
 2
4352
QLEPDYFKDMTPTIRKTQKI
RCAS1





[475-494]



[89-108]





 3
3030
ICAGTIIASQWVLTVAHCLI
TSP50
 2
4353
KELEELRAAFTRALEYLKQE
SART3





[137-156]



[440-459]





 3
3031
LFVWMHYYVSMDALLGGSEI
TYR
 2
4354
NNNIEKMITAFEELRVQAEN
SCP-1





[175-194]



[215-234]





 3
3032
GCNKRYFKLSHLQMHSRKHT
WT1
 2
4355
METQQQEIASVRKSLQSMLF
SCP3a





[329-348]



[217-236]





 3
3033
VICKSCISQTPGINLDLGSG
XAGE-1c
 2
4356
EISILQEQISHLQFVIHSQH
se57-1





[117-136]



[235-254]





 3
3034
QILELLVLEQFLTILPGDLQ
ZNF165
 2
4357
KEEVAAVKIQAAFRGHIARE
SP17





[87-106]



[113-132]





 4
3035
HYRCSNHVYYAKRVLCSQPV
ACRBP
 2
4358
EKDPSLVYQHLLYLSKAERF
SPAG1





[108-127]



[863-882]





 4
3036
HVPSVLLADQLQMSLYASGL
ACTL8
 2
4359
NPLQMEEEEFMEIMVEIPAK
SPAN-Xc





[123-142]



[78-97]





 4
3037
CAIVTFMNKTLGTFSIAVAH
ADAM29
 2
4360
EKISYVYMKRNYKAMTKLGF
SSX-1





[313-332]



[44-63]





 4
3038
LNEELDFLVTSYEEIIECAD
CAGE1
 2
4361
EWEKMKASEKIFYVYMKRKY
SSX-2





[697-716]



[36-55]





 4
3039
MARALVQLWAICMLRVALAT
CALR3
 2
4362
EKIVYVYMKRKYEAMTKLGF
SSX-3





[1-20]



[44-63]





 4
3040
EVMYPHLMEGFLPFSNLVTH
CDCA1
 2
4363
VERPQMTFGSLQRIFPKIMP
SSX-4





[72-91]



[94-113]





 4
3041
RVYHSLCPISWVESWNEQIK
COX6B2
 2
4364
EKIIYVYMKRKYEAMTKLGF
SSX-5





[61-80]



[44-63]





 4
3042
SSDPTSWSSAIQSWYDEILD
CRISP2
 2
4365
EPRVEVLINRINEVQQAKKK
SYCE1





[101-120]



[50-69]





 4
3043
DSPSYQKRQRMALLARKQGA
CT45
 2
4366
NLTLKNHFQSVLEQLELQEK
TAF7L





[23-42]



[424-443]





 4
3044
VKRLLAVSVSCITYLRGIFP
CT46
 2
4367
WAERIMFSDLRSLQLKKTME
TDRD1





[30-49]



[246-265]





 4
3045
VISFVLFLFGGNNFIQNFYL
CTAGE1
 2
4368
TLQEIFQAENTIMLLERSIM
TEKT5





[12-31]



[363-382]





 4
3046
SHPYGFPWELVIRAAVAGFF
CTAGE2
 2
4369
TLVELQMMMETIQFIENKKR
TEX15





[5-24]



[1689-1708]





 4
3047
RPDSNLYGFPWELVICAAVV
cTAGE5
 2
4370
VTKKVVASPRIISLAKPKVR
THEG





[31-50]



[326-345]





 4
3048
SPPAPARRHLLVLLLLLSTL
DKKL1
 2
4371
VIMHSRYRAQRFWSWVGQAN
TSP50





[5-24]



[186-205]





 4
3049
SQDSGLVSLSSSSPISNKST
DMRT1
 2
4372
DEDEDMLSYMVSLEVGEEKH
TSPY1





[329-348]



[175-194]





 4
3050
TSAPGAMLASWARIAARAVQ
DPPA2
 2
4373
VAKKGKAVARGARGKKGAAT
VCX





[179-198]



[38-57]





 4
3051
ECVCENYKLAVNCFVNNNRQ
EpCAM
 2
4374
KKKNQQLKVGILHLGSRQKK
XAGE-1





[26-45]



[5-24];









XAGE-1b









[5-24];









XAGE-1d









[5-24];









XAGE-1c









[84-103]





 4
3052
ESTVCLMSYERRQILHLITM
FAM46D
 2
4375
PRRSLQPPELIGAMLEPTDE
XAGE-2





[308-327]



[13-32]





 4
3053
SHYVAQTGILWLLMNNCFLN
GAGE-1
 2
4376
KSFKSPKLAKHAAVFSGDKT
ZNF165





[113-132]



[324-343]





 4
3054
LLKERDITLRHLLTMREDEF
GASZ
 3
4377
IKVKKLLFSKHLPVFTYTDQ
ADAM29





[294-313]



[67-86]





 4
3055
SHISPFSHSSHMLTTPTPMH
GATA-3
 3
4378
SGEKNIFLASFVHEYSRRHP
AFP





[405-424]



[344-363]





 4
3056
ATWPHSVHRLAQSYLKEPMI
HAGE
 3
4379
SEGIMTYANSVVSDMMVSIM
AKAP-3





[428-447]



[282-301]





 4
3057
NVARCWTYETAVALDCEIPN
HDAC2
 3
4380
DQVNIDYLMNRPQNLRLEMT
AKAP-4





[308-327]



[161-180]





 4
3058
NVARCWTYETSLLVEEAISE
HDAC3
 3
4381
RDKVLIRIMVSRSEVDMLKI
ANXA2





[302-321]



[284-303]





 4
3059
RQQSKAHRHRHARGYSRCRS
HOM-TES-85
 3
4382
QARLMKEESPVVSWRLEPED
BAGE-1





[62-81]



[16-35];









BAGE-5









[16-35];









BAGE-2









[16-35];









BAGE-3









[16-35]





 4
3060
APLLLLSLHGVAASLEVSES
IGFS11
 3
4383
QADIEVMSTVHISSVYNDVP
CABYR





[9-28]



[282-301]





 4
3061
LAIGCLYTFLISTTFGCTSS
IL13RA2
 3
4384
SRLEKLLTQVRNLQFMSENE
CAGE1





[6-25]



[507-526]





 4
3062
AVHKHALHDGLRQVAGPGAA
KAAG1
 3
4385
QTTQNGRFYAISARFKPFSN
CALR3





[15-34]



[67-86]





 4
3063
HVKKGIFYHRALLFKALADR
KU-CT-1
 3
4386
TVFGEKSVITLSSIFTKDLV
CCDC62





[789-808]



[385-404]





 4
3064
WREEGFPVGLKLAVLGIFII
LEMD1
 3
4387
GQKYEKIFEMLEGVQGPTAV
CT45





[147-166]



[138-157]





 4
3065
PEEVIWEALNMMGLYDGMEH
MAGE-A10
 3
4388
GNNFIQNFYLPQNYIDQFLL
CTAGE1





[242-261]



[22-41]





 4
3066
KIIDLVHLLLRKYRVKGLIT
MAGE-A11
 3
4389
TERLLKMKDWAAMLGEDITD
cTAGE5





[225-244]



[268-287]





 4
3067
PACYEFLWGPRALVETSYVK
MAGE-A12
 3
4390
SVKRGTMVRAARALLSAVTR
CTNNA2





[266-285]



[117-136]





 4
3068
DPIGHLYIFATCLGLSYDGL
MAGE-A3
 3
4391
RNGVIDYTIFFTLDSVKLPD
CXorf48





[170-189]



[188-207]





 4
3069
PACYEFLWGPRALIETSYVK
MAGE-A6
 3
4392
VKRSLVYYLKNREVALQNET
DCAF12





[266-285];



[42-61]





MAGE-A2









[266-285]









 4
3070
RVQAAAMLNDGSSAMGRKCS
MAGE-B3
 3
4393
PGQTLIYYVDEKAPEFSMQG
EpCAM





[317-336]



[244-263]





 4
3071
KCVRREYKPYFPQILNRTSQ
MAGE-B6
 3
4394
NRVAYMNPIAMARWRGPTQS
FAM133A





[223-242]



[6-25]





 4
3072
HSYTTAEEAAGIGILTVILG
MART1
 3
4395
KNLELKFVSSLRRQFEFSVD
FAM46D





[19-38]



[155-174]





 4
3073
GKGKICMIVNISQCYLAYDE
MPHOSPH1
 3
4396
GENQEHLVIAEMMELGSRSR
FATE1





[446-465]



[26-45]





 4
3074
WSDNKIFRDRFLYTFYFCCR
NLRP4
 3
4397
SPQFKKTMSTFHNLVSLNLN
FBXO39





[172-191]



[213-232]





 4
3075
RFTPVDFHYVRNRACFFVQD
NXF2
 3
4398
RPGSRSSNASLEVLSTEPGS
FSIP1





[151-170]



[21-40]





 4
3076
ILSVVAKLLSHGAVIEVHNK
NY-BR-1
 3
4399
DDVALENFFRYFLRLSDDKM
FTHL17





[95-114]



[45-64]





 4
3077
AEDWNLYWRTSSFRMTEHNS
NYD-TSPG
 3
4400
EKDHIFSSYTAFGDLEVFLH
GASZ





[118-137]



[265-284]





 4
3078
AADHRQLQLSISSCLQQLSL
NY-ESO-1
 3
4401
EQLLQSASMELKFLIIQNAA
Glypican-





[139-158]



3









[90-109]





 4
3079
LGSKKYSYMNICKEFSLPPC
ODF1
 3
4402
TLIGANASFSIALNFPGSQK
gp100





[161-180]



[76-95]





 4
3080
ENGKVTFIFSTLMLFPINIW
ODF4
 3
4403
ATQRDLIATQRDLIVTQRDL
HOM-TES-85





[148-167]



[261-280]





 4
3081
GDGPDVREGIMPTFDLTKVL
PAGE2
 3
4404
WAIGLSVMDLVGSILKNLRR
LDHC





[85-104]



[250-269]





 4
3082
NEFPVVFSGLFSSHLCADFA
PASD1
 3
4405
SEELNIILQGNIILSTEKSK
LEMD1





[139-158]



[67-86]





 4
3083
ILTIPMHFWALFYPKRAMDQ
PIWIL2
 3
4406
RALAETSYVKVLEYVIKVSA
MAGE-A1





[598-617]



[269-288]





 4
3084
YVTSVLQYENSITLCADVSH
PIWIL3
 3
4407
DGMEHLIYGEPRKLLTQDWV
MAGE-A10





[267-286]



[257-276]





 4
3085
PAPCQYAHKLTFLVAQSIHK
PIWIL4
 3
4408
YAGREHFLFGEPKRLLTQNW
MAGE-A11





[820-839]



[344-363]





 4
3086
MVTVHPFMLNNDVCVHFHEL
PLAC1
 3
4409
PDLETSFQVALSRKMAELVH
MAGE-A12





[36-55]



[99-118]





 4
3087
EKEEQYIAQFTSQFLSLQCL
PRAME
 3
4410
PQGASSFSTTINYTLWRQSD
MAGE-A2





[279-298]



[65-84]





 4
3088
SILNKWWILTAAHCLYSEEL
PRSS55
 3
4411
ETSYVKVLEHVVRVNARVRI
MAGE-A4





[96-115]



[281-300];









MAGE-A8









[283-302]





 4
3089
LQPAAAILALLPALGLLLWG
PSCA
 3
4412
EALDEKVAELVRFLLRKYQI
MAGE-A8





[91-110]



[110-129]





 4
3090
VDCTPLMYSLVHNLTKELKS
PSMA
 3
4413
NSDPPRYQFLWGPRAYAETT
MAGE-B1





[464-483]



[262-281]





 4
3091
ALICELMDMNIYELIRGRRY
RAGE-1
 3
4414
FPEILKKASEGLSVVFGLEL
MAGE-B2





[79-98]



[149-168]





 4
3092
FKFCTCLATVFSFLKRLICR
RCAS1
 3
4415
YDGKKHFIFGEPRKLITQDL
MAGE-B3





[9-28]



[233-252]





 4
3093
GDPSCVIMQNWARIEARLCN
SART3
 3
4416
SSSVLRDTASSSLAFGIPQE
MAGE-B4





[468-487]



[42-61]





 4
3094
LLVFIIFVRCNPVQFAGINE
SLCO6A1
 3
4417
ADIKKQAEIAHLYIASLPDP
MPHOSPH1





[468-487]



[687-706]





 4
3095
NKECAIYTNRALCYLKLCQF
SPAG1
 3
4418
ASPQETQSAFSIPVSTLSSS
NXF2





[654-673]



[544-563]





 4
3096
IRWSHTRIFQVPSEMTEDIM
SPATA19
 3
4419
HHIHEQIMEYIRKLSKNHQN
NY-BR-1





[117-136]



[195-214]





 4
3097
SWENIKFEDSVGLQMVSHCT
SPO11
 3
4420
STNRSMQNYVQFLKSSYANV
0DF2





[77-96]



[788-807]





 4
3098
AMTKLGFKVTLPPFMCNKQA
SSX-1
 3
4421
LGQDGRLLSSTLSLSSNRSL
0DF4





[57-76]



[39-58]





 4
3099
AMTKLGFKATLPPFMCNKRA
SSX-2
 3
4422
QAVPAFQGPDMEAFQQELAL
PAGE2





[57-76]



[58-77]





 4
3100
AMTKLGFKATLPPFMRNKRV
SSX-5
 3
4423
EDPKDRPSAAHIVEALETDV
PBK





[57-76]



[303-322]





 4
3101
KHSSGCAFLSVKKQFEELTL
Survivin
 3
4424
GWEEAYTFEGARYYINHNER
PEPP2





[79-98]



[61-80]





 4
3102
KAEELLAAAAQRHQQLQQKC
SYCE1
 3
4425
QKSIAGFVASTNAELTKWYS
PIWIL3





[249-268]



[663-682]





 4
3103
PASASLFQDTCAGCASLLHG
TAG-2a
 3
4426
YIPDLASRALRIALLYSHSE
PIWIL4





[74-93]



[130-149]





 4
3104
WYRASVLAYASEESVLVGYV
TDRD1
 3
4427
DFKRANMDNDIALLLLASPI
PRSS55





[558-577]



[147-166]





 4
3105
LRPPTILPTLRSALFSRYSP
TEKT5
 3
4428
QSGAAVVHEIVRSFGTLKKE
PSMA





[72-91]



[389-408]





 4
3106
VEVKGCTAMIGCRLMSGILA
TEX101
 3
4429
KNPDFKVFRYSTSLEKHKLF
SART3





[180-199]



[785-804]





 4
3107
IYSFGFGKAMPWFQFYLTGA
TEX14
 3
4430
ASLEIELSNLKAELLSVKKQ
SCP-1





[205-224]



[747-766]





 4
3108
CGKGYAWISPCKMSLHFCLC
THEG
 3
4431
AKRKRLEMYTKASLKTSNQK
SCP3a





[148-167]



[87-106]





 4
3109
WPTEWIFNPYRLPALFELYP
TMEM31
 3
4432
DSEFFLTTASGVSVLPQNRS
SCRN1





[76-95]



[268-287]





 4
3110
LFIKHFIIYSIPRYVRDLKI
TPTE
 3
4433
MEDNSALYESTSAHIIEETE
se57-1





[414-433]



[16-35]





 4
3111
NGQALALPAPSRTLLLALPL
TSP50
 3
4434
SEPHIKRPMNAFMVWAKDER
SOX-6





[358-377]



[617-636]





 4
3112
LLGAAMVGAVLTALLAGLVS
TYR
 3
4435
SSEEDKEKEEVAAVKIQAAF
SP17





[478-497]



[106-125]





 4
3113
EEQCLSAFTVHFSGQFTGTA
WT1
 3
4436
REEAQKMSSLLPTMWLGAQN
SPAG9





[85-104]



[959-978]





 4
3114
WKVICKSCISQTPGINLDLG
XAGE-1
 3
4437
ESSTILVVRYRRNVKRTSPE
SPAN-Xc





[36-55];



[46-65]





XAGE-1b









[36-55]









 4
3115
LHLGSRQKKIRIQLRSQCAT
XAGE-1c
 3
4438
KGVGLPFLPITSSDIDVVES
SPATA19





[95-114]



[14-33]





 4
3116
CEGGTDVKGKILPKAEHFKM
XAGE-2
 3
4439
WKKMKYSEKISYVYMKRNYK
SSX-1





[82-101]



[37-56]





 4
3117
SECGKTFRVSSHLIRHFRIH
ZNF165
 3
4440
EKIFYVYMKRKYEAMTKLGF
SSX-2





[431-450]



[44-63]





 5
3118
PTEYERFFALLTPTWKAETT
ACRBP
 3
4441
EWEKMKSSEKIVYVYMKLNY
SSX-4





[40-59]



[36-55]





 5
3119
KMLEILFELLHVPSVLLADQ
ACTL8
 3
4442
EWEKMKASEKIIYVYMKRKY
SSX-5





[113-132]



[36-55]





 5
3120
ESLAVILAQLLSLSMGITYD
ADAM2
 3
4443
KNKQRQLRLAFEEQLEDLMG
SYCE1





[305-324]



[148-167]





 5
3121
NITPRMQHDTSHLFTTLGLR
ADAM29
 3
4444
GADAQYFVYSNESVRPYTPF
TAG-1





[276-295]



[765-784]





 5
3122
EPTAFRISVTSSCFVQNTLT
BAGE-2
 3
4445
GDFYVQLYSSEVLEYMNQLS
TDRD1





[69-88]



[277-296]





 5
3123
EPTPFRISVTSSCFVQNTLT
BAGE-3
 3
4446
LSQFWEFSETTASTVSTTLH
TEX101





[69-88]



[120-139]





 5
3124
PSQNQIRNCYQNFLDYHRCL
COX6B2
 3
4447
KSDIYSFSMIMQEILTDDIP
TEX14





[24-43]



[436-455]





 5
3125
MALLPVLFLVTVLLPSLPAE
CRISP2
 3
4448
LKKSKYFISTYIDFVPYIAS
TEX15





[1-20]



[2172-2191]





 5
3126
TQLVKWMLGCYDALQKKYLR
CT46
 3
4449
DQVDWSRLLRDAGLVKMSRK
TRAG-3





[76-95]



[52-71]





 5
3127
MVHSLLHRLSHNDHILIENR
CT47
 3
4450
MANERISMQNLEALLVANRD
TSGA10





[126-145]



[557-576]





 5
3128
LTSFPTFTSVGVLIVLVLCS
CTAGE1
 3
4451
LVNITEYRASHSTPIEWYPD
TSPY1





[41-60]



[221-240]





 5
3129
RYCSAVFHERYALIQHQKTH
CTCFL
 3
4452
AVRRGRRGKKGAATKMAAVT
VCX





[461-480]



[44-63]





 5
3130
AKNLMNAVVLTVKASYVAST
CTNNA2
 3
4453
QLKVGILHLGSRQKKIRIQL
XAGE-1d





[869-888]



[10-29];









XAGE-1









[10-29];









XAGE-1b









[10-29];









XAGE-1c









[89-108]





 5
3131
VMVESIQFCFIWRAISITPV
CXorf48
 3
4454
TPDQKREDDQGAAEIQVPDL
XAGE-2





[220-239]



[47-66]





 5
3132
MSEVEAAAGATAVPAATVPA
DBPC
 4
4455
EVRAGAFEHLPSLRQLDLSH
5T4





[1-20]



[132-151]





 5
3133
HAMSSQYRMHSYYPPPSYLG
DMRT1
 4
4456
PHNFRVYSYSGTGIMKPLDQ
ADAM2





[282-301]



[67-86]





 5
3134
AVVAGIVVLVISRKKRMAKY
EpCAM
 4
4457
QKLGEYYLQNAFLVAYTKKA
AFP





[278-297]



[420-439]





 5
3135
AARACFALLWGCALAAAAAA
EPHA2
 4
4458
DLRSVFFNFIRNLLSETIFK
AKAP-3





[5-24]



[589-608]





 5
3136
GSVASYILASHNGISYKDLD
FAM46D
 4
4459
LDSQKMDMSNIVLMLIQKLL
AKAP-4





[65-84]



[619-638]





 5
3137
EQGATWRHRETLIIAVLVSA
FATE1
 4
4460
QNKPLYFADRLYDSMKGKGT
ANXA2





[153-172]



[264-283]





 5
3138
SCRKLFYFKIWAFLDVSFVE
FBXO39
 4
4461
TALDVHFVSTLEPLSNAVKR
BAGE-2





[364-383]



[37-56];









BAGE-3









[37-56]





 5
3139
LEALLNFFFPTTCNLRENQV
FMR1NB
 4
4462
SEILKEMLAKKHFSYAWPFY
BRDT





[122-141]



[277-296]





 5
3140
AAINSHITLELYTSYLYLSM
FTHL17
 4
4463
AYFQELTMYRGNTTMDIKDL
CABYR





[19-38]



[39-58]





 5
3141
GPVTAQVVLQAAIPLTSCGS
gp100
 4
4464
NSPTSLLIYKDAPAFNEKAS
CCDC62





[284-303]



[600-619]





 5
3142
NVARCWTYETAVALDTEIPN
HDAC1
 4
4465
EEGNEAANFDLAVVARRYPA
CT47





[307-326]



[97-116]





 5
3143
ASGFCYVNDIVIGILELLKY
HDAC3
 4
4466
SEAVELQDMSLLSIQQQEGV
CTCFL





[141-160]



[89-108]





 5
3144
KPGIGVLLDTNYNLFYWYEG
IL13RA2
 4
4467
SSDSSMLDSATSLIQAAKNL
CTNNA2





[158-177]



[853-872]





 5
3145
LDLLKSEYPVIQLLALKTLG
KU-CT-1
 4
4468
SNSIYFSIAIVSEDFVPYKG
CXorf48





[197-216]



[129-148]





 5
3146
AQGDGCRGVAFNVMFSAPHI
Lage-1
 4
4469
PHSIARQKRILVNLSMVENK
CXorf61





[191-210]



[71-90]





 5
3147
CTYKIQRLMLKSLTYPERPP
LIPI
 4
4470
DTKEDVFVHQTAIKRNNPRK
DBPC





[436-455]



[114-133]





 5
3148
GLVCVQAATSSSSPLVLGTL
MAGE-A1
 4
4471
GSEWSVYAVGSQAHVSFLDP
DCAF12





[24-43]



[305-324]





 5
3149
AAISRKMVELVHFLLLKYRA
MAGE-A2
 4
4472
GIMGQFSHHNIIRLEGVISK
EPHA2





[107-126]



[665-684]





 5
3150
KTGLLIIVLGTIAMEGDSAS
MAGE-A4
 4
4473
RGPTQSVGPTIQDYLNRPRP
FAM133A





[199-218]



[20-39]





 5
3151
GGASSSISVYYTLWSQFDEG
MAGE-A9
 4
4474
SAKRVWNMTATRPKKMGSQL
FATE1





[63-82]



[63-82]





 5
3152
SWDFPRRKLLMPLLGVIFLN
MAGE-B2
 4
4475
WRNSIRSSFISSLSFFLKKM
FBXO39





[195-214]



[141-160]





 5
3153
PGLYPHLYEDALIDEVERAL
MAGE-B6
 4
4476
RESLKMRVSKPFGMLMLSIW
FMR1NB





[384-403]



[58-77]





 5
3154
GIGILTVILGVLLLIGCWYC
MART1
 4
4477
EEEDTFSSVFHTQIPPEEYE
FSIP1





[29-48]



[191-210]





 5
3155
NSYPYYPYLYCVGSWSPAFW
NKX3.1
 4
4478
LSMAFYFNRDDVALENFFRY
FTHL17





[215-234]



[36-55]





 5
3156
AIFYCLFEMQDPAFVKQAVN
NLRP4
 4
4479
SMELKFLIIQNAAVFQEAFE
Glypican-





[552-571]



3









[97-116]





 5
3157
KDYTCLLSSTWQELILLSSL
NR6A1
 4
4480
AHSSSAFTITDQVPFSVSVS
gp100





[314-333]



[201-220





 5
3158
IDIILNRRNCMAATLKIIER
NXF2
 4
4481
GAGKGKYYAVNYPLRDGIDD
HDAC1





[248-267]



[215-234]





 5
3159
MYGTSLYQFIPLTFVMPNDY
NYD-TSPG
 4
4482
RGHYERILNPYNLFLSGDSL
JARID1B





[169-188]



[172-191]





 5
3160
KRELAKLARTTNRILASSCC
ODF1
 4
4483
QHIKQLSRFAGASIKIAPAE
KOC1





[102-121]



[426-445]





 5
3161
SSPGPKYLIPPTTGFMKHTP
ODF3
 4
4484
AELVRRILSRDAAPLPRPGA
Lage-1





[24-43]



[102-121]





 5
3162
THSFRWMAQVLASELSLVAF
ODF4
 4
4485
NLDSARFRYLIGEKLGVHPT
LDHC





[73-92]



[164-183]





 5
3163
LRGHFCLSSDKMVCYLLKTK
OIP5
 4
4486
PDKTMMDGSFSFKLLNQLGM
LIPI





[158-177]



[367-386]





 5
3164
GNVCILRTQLLQQLYTSKAV
PASD1
 4
4487
FPEIFGKASESLQLVFGIDV
MAGE-A1





[171-190]



[140-159]





 5
3165
LWKKRWFVLSDLCLFYYRDE
PEPP2
 4
4488
QDFFPVIFSKASEYLQLVFG
MAGE-A2





[186-205]



[144-163]





 5
3166
VTGNVTAFDGSILYLPVKLQ
PIWIL2
 4
4489
NKVDELAHFLLRKYRAKELV
MAGE-A4





[267-286]



[112-131]





 5
3167
RELPLLNAMPLHSWLILYSR
PIWIL3
 4
4490
TTEEQEAVSSSSPLVPGTLG
MAGE-A5





[497-516]



[32-51]





 5
3168
DVSYKVLRNETVLEFMTALC
PIWIL4
 4
4491
EEQKAASSSSTLIMGTLEEV
MAGE-A8





[262-281]



[34-53]





 5
3169
GTPSKFVIPVSCAAPQKSPW
PLAC1
 4
4492
VIKNYKRYFPVIFGKASEFM
MAGE-A9





[104-123]



[138-157]





 5
3170
RAVGLLTVISKGCSLNCVDD
PSCA
 4
4493
DNPSGHTYTLVSKLNLTNDG
MAGE-B1





[45-64]



[168-187]





 5
3171
PSNALSTVLPGLAYLATADM
SAGE1
 4
4494
PLTRKSGSLVQFLLYKYKIK
MAGE-B2





[359-378]



[110-129]





 5
3172
GNAKYANMWLEYYNLERAHG
SART3
 4
4495
SLTRKTKMLVQFLLYKYKMK
MAGE-B4





[503-522]



[108-127]





 5
3173
VPDKLRSLALGVSYVILRIF
SLCO6A1
 4
4496
PVSPSFSSTLVSLFQSSPER
MAGE-C1





[607-626]



[271-290]





 5
3174
MSIPFSNTHYRIPQGFGNLL
SP17
 4
4497
VFSPSSFSTSSSLILGGPEE
MAGE-C2





[1-20]



[49-68]





 5
3175
IEQVARSISRLTDVSAQDFS
SPATA19
 4
4498
DDPQKFAMELSIIYKYSPFK
MORC1





[140-159]



[159-178]





 5
3176
MCIYKYGSMSMSFEAHHLTV
SPO11
 4
4499
STEKNAVSMTSSVLSSHSPG
MUC-1





[286-305]



[48-67]





 5
3177
EHAWTHRLRERKQLVIYEEI
SSX-2
 4
4500
VQPTQKQQKHRLFHWQANSE
NA17-A





[161-180]



[45-64]





 5
3178
HKDLWDFHMPERLAKEICAL
SYCE1
 4
4501
IWFQNRRYKTKRKQLSSELG
NKX3.1





[169-188]



[170-189]





 5
3179
PDEVENQFILRLPLEHACTV
TAF7L
 4
4502
MKAINFLNQDIRGLTSASQL
NR6A1





[95-114]



[392-411]





 5
3180
AQDAGVYQCLASNPVGTVVS
TAG-1
 4
4503
EDSERLMEQQGALLKRLAEA
ODF2





[103-122]



[281-300]





 5
3181
CNLEPLVSRDPPASASLFQD
TAG-2a
 4
4504
EKSTKYVFDSAPSHSISART
ODF3





[63-82]



[109-128]





 5
3182
TIQANVLEIISPNLFYALPK
TDRD1
 4
4505
SRVTNNVVLEAPFLVGIEGS
OIP5





[941-960]



[107-126]





 5
3183
EEAITIVQHSSPPGLIVTSY
TEX101
 4
4506
VYQKRLMDEAKILKSLHHPN
PBK





[86-105]



[77-96]





 5
3184
LLKAGVISAQNIYSFGFGKA
TEX14
 4
4507
PTPESSTIASYVTLRKTKKM
PEPP2





[194-213]



[856-875]





 5
3185
TSSDRTINLLEVLPWPTEWI
TMEM31
 4
4508
QWALYQYHIDYNPLMEARRL
PIWIL1





[62-81]



[126-145]





 5
3186
YDNCSFYFWLHTSFIENNRL
TPTE
 4
4509
RQFVEFTIKEAARFKKVVLI
SAGE1





[489-508]



[860-879]





 5
3187
VQELRRQNYSSNAYHMSSTM
TSGA10
 4
4510
DKKTQTFLLETPEIYWKLDS
SCP-1





[645-664]



[793-812]





 5
3188
ECDNFYHNFTKIPTLVQIIK
TSP50
 4
4511
QNEFKKEMAMLQKKIMMETQ
SCP3a





[272-291]



[201-220]





 5
3189
ECMTWNQMNLGATLKGVAAG
WT1
 4
4512
RSIFKPFIFVDDVKLVPKTQ
SCRN1





[234-253]



[302-321]





 5
3190
NECGKAFRHSSKLARHQRIH
ZNF165
 4
4513
LQFVIHSQHQNLRSVIQEME
se57-1





[347-366]



[246-265]





 6
3191
LYGGLHMDFWCARLATKGCE
ACABP
 4
4514
GSSLDILSSLNSPALFGDQD
SOX-6





[433-452]



[475-494]





 6
3192
VVDSGYGLTRVQPFHQGRPL
ACTL8
 4
4515
GSKVEDRFYNNHAFEEQEPP
SP17





[147-166]



[61-80]





 6
3193
KTSYLVLRPHDVAFLLVYRE
ADAM2
 4
4516
RDAVKFFVAVPGQVISPQSS
SPAG9





[254-273]



[1223-1242]





 6
3194
FTTLGLRGLSGIGAFRGMCT
ADAM29
 4
4517
TILVVRYRRNVKRTSPEELL
SPAN-Xc





[289-308]



[49-68]





 6
3195
ISLADLATIFFAQFVQEATY
AFP
 4
4518
EWEKMKVSEKIVYVYMKRKY
SSX-3





[41-60]



[36-55]





 6
3196
FLNLVQCIQNKPLYFADRLY
ANXA2
 4
4519
TFGSLQAIFPKIMPKKPAEE
SSX-4





[256-275]



[100-119]





 6
3197
ALQIVYGIRLEHFYMMPVNS
CDCA1
 4
4520
QRQKDLIMKVENLTLKNHFQ
TAF7L





[52-71]



[413-432]





 6
3198
KSPNAVVGHYTQLVWYSTYQ
CRISP2
 4
4521
AEDTALFAPSIKARFPAETY
TAG-1





[128-147]



[231-250]





 6
3199
DKTEKVAVDPETVFKRPREC
CT45
 4
4522
YIEIVMVSETIHFLKNSIAK
TEX15





[3-22]



[2062-2081]





 6
3200
NFYLPQNYIDQFLLTSFPTF
CTAGE1
 4
4523
MWMGLIQLVEGVKRKDQGFL
TAAG-3





[28-47]



[1-20]





 6
3201
PQRQDRFYSNCARLSGPAEL
CTAGE2
 4
4524
LNAEASYKSQISTLHKSVVK
TSGA10





[590-609]



[470-489]





 6
3202
AAVVGFFAVLFFLWRSFRSV
cTAGE5
 4
4525
GEEAVLLLDDIMAEVEVVAE
TSPY1





[47-66]



[60-79]





 6
3203
CHLCLKTFRTVTLLRNHVNT
CTCFL
 5
4526
NSLVSLTYVSFRNLTHLESL
5T4





[287-306]



[244-263]





 6
3204
VFWKYRRFQRNTGEMSSNST
CXorf61
 5
4527
NFGTATFQAITVTKLSQKFT
AFP





[17-36]



[229-248]





 6
3205
VSRVPVYAHITHKALKDIPK
DCAF12
 5
4528
SVVSDMMVSIMKTLKIQVKD
AKAP-3





[226-245]



[291-310]





 6
3206
CPDCAKRNKKMMKRLMTVEK
DPPA2
 5
4529
SDLQKYALGFQHALSPSTST
AKAP-4





[279-298]



[116-135]





 6
3207
DVWSFGIVMWEVMTYGERPY
EPHA2
 5
4530
RKYGKSLYYYIQQDTKGDYQ
ANXA2





[799-818]



[309-328]





 6
3208
IKNLERYMCSRFFIDFPHIE
FAM46D
 5
4531
LKDLWKHSFSWPFQAPVDAV
BADT





[255-274]



[40-59]





 6
3209
SMRPTLIDLLPTFRHTLQKL
FBXO39
 5
4532
DQSDVLMVDVATSMPVVIKE
CABYR





[324-343]



[189-208]





 6
3210
SSGTTSFKCFAPFRDVPKQM
FMR1NB
 5
4533
KITKQQVFIDVINKLKENVE
CAGE1





[165-184]



[343-362]





 6
3211
DPNVACRRLMTPIMYAARDG
GASZ
 5
4534
FSNKGKTLVIQYTVKHEQKM
CALR3





[141-160]



[84-103]





 6
3212
ADQPRWVSHHHPAVLNGQHP
GATA-3
 5
4535
ELHKRTEIIRSLTKKVKALE
CCDC62





[5-24]



[78-97]





 6
3213
HSPLKLLTSMAISVVCFFFL
Glypican-
 5
4536
AKRTSRFLSGIINFIHFREA
CDCA1





3



[114-133]





[559-578]









 6
3214
SSGTLISRALVVTHTYLEPG
gp100
 5
4537
AGDSLIAGSAMSKAKKLMTG
CT45





[265-284]



[42-61]





 6
3215
MSKVMEMFQPSAVVLQCGSD
HDAC1
 5
4538
PSSETRAFLSPPTLLEGPLR
cTAGE5





[245-264]



[527-546]





 6
3216
GVEEAFYTTDRVMTVSFHKY
HDAC2
 5
4539
DLSRDILNNFPHSIARQKRI
CXorf61





[183-202];



[61-80]





HDAC1









[182-201]









 6
3217
GVQEAFYLTDRVMTVSFHKY
HDAC3
 5
4540
EVRLQNETSYSRVLHGYAAQ
DCAF12





[176-195]



[54-73]





 6
3218
PPHTHSYTISHATLERIGAV
IGFS11
 5
4541
GLTGLQSLLQGFSRLFLKGN
DKKL1





[398-417]



[44-63]





 6
3219
FQLQNIVKPLPPVYLTFTRE
IL13RA2
 5
4542
VDDEESVILTLVPVKDDANM
DPPA2





[230-249]



[18-37]





 6
3220
SETETVHLFIPALSVGAIIG
KOC1
 5
4543
KQLENKKTGSKALAEFEEKM
FAM133A





[403-422]



[46-65]





 6
3221
HEFASLCLANMSAEYTSKVQ
KU-CT-1
 5
4544
PVFPQLSRSIISKLLNESET
FSIP1





[126-145]



[439-458]





 6
3222
GTYPFCTYYFVLSIIVPDKT
LIPI
 5
4545
GWEIGYLDRTSQKLKRLLPI
GASZ





[351-370]



[24-43]





 6
3223
CILESLFRAVITKKVADLVG
MAGE-A1
 5
4546
FPKNSSFNPAALSRHMSSLS
GATA-3





[92-111]



[386-405]





 6
3224
EKVTDLVQFLLFKYQMKEPI
MAGE-A10
 5
4547
KHINQLLRTMSMPKGRVLDK
Glypican-





[136-155]



3









[467-486]





 6
3225
EVVEVVRIGHLYILVTCLGL
MAGE-A12
 5
4548
DRQTVMTSATWPHSVHRLAQ
HAGE





[165-184]



[420-439]





 6
3226
SRKVAELVHFLLLKYRAREP
MAGE-A3
 5
4549
GAGKGKYYAVNFPMRDGIDD
HDAC2





[110-129]



[216-235]





 6
3227
EFLWGPRALAETSYVKVLEH
MAGE-A4
 5
4550
PNHPSRKKVNFLDMSLDDII
HOM-TES-85





[271-290];



[15-34]





MAGE-A8









[273-292]









 6
3228
GLDTQEEALGLVGVQAATTE
MAGE-A5
 5
4551
SSDNNTLTSSNAYNSRYWSN
IGFS11





[15-34]



[305-324]





 6
3229
EALKLKVAELVHFLLHKYRV
MAGE-A9
 5
4552
TLDDLYPMMNALKLRAESYN
JARID1B





[106-125]



[737-756]





 6
3230
EVNPTTHSYILVSMLGPNDG
MAGE-B4
 5
4553
EAQDIKFTEEIPLKILAHNN
KOC1





[68-87]



[267-286]





 6
3231
DPDDSYVFVNTLDLTSEGCL
MAGE-C1
 5
4554
TSGKDYSVSANSRIVIVTAG
LDHC





[969-988]



[78-97]





 6
3232
EKNCEPVVPNAPPAYEKLSA
MART1
 5
4555
PSKGRRWAARAPSTRITYGT
LEMD1





[90-109]



[111-130]





 6
3233
IELERKFSHQKYLSAPERAH
NKX3.1
 5
4556
DDTTAMASASSSATGSFSYP
MAGE-A10





[137-156]



[349-368]





 6
3234
LIEDGYAVTQAELFALLCRL
NR6A1
 5
4557
EEQEAAFFSSTLNVGTLEEL
MAGE-A11





[271-290]



[144-163]





 6
3235
LKPLVFRVDETTPAVVQSVL
NYD-
 5
4558
DGREDSVFAHPRKLLTQDLV
MAGE-A12





TSPG



[232-251]





[84-103]









 6
3236
NILTIRLTAADHRQLQLSIS
NY-ESO-1
 5
4559
PDLESEFQAALSRKVAELVH
MAGE-A3





[131-150]



[99-118]





 6
3237
VDRELRQLRCIDEFSTRCLC
ODF1
 5
4560
AIPTAIDFTLWRQSIKGSSN
MAGE-A5





[18-37]



[70-89]





 6
3238
YDKKIDSLMNAVGCLKSEVK
ODF2
 5
4561
FPVIFSKASDSLQLVFGIEL
MAGE-A6





[123-142]



[147-166]





 6
3239
DSTPGPAAYMLPMVMGPNTV
ODF3
 5
4562
RTTATTFRARSRAPFSRSSH
MAGE-B1





[134-153]



[326-345]





 6
3240
SIPIGWSYFIGWLVLILYFT
ODF4
 5
4563
TVPSAFQFWYEEALRDEEER
MAGE-33





[176-195]



[298-317]





 6
3241
QVTLQLLDGFMITLSTDGVI
PASD1
 5
4564
NSDPPRYQFLWGPRAHAETS
MAGE-B4





[35-54]



[262-281]





 6
3242
PICNDHYRSVYQKRLMDEAK
PBK
 5
4565
ISRYTGYFPVIFRKAREFIE
MAGE-C1





[68-87]



[939-958]





 6
3243
PDHIQRLTYKLCHIYYNWPG
PIWIL1
 5
4566
DSESSFTYTLDEKVAELVEF
MAGE-C2





[805-824]



[132-151]





 6
3244
KYTRPTLQMGMSCLLVFKVI
PIWIL3
 5
4567
STTHSFLFGALAELLDNARD
MORC1





[561-580]



[22-41]





 6
3245
LDQLLRHVMNPLETLSITNC
PRAME
 5
4568
SSKKTYSLRSQASIIGVNLA
MPHOSPH1





[313-332]



[1703-1722]





 6
3246
NCVDDSQDYYVGKKNITCCD
PSCA
 5
4569
LQRDISEMFLQIYKQGGFLG
MUC-1





[60-79]



[1069-1088]





 6
3247
YELVEKFYDPMFKYHLTVAQ
PSMA
 5
4570
HRLFHWQANSERADIPASLR
NA17-A





[559-578]



[54-73]





 6
3248
SRTDKVLSTAPPQLVHMAAA
SAGE1
 5
4571
EKNEEIFNYNNHLKNRIYQY
NY-BR-1





[122-141]



[1312-1331]





 6
3249
GKKHRYLRLLPEALIRFGGF
SLCO6A1
 5
4572
AMPFATPMEAELARRSLAQD
NY-ESO-1





[45-64]



[93-112]





 6
3250
TTGTGVVYPGAITMATTTPS
SOX-6
 5
4573
LELEIIVLNDRVTDLVNQQQ
ODF2





[736-755]



[458-477]





 6
3251
AEAAGKYSAAIALLEPAGSE
SPAG1
 5
4574
IILKVALNMARGLKYLHQEK
PBK





[462-481]



[142-161]





 6
3252
NILDSFTVCNSHVLCIASVP
SPAG9
 5
4575
VTPAMGMQMRKAIMIEVDDR
PIWIL1





[780-799]



[518-537]





 6
3253
RLRERKQLVIYEEISDPEED
SSX-2
 5
4576
ETFKAVLDGLDVLLAQEVRP
PRAME





[167-186]



[95-114]





 6
3254
PPAWQPFLKDHRISTFKNWP
Survivin
 5
4577
KNSVKTDLMKAPMVIMDWEE
PRSS55





[7-26]



[202-221]





 6
3255
QECKERISALNLQIEEEKNK
SYCE1
 5
4578
STNEVTRIYNVIGTLRGAVE
PSMA





[131-150]



[348-367]





 6
3256
REEKCVWKHGITPPLKNVRK
TAF7L
 5
4579
VVRLSSYSSPTLQSVLGSGT
RAGE-1





[212-231]



[357-376]





 6
3257
RLLLRLECNVVIIAHCNLEP
TAG-2a
 5
4580
MTPTIRKTQKIVIKKREPLN
RCAS1





[48-67]



[98-117]





 6
3258
TSGLELYCQKGLSMTVEADP
TEX101
 5
4581
HDLEIQLTAITTSEQYYSKE
SCP-1





[21-40]



[479-498]





 6
3259
IVHLLLQISDALRYLHFQGF
TEX14
 5
4582
KILQQSRIVQSQRLKTIKQL
SCP3a





[353-372]



[159-178]





 6
3260
TISFFLCQMLYNRRKILQLK
TEX15
 5
4583
RRHELYKAHEWARAIIESDQ
SCRN1





[2250-2269]



[343-362]





 6
3261
FYKFFLPTILSLSFFILLVL
TMEM31
 5
4584
IEETEYVKKIRTTLQKIRTQ
se57-1





[135-154]



[31-50]





 6
3262
YIPLEYRSISLAIALFFLMD
TPTE
 5
4585
IGEYKQLMRSRRQEMRQFFT
SOX-6





[121-140]



[707-726]





 6
3263
FYHKTNIKMRCEFLACWPAF
TRAG-3
 5
4586
SMKPLLRRAMAYETLEQYGK
SPAG1





[24-43]



[520-539]





 6
3264
TRELCIKLDSSKELLNRQLV
TSGA10
 5
4587
EDGRVQAFGWSLPQKYKQVT
SPAG9





[511-530]



[639-658]





 6
3265
GEPLVCSMEGTWYLVGLVSW
TSP50
 5
4588
HRLRERKQLVIYEEISDPEE
SSX-1





[311-330]



[166-185]





 6
3266
LDRRGAVIQSVPGFWANVIA
TSPY1
 5
4589
AMTKLGFKAILPSFMRNKRV
SSX-3





[145-164]



[57-76]





 6
3267
LCGAQYRIHTHGVFRGIQDV
WT1
 5
4590
GKHAWTHRLRERKQLVVYEE
SSX-4





[281-300]



[160-179]





 6
3268
MRCHAHGPSCLVTAITREEG
XAGE-1c
 5
4591
ATLPPFMRNKRVADFQGNDF
SSX-5





[1-20]



[65-84]





 7
3269
YVRNLFLTGNQLAVLPAGAF
5T4
 5
4592
TNNKKKEFEETAKKVRRAIE
Survivin





[92-111]



[117-136]





 7
3270
NPGSLLQLPHTEALLVLCYS
ACRBP
 5
4593
DQMWRQFTDTNLAFNARISE
TEKT5





[312-331]



[329-348]





 7
3271
QLQMSLYASGLLTGVVVDSG
ACTL8
 5
4594
VTELEYNYNQFSTLLKNVMS
TEX15





[132-151]



[2198-2217]





 7
3272
DRKVICFVDVSTLNVEDKDY
AKAP-4
 5
4595
MPMSEVSQVSRAAQMAVPSS
THEG





[38-57]



[247-266]





 7
3273
EPLSNAVKRNVPRCIIILVL
BAGE-2
 5
4596
DAGLVKMSRKPRASSPLSNN
TRAG-3





[48-67];



[62-81]





BAGE-3









[48-67]









 7
3274
ISISSLRQFETVCKFHWVEA
CAGE1
 5
4597
FWANVIANHPQMSALITDED
TSPY1





[113-132]



[158-177]





 7
3275
THLYTLILRPDLSYDVKIDG
CALR3
 5
4598
ADASQSSMHNALHIYMNGTM
TYR





[169-188]



[355-374]





 7
3276
SSAIQSWYDEILDFVYGVGP
CRISP2
 5
4599
WRGRSTYRPRPRRSLQPPEL
XAGE-2





[108-127]



[3-22]





 7
3277
HILIENRQLSRLMVGPHAAA
CT47
 6
4600
FSGSNASVSAPSPLVELILN
5T4





[139-158]



[162-181]





 7
3278
LIVLVLCSAFLLLWQGEGVN
CTAGE1
 6
4601
NRNVNFAMKSETKLREKMYS
AKAP-3





[53-72]



[417-436]





 7
3279
IGCVTSINEDNIYISNSIYF
CXorf48
 6
4602
SKGLMVYANQVASDMMVSLM
AKAP-4





[115-134]



[330-349]





 7
3280
NPNSLAIYRLPTLDPVCVGD
DCAF12
 6
4603
VGTIDMTLQSDIMTMFENNF
BRDT





[161-180]



[927-946]





 7
3281
VSVEAFLMQASGVRWCVVHG
DPPA2
 6
4604
SKPRLVVPYGLKTLLEGISR
CABYR





[209-228]



[4-23]





 7
3282
NTVICSKLAAKCLVMKAEMN
EpCAM
 6
4605
NNIENYSTNALIQPVDTISI
CAGE1





[55-74]



[96-115]





 7
3283
VCRKWNQMMYSAELWRYRTI
FBXO39
 6
4606
ESGSIEYDWNLTSLKKETSP
CALR3





[42-61]



[192-211]





 7
3284
RNRRSHRAMRVAHLELATYE
FMR1NB
 6
4607
DKELNDMVAVHQQQLLSWEE
CCDC62





[11-30]



[41-60]





 7
3285
NKHHEIFNLLSFTLNPLEGK
GASZ
 6
4608
VGEVSTPFHIFKVKVTTERE
CT46





[225-244]



[212-231]





 7
3286
ACGLYHKMNGQNRPLIKPKR
GATA-3
 6
4609
LGEEEGEQAAGLAAVPRGGS
CT47





[287-306]



[61-80]





 7
3287
VNGMYRIYDMENVLLGLFST
Glypican-
 6
4610
RGSQKKHISPVQALSEFKAM
CTNNA2





3



[931-950]





[307-326]









 7
3288
LSIGTGRAMLGTHTMEVTVY
gp100
 6
4611
IDESIYFSSDVVTGNVPLKV
CXorf48





[170-189]



[53-72]





 7
3289
TEEEKWSHMQTFLQSMSSTD
HAGE
 6
4612
HQTAIKANNPRKFLRSVGDG
DBPC





[469-488]



[122-141]





 7
3290
AILELLKYHQRVLYIDIDIH
HDAC1
 6
4613
SRLSPRKTHLLYILRPSRQL
DKKL1





[159-178];



[223-242]





HDAC2









[160-179]









 7
3291
ALSSGLYQCVASNAIGTSTC
IGFS11
 6
4614
QSVPQFFTFEDAPSYPEARA
DMRT1





[207-226]



[302-321]





 7
3292
NIPPHLQWEVLDSLLVQYGV
KOC1
 6
4615
QKEITTRYQLDPKFITSILY
EpCAM





[87-106]



[167-186]





 7
3293
PCGARRPDSRLLQLHITMPF
Lage-1
 6
4616
EFNVLEMEVMRRQLYAVNRR
FATE1





[77-96]



[128-147]





 7
3294
IPAIVHYSPDCKILVVSNPV
LDHC
 6
4617
KRPSFLDDPLYGISVSLSSE
FSIP1





[121-140]



[533-552]





 7
3295
YEKKLVQLLVSPPCAPPVMN
LEMD1
 6
4618
KNVNQSLLDLYQLAVEKGDP
FTHL17





[34-53]



[109-128]





 7
3296
AVITKKVADLVGFLLLKYRA
MAGE-A1
 6
4619
MSSTDKVIVFVSRKAVADHL
HAGE





[100-119]



[484-503]





 7
3297
LGSVIRNFQDFFPVIFSKAS
MAGE-A12
 6
4620
GDLVDTQSDLIATQRDLIAT
HOM-TES-85





[136-155]



[236-255]





 7
3298
GIEVVEVVPISHLYILVTCL
MAGE-A2
 6
4621
PYSAVEKAMARLQELLTVSE
JARID1B





[163-182]



[950-969]





 7
3299
ASNTYTLVTCLGLSYDGLLG
MAGE-A4
 6
4622
ITMPFSSPMEAELVRRILSR
Lage-1





[173-192]



[92-111]





 7
3300
AGSPGPLKSPQGASAIPTAI
MAGE-A5
 6
4623
LKGEMMDLQHGSLFFSTSKI
LDHC





[56-75]



[58-77]





 7
3301
DPIGHVYIFATCLGLSYDGL
MAGE-A6
 6
4624
LQGNIILSTEKSKKLKKWPE
LEMD1





[170-189]



[74-93]





 7
3302
KVINYLVMLNAREPICYPSL
MAGE-A9
 6
4625
EESFSPTAMDAIFGSLSDEG
MAGE-A11





[284-303]



[177-196]





 7
3303
PQRAPTTAAAAAAGVSSTKS
MAGE-32
 6
4626
PDLESEFQAALSRKVAKLVH
MAGE-A6





[62-81]



[99-118]





 7
3304
FLGLLGIYDGILHSIYGDAR
MAGE-B6
 6
4627
VRVNARVRISYPSLHEEALG
MAGE-A8





[310-329]



[294-313]





 7
3305
LKRAREFMELLFGLALIEVG
MAGE-C2
 6
4628
MHFILRKYKMREPIMKADML
MAGE-3





[182-201]



[116-135]





 7
3306
TTAEEAAGIGILTVILGVLL
MART1
 6
4629
KIVGKRFREHFPEILKKASE
MAGE-B2





[22-41]



[139-158]





 7
3307
LRLDFIHANSTTHSFLFGAL
MORC1
 6
4630
VQFLMEMYKMKKPIMKADML
MAGE-B3





[13-32]



[119-138]





 7
3308
SEGCVHILDSQTVVLKEPQC
MPHOSPH1
 6
4631
DEESVSASQKAIIFKRLSKD
MAGE-B6





[77-96]



[174-193]





 7
3309
ELLFRQIAWIKKLPFFCELS
NR6A1
 6
4632
PRELLTKVWVQGHYLEYREV
MAGE-C2





[293-312]



[270-289]





 7
3310
KHLKHMRRMYGTSLYQFIPL
NYD-
 6
4633
EKPLNSFQYQRRQAMGIPFI
MORC1





TSPG



[464-483]





[161-180]









 7
3311
LSISSCLQQLSLLMWITQCF
NY-ESO-1
 6
4634
KFSVWVSFFEIYNEYIYDLF
MPHOSPH1





[147-166]



268-287]





 7
3312
ERENRYDCLGSKKYSYMNIC
ODF1
 6
4635
NGGSSLSYTNPAVAAASANL
MUC-1





[153-172]



[1236-1255]





 7
3313
KHTPTKLRAPAYSFRGAPML
ODF3
 6
4636
QPERLLFVIDSFEELQGGLN
NLRP4





[40-59]



[222-241]





 7
3314
TDGVIICVAENISSLLGHLP
PASD1
 6
4637
QEMVQAFSAQSGMKLEWSQK
NXF2





[50-69]



[573-592]





 7
3315
SEKKKSVLCSTPTINIPASP
PBK
 6
4638
ITKRSEQIVEFLLIKNANAN
NY-BR-1





[14-33]



[124-143]





 7
3316
YAASIRRTDGGLFLLADVSH
PIWIL2
 6
4639
ADSVHLAWDLSRSLGAVVFS
OIP5





[363-382]



[88-107]





 7
3317
MKVFKFIGLMILLTSAFSAG
PLAC1
 6
4640
WQQRQFYNKQSTLPRHSTLS
PEPP2





[1-20]



[506-525]





 7
3318
LSLQCLQALYVDSLFFLRGR
PRAME
 6
4641
ESVGLVSMFRGLGIETVSKT
PIWIL2





[293-312]



[67-86]





 7
3319
PRSWLLLCPLSHVLFRAILY
PRSS55
 6
4642
QENPAAFVRAIQQYVDPDVQ
PIWIL4





[333-352]



[526-545]





 7
3320
NITCCDTDLCNASGAHALQP
PSCA
 6
4643
KAVSQDMVIYSTEIHYSSKG
PLAC1





[74-93]



[85-104]





 7
3321
LSPQCLSLLHAMVAYDPDER
RAGE-1
 6
4644
DNDIALLLLASPIKLDDLKV
PRSS55





[254-273]



[154-173]





 7
3322
AAGISSTITRDLYVTATHSV
SAGE1
 6
4645
EIQALRRLNPHPNILMLHEV
RAGE-1





[657-676]



[50-69]





 7
3323
TREPAAEIEALLGMDLVRLG
SCRN1
 6
4646
EEEEDAAWQAEEVLRQQKLA
RCAS1





[97-116]



[160-179]





 7
3324
IAECTSMIGYALGYVLGAPL
SLCO6A1
 6
4647
FIQATDYVEIWQAYLDYLRR
SART3





[269-288]



[411-430]





 7
3325
EIADDLSILYSNRAACYLKE
SPAG1
 6
4648
MEESNKARAAHSFVVTEFET
SCP-1





[481-500]



[363-382]





 7
3326
GVWVSIRLDSTLRLYHAHTY
SPAG9
 6
4649
RLKTIKQLYEQFIKSMEELE
SCP3a





[1101-1120]



[171-190]





 7
3327
INMISGVLQRYCRFGSRPLQ
SSX-3
 6
4650
GETAKEALDVIVSLLEEHGQ
SCRN1





[151-170]



[120-139]





 7
3328
KLNYEVMTKLGFKVTLPPFM
SSX-4
 6
4651
EAGAAALRNVAQRLFENYQT
se57-1





[52-71]



[121-140]





 7
3329
FLEGCACTPERMAEAGFIHC
Survivin
 6
4652
ISGKEEETSVTILDSSEEDK
SP17





[27-46]



[92-111]





 7
3330
QSGRKLAELQASLSKYCDQL
TDRD1
 6
4653
IDVVESEAVSVLHHWLKKTE
SPATA19





[515-534]



[28-47]





 7
3331
ILLVLGASLLTSGLELYCQK
TEX101
 6
4654
QGIRNLVTDAKFVLIVEKDA
SPO11





[11-30]



[208-227]





 7
3332
LHFQGFIHASLSSYAVHIIS
TEX14
 6
4655
EKRSKAFDDIATYFSKKEWK
SSX-1





[367-386]



[19-38]





 7
3333
FELYPEFLLVFKEAFHDISH
TMEM31
 6
4656
GFKAILPSFMRNKRVTDFQG
SSX-3





[91-110]



[62-81]





 7
3334
LAIALFFLMDVLLRVFVERR
TPTE
 6
4657
ISEKLRKAFDDIAKYFSKKE
SSX-4





[131-150]



[17-36]





 7
3335
LLKEHLCLAENKMAIQSRDV
TSGA10
 6
4658
HRVRERKQLVIYEEISDPQE
SSX-5





[594-613]



[166-185]





 7
3336
FRSNPYFQNKVITKEYLVNI
TSPY1
 6
4659
QALAPDFALNPVRRLIPAAR
TAG-1





[205-224]



[413-432]





 7
3337
EQASRIWSWLLGAAMVGAVL
TYR
 6
4660
IMLLKNFMLNQNVMLSVKGI
TDRD1





[469-488]



[1072-1091]





 7
3338
ALPVSGAAQWAPVLDFAPPG
WT1
 6
4661
DNIKHSQNMRANSIQLREEA
TEKT5





[25-44]



[301-320]





 7
3339
EEGGPRSGGAQAKLGCCWGY
XAGE-1c
 6
4662
PKIRDNFWSMPMSEVSQVSR
THEG





[18-37]



[238-257]





 8
3340
LVPDGAVCSNLPYASWFESF
ACRBP
 6
4663
HNALHIYMNGTMSQVQGSAN
TYR





[84-103]



[363-382]





 8
3341
YAGGVVLHPRTISLESLAVI
ADAM2
 6
4664
DLERGTDEAVLQVQAHEHGQ
ZNF165





[291-310]



[126-145]





 8
3342
MCTPHRSCAIVTFMNKTLGT
ADAM29
 7
4665
GLGGLRMDSNFDSLPVQITV
ADAM2





[306-325]



[10-29]





 8
3343
DKLVESVMKLCLIMAKYSND
AKAP-4
 7
4666
EIKPLAFSTTFEHLVYKMDS
ADAM29





[698-717]



[135-154]





 8
3344
LEPEDGTALDVHFVSTLEPL
BAGE-2
 7
4667
ASFVHEYSRRHPQLAVSVIL
AFP





[31-50];



[352-371]





BAGE-3









[31-50]









 8
3345
FAADVRLMFMNCYKYNPPDH
BADT
 7
4668
DDFTASVSEGIMTYANSVVS
AKAP-3





[337-356]



[275-294]





 8
3346
SGIINFIHFREACRETYMEF
CDCA1
 7
4669
SDTSGDFRKLMVALAKGRRA
ANXA2





[122-141]



[161-180]





 8
3347
RCGENLYMSSDPTSWSSAIQ
CRISP2
 7
4670
VDAVKLQLPDYYTIIKNPMD
BRDT





[93-112]



[56-75]





 8
3348
NESSMLSTDTKKASILLIRK
CT46
 7
4671
TMYRGNTTMDIKDLVKQFHQ
CABYR





[137-156]



[45-64]





 8
3349
ANFDLAVVARRYPASGIHFV
CT47
 7
4672
SRQMVTDLELSTLLPISHEN
CCDC62





[103-122]



[641-660]





 8
3350
YIDQFLLTSFPTFTSVGVLI
CTAGE1
 7
4673
TLSFPRYNVAEIVIHIRNKI
CDCA1





[35-54]



[3-22]





 8
3351
FAMRNVYLPRGFLPYRPPRP
CTAGE2
 7
4674
AMSKAKKLMTGHAIPPSQLD
CT45





[717-736]



[51-70]





 8
3352
PKYQCPHCATIIARKSDLRV
CTCFL
 7
4675
DALQKKYLRMVVLAVYTNPE
CT46





[426-445]



[87-106]





 8
3353
VVLTVKASYVASTKYQKVYG
CTNNA2
 7
4676
LTERLLKMKDGVAMLEEDVT
CTAGE2





[876-895]



[237-256]





 8
3354
PQVDDIVNVVMVESIQFCFI
CXorf48
 7
4677
SKSLKSQVAEAKMTFKIFQM
cTAGE5





[211-230]



[180-199]





 8
3355
LGTVKWFNVRNGYGFINRND
DBPC
 7
4678
KSDLRVHMRNLHAYSAAELK
CTCFL





[95-114]



[440-459]





 8
3356
SGIRSVSFYEHIITVGTGQG
DCAF12
 7
4679
FGKEMVKLNYVAARRQQELK
CTNNA2





[341-360]



[179-198]





 8
3357
KNMENRHAMSSQYRMHSYYP
DMRT1
 7
4680
KRILVNLSMVENKLVELEHT
CXorf61





[276-295]



[78-97]





 8
3358
TKGWVRLQFHAGQAWVPTTH
DPPA2
 7
4681
NRRKSRRFIPRPPSVAPPPM
DBPC





[235-254]



[176-195]





 8
3359
LAAATATFAAAQEECVCENY
EpCAM
 7
4682
LQGFSRLFLKGNLLAGIDSL
DKKL1





[13-32]



[52-71]





 8
3360
VSGLVTSRSFRTASVSINQT
EPHA2
 7
4683
ASEGRMVIQDIPAVTSRGHV
DMRT1





[418-437]



[178-197]





 8
3361
EPPPVSFQPYHPLHFRGSNG
FAM46D
 7
4684
PGHQKRIAYSLLGLKDQVNT
EPHA2





[368-387]



[952-971]





 8
3362
GQSLEEDSALEALLNFFFPT
FMR1NB
 7
4685
LDPMLDFYSDKNAKLTKESY
FAM46D





[113-132]



[180-199]





 8
3363
CILKQKSIIKLSSERKKEDI
FSIP1
 7
4686
PGTDAVAQTSLEEFNVLEME
FATE





[415-434]



[116-135]





 8
3364
GWTPLMYAASVANAELVRVL
GASZ
 7
4687
AIQKMKKLDKILAKKQRREK
FSIP1





[79-98]



[118-137]





 8
3365
DCVLYRYGSFSVTLDIVQGI
gp100
 7
4688
HFLESHYLHEQVKTIKELGG
FTHL17





[474-493]



[132-151]





 8
3366
HEELPLCFALKSHFVGAVIG
HAGE
 7
4689
EKIKQRLFENLRMLPHAPGV
HDAC2





[65-84]



[361-380];









HDAC1









[360-379]





 8
3367
GILELLKYHPRVLYIDIDIH
HDAC3
 7
4690
TIFENLKMLNHAPSVQIHDV
HDAC3





[153-172]



[361-380]





 8
3368
VGFTGTMPATNVSIFINNTQ
IGFS11
 7
4691
PSQKPSGFKSGQHPLNGQPL
HOM-TES-85





[92-111]



[92-111]





 8
3369
LPPVYLTFTRESSCEIKLKW
IL13RA2
 7
4692
GSETWKTIITKNLHYKDGFD
IL13RA2





[239-258]



[77-96]





 8
3370
VDILTYIVWKISGLPVTRVI
LDHC
 7
4693
IEEIPAYLPNGAALKDSVQR
JARID1B





[140-159]



[997-1016]





 8
3371
DHFPLLFSEASECMLLVFGI
MAGE-A10
 7
4694
DVGYGRSISSSSSLARSSKE
KU-CT-1





[170-189]



[621-640]





 8
3372
EYLQLVFGIEVVEVVRIGHL
MAGE-A12
 7
4695
SRGATTFIYNRAVKNTRKVA
LIPI





[156-175]



[135-154]





 8
3373
GPRALIETSYVKVLHHTLKI
MAGE-A2
 7
4696
PRAHAEIRKMSLLKFLAKVN
MAGE-A10





[274-293]



[300-319]





 8
3374
SSSSPLVPGTLGEVPAAGSP
MAGE-A5
 7
4697
VKGLITKAEMLGSVIKNYED
MAGE-A11





[40-59]



[239-258]





 8
3375
RALIETSYVKVLHHMVKISG
MAGE-A6
 7
4698
EEQEAASSSSTLVEVTLGEV
MAGE-A3





[276-295]



[34-53];









MAGE-A6









[34-53]





 8
3376
AGHSYILVTCLGLSYDGLLG
MAGE-A8
 7
4699
EERAQVASSVRARRATTATT
MAGE-B1





[175-194]



[312-331]





 8
3377
WGPRAYAETTKMKVLEFLAK
MAGE-B1
 7
4700
IEKKQSFSQGLSSTVQSRTD
MAGE-B3





[272-291]



[90-109]





 8
3378
TDEESLLSSWDFPRRKLLMP
MAGE-B2
 7
4701
FPEIFRKVSQRTELVFGLAL
MAGE-B4





[187-206]



[147-166]





 8
3379
SDPPCYEFLWGPRAYAETTK
MAGE-B6
 7
4702
SLLQIPMTSSFSSTLLSIFQ
MAGE-C1





[350-369]



[336-355]





 8
3380
IGILTVILGVLLLIGCWYCR
MART1
 7
4703
TSPQLSTGVSFFFLSFHISN
MUC-1





[30-49]



[1032-1051]





 8
3381
EESLSEVVVPMPSWLIRTRE
MORC1
 7
4704
TETQVKIWFQNRRYKTKRKQ
NKX3.1





[136-155]



[164-183]





 8
3382
NISQCYLAYDETLNVLKFSA
MPHOSPH1
 7
4705
MQDPAFVKQAVNLLQEANFH
NLRP4





[455-474]



[560-579]





 8
3383
SSLRKLCFSVQNVFKKEDEH
NLRP4
 7
4706
QMEMLKLTMNKRYNVSQQAL
NXF2





[597-616]



[213-232]





 8
3384
QDNEWNYTRAGQAFTMLQTE
NXF2
 7
4707
AQRKSKSLKINLNYAGDALR
NY-BR-1





[595-614]



[1200-1219]





 8
3385
HEEVVTFLVDRKCQLDVLDG
NY-BR-1
 7
4708
ATSAQNIEFLQVIAKREEAI
0DF2





[29-48]



[675-694]





 8
3386
CGARGPESRLLEFYLAMPFA
NY-ESO-1
 7
4709
PINIWIFELERNVSIPIGWS
ODF4





[78-97]



[163-182]





 8
3387
LASSCCSSNILGSVNVCGFE
ODF1
 7
4710
THNRLKSLMKILSEVTPDQS
OIP5





[116-135]



[206-225]





 8
3388
DKMVCYLLKTKAIVNASEMD
OIP5
 7
4711
SQEIEMHADNPAAIQTVVLQ
PEPP2





[167-186]



[674-693]





 8
3389
PEVNPLYRADPVDLEFSVDQ
PASD1
 7
4712
YNPLMEARRLRSALLFQHED
PIWIL1





[291-310]



[136-155]





 8
3390
DKADIFAFGLTLWEMMTLSI
PBK
 7
4713
FGERHIFDGNSLLLSRPLKE
PIWIL3





[226-245]



[170-189]





 8
3391
GLKPDHMQRLTFKLCHLYYN
PIWIL4
 7
4714
SNKAKAFDGAILFLSQKLEE
PIWIL4





[793-812]



[151-170]





 8
3392
VTECGIRAKAVSQDMVIYST
PLAC1
 7
4715
LKKEGWRPRRTILFASWDAE
PSMA





[77-96]



[405-424]





 8
3393
EVGEFPWQVSIQARSEPFCG
PRSS55
 7
4716
QQRKKMEKEAQRLMKKEQNK
RCAS1





[75-94]



[188-207]





 8
3394
LHEVVFDRKSGSLALICELM
RAGE-1
 7
4717
EKVHSLFRRQLAIPLYDMEA
SART3





[66-85]



[245-264]





 8
3395
VFSFLKRLICRSGRGRKLSG
RCAS1
 7
4718
EQEQSSLRASLEIELSNLKA
SCP-1





[18-37]



[739-758]





 8
3396
SLEKHKLFISGLPFSCTKEE
SART3
 7
4719
NLLTGAQNEFKKEMAMLQKK
SCP3a





[797-816]



[195-214]





 8
3397
AEGSKAMNGSAAKLQQYYCW
SOX-6
 7
4720
ERKLSLENKLLQLKSSATYG
se57-1





[576-595]



[207-226]





 8
3398
MTFGRLHRIIPKIMPKKPAE
SSX-1
 7
4721
SYNHKQIEQLYAAQLASMQV
SOX-6





[99-118]



[360-379]





 8
3399
TENEPDLAQCFFCFKELEGW
Survivin
 7
4722
REILREQPDNIPAFAAAYFE
SP17





[48-67]



[25-44]





 8
3400
ACTVRNLARSQSVKMKDKLK
TAF7L
 7
4723
HLSKSDLLANQSQEVLEERT
SPATA19





[111-130]



[93-112]





 8
3401
SIKARFPAETYALVGQQVTL
TAG-1
 7
4724
ASIENIIQDIITSLARNEAP
SPO11





[240-259]



[49-68]





 8
3402
PLVSRDPPASASLFQDTCAG
TAG-2a
 7
4725
GKHAWTHRLRERKQLVIYEE
SSX-1





[67-86]



[160-179]





 8
3403
AVGPMFVREACPHQLLTQPR
TEX101
 7
4726
QIPEKIQKAFDDIAKYFSKE
SSX-2





[199-218]



[16-35]





 8
3404
VGPPSLNYIPPVLQLSGGQK
TEX14
 7
4727
KYFSEKEWEKMKASEKIIYV
SSX-5





[794-813]



[30-49]





 8
3405
KAQMEKIGLPIILHLFALST
TMEM31
 7
4728
AEGPSTLDEGLFLRSQEAAA
SYCE1





[113-132]



[219-238]





 8
3406
YFWLHTSFIENNRLYLPKNE
TPTE
 7
4729
DADSSAQAAAQAPENFQEGK
TAF7L





[495-514]



[66-85]





 8
3407
EAPPIYLQVSSYQHWIWDCL
TSP50
 7
4730
VSREAILRFGFLQEFSKEER
TAG-1





[338-357]



[121-140]





 8
3408
TLAKHTISSDYVIPIGTYGQ
TYR
 7
4731
GGAESERGLPASTLSRLSNR
TAG-2a





[139-158]



[29-48]





 8
3409
WAPVLDFAPPGASAYGSLGG
WT1
 7
4732
GFWKSELSYELDRLLTENQN
TEKT5





[34-53]



[149-168]





 8
3410
GGAQAKLGCCWGYPSPRSTW
XAGE-1c
 7
4733
ALKSRISWEGLLALDNGEME
TEX15





[25-44]



[712-731]





 8
3411
LKQELCRQLFRQFCYQDSPG
ZNF165
 7
4734
RPKRFYLEYYNNNRTTPVWP
THEG





[43-62]



[199-218]





 9
3412
PAGAFARRPPLAELAALNLS
5T4
 7
4735
VLGEAWRDQVDWSRLLRDAG
TRAG-3





[107-126]



[45-64]





 9
3413
FKSQQCLMANRNRKVSRMRC
ACRBP
 7
4736
SDVPVLQVIMHSRYRAQRFW
TSP50





[490-509]



[179-198]





 9
3414
SVESCEISLRPLLVSHVMAC
ACTL8
 7
4737
FKWNSDFINHQIIYAGEKNH
ZNF165





[279-298]



[301-320]





 9
3415
EELQKYIQESQALAKRSCGL
AFP
 8
4738
LRHLDLSNNSLVSLTYVSFR
5T4





[399-418]



[236-255]





 9
3416
AVSPEFAYVPADPAQLAAQM
CABYR
 8
4739
KTLEFAGQDLSAYLLKSLFK
ACTL8





[160-179]



[171-190]





 9
3417
ECADQRLAISHSQIAHLEER
CAGE1
 8
4740
YKEVSKMVKDALTAIEKPTG
AFP





[713-732]



[60-79]





 9
3418
REKLKSQEIFLNLKTALEKY
CDCA1
 8
4741
LMTDTQFVSAVKRTVFSHGS
AKAP-3





[414-433]



[348-367]





 9
3419
QLVWYSTYQVGCGIAYCPNQ
CRISP2
 8
4742
PKWISIMTERSVPHLQKVFD
ANXA2





[139-158]



[211-230]





 9
3420
KRKLVKELRCVGQKYEKIFE
CT45
 8
4743
EVPAQLLDAEGAIKIGSEKS
CABYR





[127-146]



[397-416]





 9
3421
NKISTEHQSLVLVKRLLAVS
CT46
 8
4744
EKVSDIMLQKLKSLHLKKKT
CAGE1





[18-37]



[645-664]





 9
3422
YLPRGFLPYRPPRPAFFPPA
CTAGE2
 8
4745
DSRFGHFRLSSGKFYGHKEK
CALR3





[723-742]



[43-62]





 9
3423
LPQGDTQLTTVQGVVTSFCG
CXorf48
 8
4746
VEWMSIFKPSKMQRIVRLKS
CCDC62





[29-48]



[532-551]





 9
3424
PPARSQADKPVLAIQVLGTV
DBPC
 8
4747
SQIDDFTGFSKDRMMQKPGS
CT45





[79-98]



[71-90]





 9
3425
AENTLSKLLSTKLPYCRENV
DCAF12
 8
4748
LLEKDPYALDVPNTAFGREH
cTAGE5





[281-300]



[497-516]





 9
3426
PYYNNLYNCPQYSMALAADS
DMRT1
 8
4749
NSTALALVRPSSSGLINSNT
CXorf61





[220-239]



[34-53]





 9
3427
KALNSCSIPVSVEAFLMQAS
DPPA2
 8
4750
PRMEEKEALVPIQKATDSFH
DKKL1





[200-219]



[141-160]





 9
3428
ALLSVRVYYKKCPELLQGLA
EPHA2
 8
4751
TRPKKMGSQLPKPRMLRESG
FATE1





[190-209]



[73-92]





 9
3429
CQILDSLSYMRNENVISELN
FBXO39
 8
4752
MGKRLDYLNLKGARLTVEQG
FBXO39





[180-199]



[160-179]





 9
3430
CYYLSYYLCSGSSYFVLANG
FMR1NB
 8
4753
LSDDKMEHAQKLMRLQNLRG
FTHL17





[83-102]



[59-78]





 9
3431
KYDTNCDAAINSHITLELYT
FTHL17
 8
4754
KLESSHSRGSMTALGGASSS
GATA-3





[12-31]



[195-214]





 9
3432
NGYTALTWAARQGHKNIVLK
GASZ
 8
4755
YYPEDLFIDKKVLKVAHVEH
Glypican-





[181-200]



3









[361-380]





 9
3433
HVPPYYGNSVRATVQRYPPT
GATA-3
 8
4756
NHHSERSRNHLERSLSQSDR
HOM-TES-85





[59-78]



[156-175]





 9
3434
RCLLHLAVIGALLAVGATKV
gp100
 8
4757
EGDALRYMIERTVNWQHRAQ
JARID1B





[7-26]]



[1248-1267]





 9
3435
KCVEVVKTFNLPLLMLGGGG
HDAC2
 8
4758
LDKLNGFQLENFTLKVAYIP
KOC1





[284-303]



[136-155]





 9
3436
INQVVDFYQPTCIVLQCGAD
HDAC3
 8
4759
LLRELDVMNSVIAQLAPEEE
KU-CT-1





[240-259]



[103-122]





 9
3437
SKKTLLRFWLPFGFILILVI
IL13RA2
 8
4760
REGAGRMRVVGWGLGSASPE
Lage-1





[337-356]



[142-161]





 9
3438
DLLHQLVTIMNPNTLMTHEV
JARID1B
 8
4761
LSTEKSKKLKKWPEASTTKR
LEMD1





[547-566]



[80-99]





 9
3439
EAHIRVPSFAAGRVIGKGGK
KOC1
 8
4762
GSIPLWLQNFVRILLNEEDM
LIPI





[489-508]



[108-127]





 9
3440
IIKLKGYTSWAIGLSVMDLV
LDHC
 8
4763
QSPQGASAFPTTINFTRQRQ
MAGE-A1





[241-260]



[56-75]





 9
3441
TTKRKAVDTYCLDYKPSKGR
LEMD1
 8
4764
GSVIKNYEDYFPEIFREASV
MAGE-A11





[96-115]



[250-269]





 9
3442
FIKCNHQRAVHLFMASLETN
LIPI
 8
4765
KLLTQHFVQENYLEYRQVPG
MAGE-A3





[269-288]



[244-263]





 9
3443
EEALEAQQEALGLVCVQAAT
MAGE-A1
 8
4766
TTEEQEAAVSSSSPLVPGTL
MAGE-A4





[13-32]



[32-51]





 9
3444
GPITQIFPTVRPADLTRVIM
MAGE-A11
 8
4767
VGKEHMFYGEPRKLLTQDWV
MAGE-A9





[92-111]



[231-250]





 9
3445
ALVETSYVKVLHHLLKISGG
MAGE-A12
 8
4768
FWAKVNKTVPSAFQFWYEEA
MAGE-B3





[277-296]



[291-310]





 9
3446
EYLQLVFGIEVVEVVPISHL
MAGE-A2
 8
4769
EPTTKAEMLKIISKKYKEHF
MAGE-B4





[156-175]



[128-147]





 9
3447
LERVIKNYKRCFPVIFGKAS
MAGE-A4
 8
4770
IESEPLFTYTLDEKVDELAR
MAGE-C1





[137-156]



[898-917]





 9
3448
APEEVIWEALSVMGVYVGKE
MAGE-A9
 8
4771
KKKVLEFLAKLNNTVPSSFP
MAGE-C2





[215-234]



[311-330]





 9
3449
PITKAEMLTNVISRYTGYFP
MAGE-C1
 8
4772
AASRYNLTISDVSVSDVPFP
MUC-1





[928-947]



[1128-1147]





 9
3450
MPREDAHFIYGYPKKGHGHS
MART1
 8
4773
PTPSKPLTSFLIQDILRDGA
NKX3.1





[1-20]



[20-39]





 9
3451
IEDSEMSRVIRVSELSLCDL
MPHOSPH1
 8
4774
SSRSVELNGFMAFREQYMGM
NR6A1





[362-381]



[198-217]





 9
3452
CFPKLLRLDGRELSAPVIVD
NXF2
 8
4775
SNLQNNYAHLTNSSINKSGA
NYD-TSPG





[349-368]



[288-307]





 9
3453
SEIVGMLLQQNVDVFAADIC
NY-BR-1
 8
4776
KLVEAEMDGAAAAKQVMALK
ODF2





[162-181]



[210-229]





 9
3454
CIDEFSTRCLCDLYMHPYCC
ODF1
 8
4777
SAPSHSISARTKAFRVDSTP
ODF3





[27-46]



[118-137]





 9
3455
IWIFELERNVSIPIGWSYFI
ODF4
 8
4778
AFSKKWLDLSRSLFYQRWPV
ODF4





[166-185]



[99-118]





 9
3456
ERCAVFQCAQCHAVLADSVH
OIP5
 8
4779
DLNLEWISLPRSWTYGITRG
PEPP2





[73-92]



[4-23]





 9
3457
AVYVEPAAAAAAAAISDDQI
PASD1
 8
4780
NSLIQNLFKVTPAMGMQMRK
PIWIL1





[223-242]



[509-528]





 9
3458
DFDDEAYYAALGTRPPINME
PBK
 8
4781
KWYSRVVFQMPHQEIVDSLK
PIWIL2





[265-284]



[770-789]





 9
3459
KKAIQLYRHGTSLEIWLGYV
PIWIL3
 8
4782
LHSWLILYSRSSHREAMSLK
PIWIL3





[249-268]



[507-526]





 9
3460
TRNEWYDFYLISQVACRGTV
PIWIL4
 8
4783
QLTTLSFYGNSISISALQSL
PRAME





[761-780]



[407-426]





 9
3461
LLTSAFSAGSGQSPMTVLCS
PLAC1
 8
4784
EMKTYSVSFDSLFSAVKNFT
PSMA





[12-31]



[621-640]





 9
3462
LLKDEALAIAALELLPRELF
PRAME
 8
4785
PAPDNVLLTLRPRRINMTDT
SAGE1





[34-53]



[216-235]





 9
3463
ECGDRSIFEGRTRYSRITGG
PR5555
 8
4786
KDKRDYLWTSAKNTLSTPLP
SCP-1





[52-71]



[833-852]





 9
3464
YPANEYAYRRGIAEAVGLPS
PSMA
 8
4787
QEEKILNMFRQQQKILQQSR
SCP3a





[272-291]



[146-165]





 9
3465
QPYTEYISTRWYRAPECLLT
RAGE-1
 8
4788
DQEQGRKLRSTMLELEKQGL
SCRN1





[156-175]



[361-380]





 9
3466
PPQLVHMAAAGIPSMSTRDL
SAGE1
 8
4789
KKIRTTLQKIRTQMFKDEIR
se57-1





[132-151]



[38-57]





 9
3467
RRKVLSRAVAAATYKTMGPA
SART3
 8
4790
QSSGISFQSKYLSFFILGQT
SLCO6A1





[35-54]



[218-237]





 9
3468
AAPPSYCFVAFPPRAKDGLV
SCRN1
 8
4791
TPNNHFTLEDIQALKRQYEL
SPAG1





[3-22]



[907-926]





 9
3469
LCTIIFTTIAFFIYKRRLNE
SLCO6A1
 8
4792
GYRNKIYVVQPKAMKIEKSF
SPAG9





[678-697]



[1063-1082]





 9
3470
YAAQLASMQVSPGAKMPSTP
SOX-6
 8
4793
EMTEDIMRDRIEQVRRSISR
SPATA19





[370-389]



[130-149]





 9
3471
CEKHLQALAPESRALRKDKP
SPAG1
 8
4794
YATKRDIYYTDSQLFGNQTV
SPO11





[61-80]



[130-149]





 9
3472
TFIPYCSMAHAQLCFHGHRD
SPAG9
 8
4795
MNGDDAFARRPTVGAQIPEK
SSX-2





[1205-1224]



[1-20]





 9
3473
PPGKPTTSEKINMISGVLQR
SSX-3
 8
4796
MNGDDTFARRPTVGAQIPEK
SSX-3





[141-160]



[1-20]





 9
3474
FHMPERLAKEICALDSSKEQ
SYCE1
 8
4797
VTLPPFMRSKRAADFHGNDF
SSX-4





[175-194]



[65-84]





 9
3475
TLPLCRVQPITSSHLALPFQ
TDAD1
 8
4798
RGKHAWTHRVRERKQLVIYE
SSX-5





[1032-1051]



[159-178]





 9
3476
SSPPGLIVTSYSNYCEDSFC
TEX101
 8
4799
VHLKEILSKKQETLRILRLH
SYCE1





[95-114]



[96-115]





 9
3477
CKMSLHFCLCWPSVYWTERF
THEG
 8
4800
LGVTKEIAIWAERIMFSDLR
TDAD1





[158-177]



[237-256]





 9
3478
FLLVFKEAFHDISHCLKAQM
TMEM31
 8
4801
LVNEVFTIDDTLQTLKLRLR
TEKT5





[97-116]



[415-434]





 9
3479
DRTGTMVCAFLIASEICSTA
TPTE
 8
4802
YGLEHIFFDAAKNLVWKERT
TEX15





[343-362]



[1882-1901]





 9
3480
HCLIWRDVIYSVRVGSPWID
TSP50
 8
4803
PSTTMTKARKRRRRRRLMEL
THEG





[153-172]



[112-131]





 9
3481
DSCTGSQALLLRTPYSSDNL
WT1
 8
4804
KARQSEADNNTLKLELITAE
TSGA10





[207-226]



[430-449]





10
3482
LASNHFLYLPRDVLAQLPSL
5T4
 8
4805
HHNSSLNFFNWFSDHNFAGS
TSPY1





[217-236]



[250-269]





10
3483
RKPAAGFLPSLLKVLLLPLA
ACRBP
 9
4806
QDFAKYIEMHVIVEKQLYNH
ADAM2





[2-21]



[174-193]





10
3484
ENPGPSYARRRVSLGIDICH
ACTL8
 9
4807
DSEEKQFSTMRSGFMQNEIT
ADAM29





[40-59]



[153-172]





10
3485
LTNAIFVSFNITIILSSLEL
ADAM2
 9
4808
KQLQAVLQWVAASELNVPIL
AKAP-3





[211-230]



[771-790]





10
3486
ILQINDFAYEIKPLAFSTTF
ADAM29
 9
4809
MTDSDFVSAVKRNLFNQWKQ
AKAP-4





[126-145]



[398-417]





10
3487
ENCYSVYADQVNIDYLMNRP
AKAP-4
 9
4810
RYKSYSPYDMLESIRKEVKG
ANXA2





[153-172]



[231-250]





10
3488
VSNLSQGVMLSHSPICMETT
CAGE1
 9
4811
LKAVHQQLQVLSQVPFRKLN
BADT





[38-57]



[430-449]





10
3489
AIGLELWQVRSGTIFDNFLI
CALA3
 9
4812
AISARFKPFSNKGKTLVIQY
CALA3





[299-318]



[76-95]





10
3490
TKKASILLIRKIYILMQNLG
CT46
 9
4813
LHNLRQIYVKQQSDLQFLNF
CCDC62





[146-165]



[282-301]





10
3491
QLSRLMVGPHAAARNLWGNL
CT47
 9
4814
EEGEQAAGLAAVPRGGSAEE
CT47





[146-165]



[64-83]





10
3492
ELYQENEMKLYRKLIVEEKC
CTAGE2
 9
4815
LSGPAELRSFNMPSLDKMDG
cTAGE5





[357-376]



[634-653]





10
3493
PPPAPFAMRNVYPPRGFPPY
cTAGE5
 9
4816
MSGDERSDEIVLTVSNSNVE
CTCFL





[743-762]



[206-225]





10
3494
ACKQDLLAYLQRIALYCHQL
CTNNA2
 9
4817
LVYDGVRDIRKAVLMIRTPE
CTNNA2





[770-789]



[615-634]





10
3495
GPSDSGTRVLIGCVTSINED
CXorf48
 9
4818
LEHTLLSKGFRGASPHRKST
CXorf61





[105-124]



[94-113]





10
3496
SGQRPRRWCPPPFFYRRRFV
DBPC
 9
4819
VAFWIIKLPRRRSHQDALEG
DKKL1





[216-235]



[167-186]





10
3497
DSSGTKLFVAGGPLPSGLHG
DCAF12
 9
4820
KTQNDVDIADVAYYFEKDVK
EpCAM





[427-446]



[202-221]





10
3498
YPPPSYLGQSVPQFFTFEDA
DMRT1
 9
4821
IVKDARLNGSVASYILASHN
FAM46D





[294-313]



[57-76]





10
3499
LASWARIAARAVQPKALNSC
DPPA2
 9
4822
LQEYAGNFQGIRFHYDRNPG
FATE1





[186-205]



[98-117]





10
3500
EKAPEFSMQGLKAGVIAVIV
EpCAM
 9
4823
EMENTKKFLSLTAVSEETVG
FSIP1





[254-273]



[168-187]





10
3501
SCKETFNLYYAESDLDYGTN
EPHA2
 9
4824
VLLGLFSTIHDSIQYVQKNA
Glypican-





[114-133]



3









[319-338]





10
3502
LRHKCCFSSSGTTSFKCFAP
FMR1NB
 9
4825
PKASTWVVASRRSSTVSRAP
HAGE





[157-176]



[8-27]





10
3503
AQKLMRLQNLRGGHICLHDI
FTHL17
 9
4826
NQPEQVILYQGGQMFDGAPR
IGFS11





[67-86]



[68-87]





10
3504
TTYPPYVPEYSSGLFPPSSL
GATA-3
 9
4827
KKNSYHFSAGFGSPIEDKSE
KU-CT-1





[220-239]



[643-662]





10
3505
DDMVNELFDSLFPVIYTQLM
Glypican-
 9
4828
VLKDFTVSGNLLFMSVRDQD
Lage-1





3



[122-141]





[164-183]









10
3506
CLNVSLADTNSLAVVSTQLI
gp100
 9
4829
KLLTQDWVQENYLEYRQVPG
MAGE-A10





[566-585]



[269-288];









MAGE-A4









[245-264]





10
3507
KYHSDDYIKFLRSIRPDNMS
HDAC1
 9
4830
APEEKIWEELSVLEVFEGRE
MAGE-A3





[66-85]



[216-235];









MAGE-A6









[216-235]





10
3508
SYKHLFQPVINQVVDFYQPT
HDAC3
 9
4831
KSPQGASAIPTAIDFTLWRQ
MAGE-A5





[231-250]



[63-82]





10
3509
ISHATLERIGAVPVMVPAQS
IGFS11
 9
4832
LRKLLTQEWVQENYLEYRQA
MAGE-A8





[406-425]



[245-264]





10
3510
PQDFEIVDPGYLGYLYLQWQ
IL13RA2
 9
4833
DHFTEILNGASRRLELVFGL
MAGE-B1





[35-54]



[144-163]





10
3511
MNPNTLMTHEVPVYRTNQCA
JARID1B
 9
4834
KASEGLSVVFGLELNKVNPN
MAGE-B2





[556-575]



[155-174]





10
3512
MYVIDLMFHPGGLMKLRSRE
KU-CT-1
 9
4835
ILKKASFNMEVVFGVDLKKV
MAGE-B3





[846-865]



[152-171]





10
3513
ISSIGLTYFQSSNLQCSTCT
LIPI
 9
4836
DTTPNNFPLLYEEALRDEEE
MAGE-B4





[418-437]



[294-313]





10
3514
TGHSYVLVTCLGLSYDGLLG
MAGE-A1
 9
4837
DSSGESYTLVSKLGLPSEGI
MAGE-B6





[165-184]



[256-275]





10
3515
AQDRIATTDDTTAMASASSS
MAGE-A10
 9
4838
MIVIKYKDYFPVILKRAREF
MAGE-C2





[341-360]



[169-188]





10
3516
EVLSIMGVYAGREHFLFGEP
MAGE-A11
 9
4839
EKQRELKTARTLSLFYGVNV
MORC1





[336-355]



[341-360]





10
3517
MAELVHFLLLKYRAREPFTK
MAGE-A12
 9
4840
TDYYQELQRDISEMFLQIYK
MUC-1





[113-132]



[1063-1082]





10
3518
SVLRNCQDFFPVIFSKASEY
MAGE-A2
 9
4841
AETEPERHLGSYLLDSENTS
NKX3.1





[138-157]



[91-110]





10
3519
ALVETSYVKVLHHMVKISGG
MAGE-A3
 9
4842
RNKSVRYLDLSANVLKDEGL
NLRP4





[277-296]



[805-824]





10
3520
SGGPRISYPLLHEWALREGE
MAGE-A6
 9
4843
RSLDPQSYSLIHQLLSAEDL
NR6A1





[294-313]



[244-263]





10
3521
MLGDGHSMPKAALLIIVLGV
MAGE-A9
 9
4844
PNDYTKFVAEYFQERQMLGT
NYD-TSPG





[188-207]



[185-204]





10
3522
RNGLLMPLLGVIFLKGNSAT
MAGE-B1
 9
4845
EAELARRSLAQDAPPLPVPG
NY-ESO-1





[197-216]



[101-120]





10
3523
SVTKGEMLKIVGKRFREHFP
MAGE-B2
 9
4846
SMQNYVQFLKSSYANVFGDG
ODF2





[131-150]



[792-811]





10
3524
FLNMLGIYDGKRHLIFGEPR
MAGE-B4
 9
4847
DVRVTKFKAPQYTMAARVEP
ODF3





[223-242]



[189-208]





10
3525
IITEDLVQDKYVVYRQVCNS
MAGE-B6
 9
4848
LHKEKYTLEQALLSASQEIE
PEPP2





[331-350]



[659-678]





10
3526
PVTEAEMLMIVIKYKDYFPV
MAGE-C2
 9
4849
IYTRRNYEAANSLIQNLFKV
PIWIL1





[161-180]



[499-518]





10
3527
KLKMCFNQIQNTYMVQYEKK
MORC1
 9
4850
LVGNIVITRYNNRTYRIDDV
PIWIL2





[861-880]



[413-432]





10
3528
SDVPFPFSAQSGAGVPGWGI
MUC-1
 9
4851
IRKTQKIVIKKREPLNFGIP
RCAS1





[1142-1161]



[102-121]





10
3529
PLCSTFSDQSAYVSAIRDCF
NXF2
 9
4852
GAIRKMREDRWAVIAKMDRK
SCP-1





[331-350]



[946-965]





10
3530
VLVKRKLVHDIIDLIYLNGL
NYD-TSPG
 9
4853
LQKKIMMETQQQEIASVRKS
SCP3a





[401-420]



[211-230]





10
3531
SLLMWITQCFLPVFLAQPPS
NY-ESO-1
 9
4854
EKEKRTLLERKLSLENKLLQ
se57-1





[157-176]



[199-218]





10
3532
PYPYCLCYSKRSRSCGLCDL
ODF1
 9
4855
EVLEERTRIQFIRWSHTRIF
SPATA19





[51-70]



[106-125]





10
3533
VVTFGIKHSDYMTPLLVDVE
ODF3
 9
4856
PTGGSRLASSSEVLASIENI
SPO11





[235-254]



[35-54]





10
3534
FTCAILCYFNHKSFWSLILS
ODF4
 9
4857
AFDDIATYFSKKEWKKMKYS
SSX-1





[194-213]



[24-43]





10
3535
VVLEAPFLVGIEGSLKGSTY
OIP5
 9
4858
WEKMKASEKIFYVYMKRKYE
SSX-2





[113-132]



[37-56]





10
3536
EELDESYQKVIELFSVCTNE
PBK
 9
4859
WEKMKSSEKIVYVYMKLNYE
SSX-4





[284-303]



[37-56]





10
3537
TDGGLFLLADVSHKVIRNDC
PIWIL2
 9
4860
NGDDAFVRRPRVGSQIPEKM
SSX-5





[370-389]



[2-21]





10
3538
WPGFAISVSYFERKLLFSAD
PIWIL4
 9
4861
NEGTSSIVMEIQKQIEKKEK
TAF7L





[243-262]



[384-403]





10
3539
NNDVCVHFHELHLGLGCPPN
PLAC1
 9
4862
AAVALVSSSAWSSALGSQTT
TAG-1





[45-64]



[15-34]





10
3540
SPYLGQMINLRRLLLSHIHA
PRAME
 9
4863
IMLLERSIMAKEGPLKVAQT
TEKT5





[253-272]



[374-393]





10
3541
GEVKRQIYVAAFTVQAAAET
PSMA
 9
4864
KDRTMNLQDIRYILKNDLKD
TEX14





[726-745]



[497-516]





10
3542
DMNIYELIRGRRYPLSEKKI
RAGE-1
 9
4865
KDLRRHKIYGRKRRLTSQDS
TEX15





[86-105]



[933-952]





10
3543
PTPDNVLSAVTPELINLAGA
SAGE1
 9
4866
SEIELLRSQMANERISMQNL
TSGA10





[404-423]



[548-567]





10
3544
VECTYISIDQVPRTYAIMIS
SCRN1
 9
4867
ESEQAALGEEAVLLLDDIMA
TSPY1





[52-71]



[53-72]





10
3545
LCAALWILMKNPVLICLALS
SLCO6A1
 9
4868
DSFQDYIKSYLEQASRIWSW
TYR





[372-391]



[458-477]





10
3546
DQRTLAAAAAAQQGFLFPPG
SOX-6
 9
4869
KIESQRIISGRISGYISEAS
ZNF165





[275-294]



[201-220]





10
3547
IFYVYMKRKYEAMTKLGFKA
SSX-2
10
4870
KLSQKFTKVNFTEIQKLVLD
AFP





[46-65]



[242-261]





10
3548
DLPCVIESLRTLDKKTFYKT
TAF7L
10
4871
DAMLRKLYNVMFAKKVPEHV
AKAP-3





[155-174]



[375-394





10
3549
VTLECFAFGNPVPRIKWRKV
TAG-1
10
4872
EVDMLKIRSEFKRKYGKSLY
ANXA2





[257-276]



[297-316]





10
3550
LVMTKCRLEHELAIKANTLC
TEKT5
10
4873
PSRQTAIIVNPPPPEYINTK
BRDT





[443-462]



[4-23]





10
3551
MGTPRIQHLLILLVLGASLL
TEX101
10
4874
PAQLAAQMLGKVSSIHSDQS
CABYR





[1-20]



[172-191]





10
3552
PKPHVSDHNALLHLARPKAQ
THEG
10
4875
TSKLQRLLAESRQMVTDLEL
CCDC62





[290-309]



[631-650]





10
3553
VFKEAFHDISHCLKAQMEKI
TMEM31
10
4876
LKTEENSFKRLMIVKKEKLA
CDCA1





[100-119]



[334-353]





10
3554
QYFSDLFNILDTAIIVILLL
TPTE
10
4877
SPPASNMLKMEWSREVTTNA
CRISP2





[152-171]



[52-71]





10
3555
HREKFCYELTGEPLVCSMEG
TSP50
10
4878
ALLARKQGAGDSLIAGSAMS
CT45





[301-320]



[34-53]





10
3556
PEKDKFFAYLTLAKHTISSD
TYR
10
4879
TLQTVHFTSEAVELQDMSLL
CTCFL





[129-148]



[81-100]





10
3557
PYSSDNLYQMTSQLECMTWN
WT1
10
4880
TDNNLAVYDLSRDILNNFPH
CXorf61





[220-239]



[53-72]





10
3558
EIHTKEQILELLVLEQFLTI
ZNF165
10
4881
LEGGHWLSEKRHRLQAIRDG
DKKL1





[81-100]



[184-203]





11
3559
VLCSQPVSILSPNTLKEIEA
ACRBP
10
4882
SVDSFQIVLDPMLDFYSDKN
FAM46D





[121-140]



[172-191]





11
3560
GSNRNFSVWLGASVVAHLST
ACTL8
10
4883
PNTKAEMEMSLAEELNHGRQ
FATE1





[330-349]



[6-25]





11
3561
HHCHCNYLWDPPNCLIKGYG
ADAM29
10
4884
FERIMKYERLARILLQEIPI
FBXO39





[640-659]



[289-308]





11
3562
DEKQWHDVSVYLGLTNCPSS
CCDC62
10
4885
PVKGYELAVTQHQQLAEIDI
FSIP1





[457-476]



[306-325]





11
3563
SADKMQQLNAAHQEALMKLE
CDCA1
10
4886
MAASALRGLPVAGGGESSES
GASZ





[148-167]



[1-20]





11
3564
ARCMRRDFVKHLKKKLKRMI
CT45
10
4887
RNRPGMLVLTPTRELALQVE
HAGE





[170-189]



[314-333]





11
3565
CAYGTRYLDDLCVKILREDK
CT46
10
4888
EMTKYHSDEYIKFLRSIRPD
HDAC2





[51-70]



[64-83]





11
3566
GAGAAARAGEGLGLIQEAAS
CT47
10
4889
QVNTDSETAVVNVTYSSKDQ
KOC1





[175-194]



[112-131]





11
3567
CEKLNRFNSELVHEILCLEK
CTAGE2
10
4890
SILKNLRRVHPVSTMVKGLY
LDHC





[101-120]



[262-281]





11
3568
LEERLESIISGAALMADSSC
CTNNA2
10
4891
LGFSPGPILPSTRKLYEKKL
LEMD1





[303-322]



[19-38]





11
3569
ESIQFCFIWRAISITPVHKS
CXorf48
10
4892
GSDPVRYEFLWGPRALAETS
MAGE-A8





[223-242]



[266-285]





11
3570
RPPSVAPPPMVAEIPSAGTG
DBPC
10
4893
EPRKLITQDLVKLKYLEYRQ
MAGE-B3





[186-205]



[243-262]





11
3571
KATDSFHTELHPRVAFWIIK
DKKL1
10
4894
PVSSSFSYTLLSLFQSSPER
MAGE-C1





[154-173]



[446-465]





11
3572
SSFYQPSLFPYYNNLYNCPQ
DMRT1
10
4895
NAPPAYEKLSAEQSPPPYSP
MART1





[211-230]



[99-118]





11
3573
QKARCKIPALPLPTILPPIN
DPPA2
10
4896
RAKRKLYTSEISSPIDISGQ
MPHOSPH1





[74-93]



[1775-1794]





11
3574
IVVVVIAVVAGIVVLVISRK
EpCAM
10
4897
AFSHTQVIELERKFSHQKYL
NKX3.1





[272-291]



[130-149]





11
3575
QDIGACVALLSVRVYYKKCP
EPHA2
10
4898
FKDPKRAMEAFNLVRESEQL
NLRP4





[183-202]



[315-334]





11
3576
SYERRQILHLITMMALKVLG
FAM46D
10
4899
STWQELILLSSLTVYSKQIF
NR6A1





[315-334]



[322-341]





11
3577
VSKPFGMLMLSIWILLFVCY
FMR1NB
10
4900
PKKPSAFKPAIEMQNSVPNK
NY-BR-1





[65-84]



[461-480]





11
3578
QVKTIKELGGYVSNLRKICS
FTHL17
10
4901
KNYEGMIDNYKSQVMKTRLE
ODF2





[142-161]



[537-556]





11
3579
CGHLITAVQNVITELPVNSQ
GASZ
10
4902
SIPQFPITSDSTISTLETPQ
PASD1





[367-386]



[668-687]





11
3580
QDEKECLKYQVPLPDSMKLE
GATA-3
10
4903
RSVPAGLTLQSVSPQSLQGK
PEPP2





[178-197]



[595-614]





11
3581
GSLGPLLDGTATLRLVKRQV
gp100
10
4904
RRSIAGFVASINEGMTRWFS
PIWIL1





[452-471]



[641-660]





11
3582
GDVGNYYYGQGHPMKPHRIR
HDAC1
10
4905
GSEGTVVQLLANHFRVISRP
PIWIL3





[17-36]



[119-138]





11
3583
GDIGNYYYGQGHPMKPHRIR
HDAC2
10
4906
FEGRTRYSRITGGMEAEVGE
PRSS55





[18-37]



[59-78]





11
3584
PDVGNFHYGAGHPMKPHRLA
HDAC3
10
4907
APRLAEYQAYIDFEMKIGDP
SART3





[11-30]



[307-326]





11
3585
MTSQRSPLAPLLLLSLHGVA
IGFS11
10
4908
ESKQLNVYEIKVNKLELELE
SCP-1





[1-20]



[632-651]





11
3586
TNYNLFYWYEGLDHALQCVD
IL13RA2
10
4909
GEVQNMLEGVGVDINKALLA
SCP3a





[167-186]



[68-87]





11
3587
DAFKSDYFNMPVHMVPTELV
JARID1B
10
4910
YESTSAHIIEETEYVKKIRT
se57-1





[387-406]



[23-42]





11
3588
SVPLWSGVNVAGVALKTLDP
LDHC
10
4911
IAKPNNAYEFGQIINALSTR
SPAG1





[197-216]



[800-819]





11
3589
LLGDNQIMPKTGFLIIVLVM
MAGE-A1
10
4912
STAHSRIRKERPISLGIFPL
SPAG9





[182-201]



[190-209]





11
3590
GILILILSIIFIEGYCTPEE
MAGE-A10
10
4913
QDIHVTRDVVKHHLSKSDLL
SPATA19





[225-244]



[81-100]





11
3591
HPRKLLMQDLVQENYLEYRQ
MAGE-A2
10
4914
DVLDRHRESLLAALRAGGRE
SPO11





[241-260]



[14-33]





11
3592
VFGIELMEVDPIGHLYIFAT
MAGE-A3
10
4915
DNDHNRRIQVEHPQMTFGRL
SSX-1





[161-180]



[85-104]





11
3593
LLGNNQIFPKTGLLIIVLGT
MAGE-A4
10
4916
FGRLQGIFPKIMPKKPAEEG
SSX-3





[190-209]



[101-120]





11
3594
FGIELMEVDPIGHVYIFATC
MAGE-A6
10
4917
HRLRERKQLVVYEEISDPEE
SSX-4





[162-181]



[166-185]





11
3595
RYFPVIFGKASEFMQVIFGT
MAGE-A9
10
4918
QIPEKMQKAFDDIAKYFSEK
SSX-5





[144-163]



[16-35]





11
3596
KSGLLMSLLVVIFMNGNCAT
MAGE-B6
10
4919
KIEDLMEMVQKLQKVGSLEP
SYCE1





[284-303]



[32-51]





11
3597
LQGEEFQSSLQSPVSICSSS
MAGE-C1
10
4920
TADELRMISSTFLNLPFQGI
TDRD1





[616-635]



[807-826]





11
3598
KHLCYCLYRPRKYLYVTSSF
MORC1
10
4921
RITIGTLFSVLHERRSQFPV
TEX14





[262-281]



[328-347]





11
3599
LVLVCVLVALAIVYLIALAV
MUC-1
10
4922
FRQPIFSQYASHQPLPQATY
TEX15





[1164-1183]



[2742-2761]





11
3600
EVLAGLLTNNKKLTYLNVSC
NLRP4
10
4923
RRQLDETNDELAQIARERDI
TSGA10





[741-760]



[330-349]





11
3601
DMYIVQKYISNPLLIGRYKC
NYD-TSPG
10
4924
TPESAPEELLAVQVELEPVN
TSPY1





[235-254]



[104-123]





11
3602
DHRQLQLSISSCLQQLSLLM
NY-ESO-1
11
4925
AYPEKMRNRVLLELNSADLD
5T4





[141-160]



[324-343]





11
3603
DPCNPCYPCGSRFSCRKMIL
ODF1
11
4926
DVAFLLVYREKSNYVGATFQ
ADAM2





[231-250]



[264-283]





11
3604
VMKTRLEADEVAAQLERCDK
ODF2
11
4927
LQTMKQEFLINLVKQKPQIT
AFP





[550-569]



[545-564]





11
3605
CSPGPRYNVNPKILRTGKDL
ODF3
11
4928
YDSDSWAEDLIVSALLLIQY
AKAP-3





[64-83]



[518-537]





11
3606
TSAHVMSMGLLHFYKSRSCS
ODF4
11
4929
KEFADSISKGLMVYANQVAS
AKAP-4





[126-145]



[323-342]





11
3607
QGQRGHTSMKAVYVEPAAAA
PASD1
11
4930
AQRQDIAFAYQRRTKKELAS
ANXA2





[213-232]



[66-85]





11
3608
VSHKVIRNDCVLDVMHAIYQ
PIWIL2
11
4931
YNPPDHEVVTMARMLQDVFE
BRDT





[380-399]



[351-370]





11
3609
DTVQRLTYCLCHMYYNLPGI
PIWIL3
11
4932
EYSDKTTQFPSVYAVPGTEQ
CABYR





[827-846]



[114-133]





11
3610
SAGSGQSPMTVLCSIDWFMV
PLAC1
11
4933
KEAQEQEFLSLQEEFQKLEK
CAGE1





[18-37]



[477-496]





11
3611
LLFSVLLLLSLVTGTQLGPR
PRSS55
11
4934
TQYDLSEFENIGAIGLELWQ
CALR3





[2-21]



[287-306]





11
3612
STAPPWLRHMAAAGISSTIT
SAGE1
11
4935
NKHNELRKAVSPPASNMLKM
CRISP2





[646-665]



[42-61]





11
3613
PAEVGDLFYDCVDTEIKFFK
SCRN1
11
4936
SVRSRLYVGREKKLALMLSG
cTAGE5





[395-414]



[65-84]





11
3614
PIYLENQFILTPTVATTLAG
SLCO6A1
11
4937
DSKLAVSLAETTGLIKLEEE
CTCFL





[407-426]



[166-185]





11
3615
GDNYPVQFIPSTMAAAAASG
SOX-6
11
4938
SGLINSNTDNNLAVYDLSRD
CXorf61





[300-319]



[46-65]





11
3616
AQNGCLYVHSSVAQWRKCLH
SPAG9
11
4939
HKDWIFSIAWISDTMAVSGS
DCAF12





[976-995]



[183-202]





11
3617
NDISCMLKVSRRSLHILSTS
SPO11
11
4940
LVIAEMMELGSRSRGASQKK
FATE1





[155-174]



[32-51]





11
3618
ISYVYMKRNYKAMTKLGFKV
SSX-1
11
4941
EDYFSHHLAVYNSPQFKKTM
FBXO39





[46-65]



[201-220]





11
3619
VMTKLGFKVTLPPFMRSKRA
SSX-4
11
4942
STEPGSFKVDTASNLNSGKE
FSIP1





[57-76]



[35-54]





11
3620
IIYVYMKRKYEAMTKLGFKA
SSX-5
11
4943
KMEEKYQLTARLNMEQLLQS
Glypican-





[46-65]



3









[76-95]





11
3621
EILSKKQETLRILRLHCQEK
SYCE1
11
4944
IPEELVSMAERFKAHQQKRE
HAGE





[100-119]



[613-632]





11
3622
ISNPGLFTSLGPPLRSTTCH
TDRD1
11
4945
QDTDTKITISPLQELTLYNP
KOC1





[152-171]



[304-323]





11
3623
LIIKAGTETAILATKGCIPE
TEX101
11
4946
AAYNKLLNNNLSLKYSQTGY
KU-CT-1





[65-84]



[542-561]





11
3624
ATSREFTNAYKLPLAVGPPS
TEX14
11
4947
LDGAQDSDDSEELNIILQGN
LEMD





[779-798]



[58-77]





11
3625
QRFRGMLWFDLSLLPELVQC
TEX15
11
4948
DGSFSFKLLNQLGMIEEPRL
LIPI





[2086-2105]



[373-392]





11
3626
HLFALSTLYFYKFFLPTILS
TMEM31
11
4949
LLTQNWVQEKYLVYRQVPGT
MAGE-A11





[126-145]



[358-377]





11
3627
PSSRPRLLWQTPTTQTLPST
TSP50
11
4950
EEQETASSSSTLVEVTLREV
MAGE-A12





[66-85]



[34-53]





11
3628
NLNSHLIRHQRIHTREKPYE
ZNF165
11
4951
VAELVRFLLRKYQIKEPVTK
MAGE-A8





[410-429]



[116-135]





12
3629
NRKVSRMRCLQNETYSALSP
ACRBP
11
4952
LNGASRRLELVFGLDLKEDN
MAGE-B1





[501-520]



[150-169]





12
3630
QRVAPEMFFSPQVFEQPGPS
ACTL8
11
4953
NSATEEEIWEFLNMLGVYDG
MAGE-B2





[252-271]



[216-235]





12
3631
YVGKFLLQIPRATIIYANIS
ADAM2
11
4954
SKMKVLEFWAKVNKTVPSAF
MAGE-B3





[549-568]



[284-303]





12
3632
LLHCLGVFLSCSGHIQDEHP
ADAM29
11
4955
FRKVSQRTELVFGLALKEVN
MAGE-B4





[6-25]



[151-170]





12
3633
LAVSVILRVAKGYQELLEKC
AFP
11
4956
PHSSPPYYEFLWGPRAHSES
MAGE-C2





[365-384]



[290-309]





12
3634
CPGSTMGYMAQSTQYEKCGG
AKAP-4
11
4957
QKFGDFLQHSPSILQSKAKK
MPHOSPH1





[570-589]



[1731-1750]





12
3635
QQDTKGDYQKALLYLCGGDD
ANXA2
11
4958
HQKYLSAPERAHLAKNLKLT
NKX3.1





[320-339]



[145-164]





12
3636
MISSKPRLVVPYGLKTLLEG
CABYR
11
4959
SDEGMEVIERLIYLYHKFHQ
NR6A1





[1-20]



[362-381]





12
3637
LIHCSGEMLKFTEKSLAKSI
CAGE1
11
4960
PSLSQEQQEMVQAFSAQSGM
NXF2





[193-212]



[566-585]





12
3638
ILHFKNKYHENKKLIRCKVD
CALR3
11
4961
IEVHNKASLTPLLLSITKRS
NY-BR-1





[147-166]



[109-128]





12
3639
LNFNVENSQELIQMYDSKME
CCDC62
11
4962
LKEKIVLTHNRLKSLMKILS
OIP5





[299-318]



[199-218]





12
3640
GDCEGVIFEGEPMYLNVGEV
CT46
11
4963
MQKLGFGTGVNVYLMKRSPR
PBK





[196-215]



[35-54]





12
3641
GFVPPPLAPIRGLLFPVDTR
CTAGE2
11
4964
YNVTSDYAVHPMSPVGRTSR
PEPP2





[659-678]



[128-147]





12
3642
PGFVPPPLAPIRGPLFPVDA
cTAGE5
11
4965
VGQSIHREPNLSLSNRLYYL
PIWIL1





[689-708]



[842-861]





12
3643
GCGIHAIELNPSRTLLATGG
DCAF12
11
4966
VAGSMGFNVDYPKIIKVQEN
PIWIL4





[140-159]



[509-528]





12
3644
LQFHAGQAWVPTTHRRMISL
DPPA2
11
4967
NLRRLLLSHIHASSYISPEK
PRAME





[241-260]



[261-280]





12
3645
KFITSILYENNVITIDLVQN
EpCAM
11
4968
EENSRLLQERGVAYINADSS
PSMA





[179-198]



[436-455]





12
3646
TWDQVITLDQVLDEVIPIHG
FAM46D
11
4969
KRRGPAYVMELPKLKLSGVV
RAGE-1





[10-29]



[339-358]





12
3647
YFKIWAFLDVSFVERILKSQ
FBXO39
11
4970
QVISVTFEKALNAGFIQATD
SART3





[370-389]



[397-416]





12
3648
ISLILVCLPIYCRSLFWRSE
FMR1NB
11
4971
DSDPALQKVNFLPVLEQVGN
SCP-1





[193-212]



[63-82]





12
3649
SNLRKICSPEAGLAEYLFDK
FTHL17
11
4972
DVIEGKTAVIEKRRKKRSSA
SCP3a





[154-173]



[41-60]





12
3650
AARDGHTQVVALLVAHGAEV
GASZ
11
4973
EAQNKELKTQVALSSETPRT
se57-1





[156-175]



[289-308]





12
3651
RDGTGHYLCNACGLYHKMNG
GATA-3
11
4974
DLNKVILLDPSIIEAKMELE
SPAG1





[277-296]



[713-732]





12
3652
RLAQSYLKEPMIVYVGTLDL
HAGE
11
4975
DIMRDRIEQVRRSISRLTDV
SPATA19





[436-455]



[134-153]





12
3653
LPYSEYFEYFAPDFTLHPDV
HDAC3
11
4976
PNRGNQVERPQMTFGRLQGI
SSX-2





[323-342]



[88-107]





12
3654
IFCIALILGAFFYWRSKNKE
IGFS11
11
4977
AQIPEKIQKAFDDIAKYFSK
SSX-3





[255-274]



[15-34]





12
3655
DLNKGIEAKIHTLLPWQCTN
IL13RA2
11
4978
KDKLKIDLLPDGRHAVVEVE
TAF7L





[96-115]



[126-145]





12
3656
LYALPCVLSQTPLLKDLLNR
JARID1B
11
4979
DFSTKSVFSKFAQLNLAAED
TAG-1





[849-868]



[214-233]





12
3657
PCDLPLRLLVPTQFVGAIIG
KOC1
11
4980
LQVRGAEASRLWASRLTDDS
TEKT5





[193-212]



[100-119]





12
3658
WLIHGYRPVGSIPLWLQNFV
LIPI
11
4981
EDIPEISRLSISQKLPSTTM
THEG





[99-118]



[97-116]





12
3659
EEGPSTSCILESLFRAVITK
MAGE-A1
11
4982
MDVLLRVFVERRQQYFSDLF
TPTE





[85-104]



[139-158]





12
3660
PQSAQIACSSPSVVASLPLD
MAGE-A10
11
4983
DDERMEQMSNMTLMKETIST
TSGA10





[84-103]



[155-174]





12
3661
CIPEEVMWEVLSIMGVYAGR
MAGE-A11
11
4984
YEVEAYRRRHHNSSLNFFNW
TSPY1





[328-347]



[241-260]





12
3662
MVELVHFLLLKYRAREPVTK
MAGE-A2
11
4985
FLLHHAFVDSIFEQWLRRHR
TYR





[113-132]



[386-405]





12
3663
EFQAALSRKVAELVHFLLLK
MAGE-A3
11
4986
GATLKGVAAGSSSSVKWTEG
WT1





[104-123]



[244-263]





12
3664
FPDIFSKASECMQVIFGIDV
MAGE-A8
12
4987
DERQNRSFEGMVVAALLAGR
5T4





[150-169]



[188-207]





12
3665
RRKLLMPLLGVIFLNGNSAT
MAGE-B2
12
4988
QKATDIMDAMLRKLYNVMFA
AKAP-3





[200-219]



[368-387]





12
3666
NCAREEEIWEFLNMLGIYDG
MAGE-B4
12
4989
ELEHLQTVKNISPLQILPPS
BRDT





[213-232]



[743-762]





12
3667
AYAETTKMRVLRVLADSSNT
MAGE-B6
12
4990
QEKRGAVYEAVTTINQEIQK
CDCA1





[363-382]



[381-400]





12
3668
LGLSNIKFRPGSVVVQLTLA
MUC-1
12
4991
QLQVQREIVNKHNELRKAVS
CRISP2





[1087-1106]



[33-52]





12
3669
DRFLYTFYFCCRELRELPPT
NLAP4
12
4992
MMQKPGSNAPVGGNVTSSFS
CT45





[180-199]



[84-103]





12
3670
MSVPPHYQYIPHLFSYSGHS
NA6A1
12
4993
QLLAERTKEQLFFVETMSGD
CTCFL





[217-236]



[190-209]





12
3671
LRHTPYSIRCERRMKWHSED
NXF2
12
4994
ADMADVMRLLSHLKIVEEAL
CTNNA2





[76-95]



[141-160]





12
3672
LLWKKIHRMVILTILAIAPS
NYD-TSPG
12
4995
VEEDKPHYGLRAIKVDVVPR
CXorf48





[340-359]



[80-99]





12
3673
RRDIKKVDRELRQLRCIDEF
ODF1
12
4996
SMVENKLVELEHTLLSKGFR
CXorf61





[12-31]



[85-104]





12
3674
LPFQWRITHSFRWMAQVLAS
ODF4
12
4997
VPPPRFRPRYRRPFRPRPRQ
DBPC





[66-85]



[272-291]





12
3675
LQEPCVAFNQQQLVQQEQHL
PASD1
12
4998
KMTDNKTGEVLISENVVASI
DKKL1





[470-489]



[108-127]





12
3676
LSHSPWAVKKINPICNDHYR
PBK
12
4999
PQYSMALAADSASGEVGNPL
DMRT1





[56-75]



[229-248]





12
3677
TYKLCHIYYNWPGVIRVPAP
PIWIL1
12
5000
GVPFRTVSEWLESIKMQQYT
EPHA2





[812-831]



[903-922]





12
3678
CKYAHKLAFLSGHILHHEPA
PIWIL2
12
5001
VAQTSLEEFNVLEMEVMARQ
FATE1





[944-963]



[121-140]





12
3679
SEKILMQDHICQPVSAADWS
PIWIL4
12
5002
KHNQDFIKRNIELAKESANP
FSIP1





[451-470]



[249-268]





12
3680
CKKLKIFAMPMQDIKMILKM
PRAME
12
5003
ARRDLKVFGNFPKLIMTQVS
Glypican-





[210-229]



3









[201-220]





12
3681
EGNYTLRVDCTPLMYSLVHN
PSMA
12
5004
SYTWDFGDSSGTLISRALVV
gp100





[457-476]



[257-276]





12
3682
TVPPAFINMAATGVSSMSTR
SAGE1
12
5005
PYNDYFEYFGPDFKLHISPS
HDAC1





[600-619]



[329-348];









HDAC2









[330-349]





12
3683
RNCPWTVALWSRYLLAMERH
SART3
12
5006
RQQTDMAVNWAGGLHHAKKS
HDAC2





[373-392]



[127-146]





12
3684
GVRCICSQLSLTTKMDAEHP
SCRN1
12
5007
LQEPSDLRAVLLINSKSYVS
KU-CT-1





[183-202]



[592-611]





12
3685
TLIFSGFSGVPIVLAMTRVV
SLCO6A1
12
5008
GETRLALVQRNVAIMKSIIP
LDHC





[588-607]



[103-122]





12
3686
AAAQQGFLFPPGITYKPGDN
SOX-6
12
5009
AREPFTKAEMLGSVIRNFQD
MAGE-A12





[283-302]



[126-145]





12
3687
SKAERFKMMLTLISKGQKEL
SPAG1
12
5010
DGREHTVYGEPRKLLTQDWV
MAGE-A4





[877-896]



[233-252]





12
3688
RYDEEVVKELMPLVVAVLEN
SPAG9
12
5011
AEMLESVIKNYKRYFPVIFG
MAGE-A9





[41-60]



[132-151]





12
3689
SFEAHHLTVPAIRWLGLLPS
SPO11
12
5012
ETTKMKVLEFLAKMNGATPR
MAGE-B1





[297-316]



[279-298]





12
3690
HNRRIQVEHPQMTFGRLHRI
SSX-1
12
5013
LKKPQRALSTTTSVDVSYKK
MAGE-B3





[88-107]



[62-81]





12
3691
PNRGNQVEHPQMTFGRLQGI
SSX-5
12
5014
LQIPVSPSSSSTLLSLFQSF
MAGE-C1





[88-107]



[233-252]





12
3692
KDLGEARTICEALQKELDSL
SYCE1
12
5015
KDYFPVILKRAREFMELLFG
MAGE-C2





[72-91]



[175-194]





12
3693
TPWMDYEFRVIASNILGTGE
TAG-1
12
5016
LKSGSMRIGKDFILFTKKEE
MORC1





[676-695]



[103-122]





12
3694
LRLRETQDTLQLLVMTKCRL
TEKT5
12
5017
EENIGILPRTLNVLFDSLQE
MPHOSPH1





[431-450]



[166-185]





12
3695
FCNDKDSLSQFWEFSETTAS
TEX101
12
5018
RAHLAKNLKLTETQVKIWFQ
NKX3.1





[113-132]



[154-173]





12
3696
EHSSKLRHPYLLQLMAVCLS
TEX14
12
5019
SLVEKTPDEAASLVEGTSDK
NY-BR-1





[297-316]



[263-282]





12
3697
QRILTVDSFAASSTVPHCEQ
TEX15
12
5020
FKLENERLKASFAPMEDKLN
0DF2





[1357-1376]



[504-523]





12
3698
IPRSSLEYRASSRLKELAAP
THEG
12
5021
KASQPSFSIKGRSKLGGFSD
ODF3





[219-238]



[155-174]





12
3699
PTILSLSFFILLVLLLLLFI
TMEM31
12
5022
DQASFTTSMEWDTQVVKGSS
OIP5





[141-160]



[29-48]





12
3700
LVDVVYIFFDIKLLRNIPRW
TPTE
12
5023
TEADRVIQRTNSMQQLEQWI
PEPP2





[171-190]



[399-418]





12
3701
PEAVARRWPWMVSVRANGTH
TSP50
12
5024
DVSHKLLRIETAYDFIKRTS
PIWIL3





[117-136]



[283-302]





12
3702
QALVCASAKEGTAFRMEAVQ
TSPY1
12
5025
QEAQPLQPSHFLDISEDWSL
PLAC1





[27-46]



[184-203]





12
3703
EAPAFLPWHRLFLLRWEQEI
TYR
12
5026
LTSPSMEIKEVASIILHKDF
PRSS55





[203-222]



[129-148]





12
3704
RNQGYSTVTFDGTPSYGHTP
WT1
12
5027
YDPDERIAAHQALQHPYFQE
RAGE-1





[145-164]



[268-287]





12
3705
CSECGRAFSQSSNLSQHQRI
ZNF165
12
5028
FVPPRSSSSQVSAVKPQTLG
SCP-1





[458-477]



[10-29]





13
3706
MNPEAIHFSGVKIFSNCSFE
ADAM2
12
5029
RKRLEMYTKASLKTSNQKIE
SCP3a





[338-357]



[89-108]





13
3707
TMRSGFMQNEITCRMEFEEI
ADAM29
12
5030
NLVQRMEKEKRTLLERKLSL
se57-1





[161-180]



[193-212]





13
3708
SILDSYQCTAEISLADLATI
AFP
12
5031
EQVRRSISRLTDVSAQDFSM
SPATA19





[30-49]



[141-160]





13
3709
GDLENAFLNLVQCIQNKPLY
ANXA2
12
5032
PNRGNQVQRPQMTFGRLQGI
SSX-3





[250-269]



[88-107]





13
3710
LQCSNLYLEKRVKELQMKIT
CAGE1
12
5033
KQKNEKLISLQEQLQRFLKK
TAF7L





[326-345]



[443-462]





13
3711
LYPNPKPEVLHMIYMRALQI
CDCA1
12
5034
IISDVLIDEHLVLKSASPHK
TDRD1





[36-55]



[883-902]





13
3712
CGIAYCPNQDSLKYYYVCQY
CRISP2
12
5035
DKKSENIASLGESLAMKEKT
TSGA10





[150-169]



[278-297]





13
3713
VTSRLYVRREKKFAVALSGL
CTAGE2
13
5036
LADLSPFAFSGSNASVSAPS
5T4





[36-55]



[154-173]





13
3714
CFRQKQLLNAHFRKYHDANF
CTCFL
13
5037
SPNTLKEIEASAEVSPTTMT
ACRBP





[522-541]



[131-150]





13
3715
GVKLVRMAATQIDSLCPQVI
CTNNA2
13
5038
IERGRILNWEGVQYLWSFVL
ACTL8





[444-463]



[67-86]





13
3716
SFCGDYGMIDESIYFSSDVV
CXorf48
13
5039
PPSKKSFFYKEVFESRNGDY
AKAP-3





[45-64]



[234-253]





13
3717
ATVPATAAGVVAVVVPVPAG
DBPC
13
5040
DIMEAMLKRLVSALIGEEKE
AKAP-4





[16-35]



[421-440]





13
3718
VVHGRLLSADTKGWVALQFH
DPPA2
13
5041
DEIEIDFETLKASTLRELEK
BRDT





[225-244]



[550-569]





13
3719
MAPPQVLAFGLLLAAATATF
EpCAM
13
5042
KTTSGMSKKSVESVKLAQLE
CABYR





[1-20]



[350-369]





13
3720
GMTKYDYLMTLHGVVNESTV
FAM46D
13
5043
QDWEKHFLDASTSKQSDWNG
CALR3





[292-311]



[226-245]





13
3721
VLTKKFQVTMRGLLSCLSKS
FBXO39
13
5044
EKQDYKQKLKALKIEVNKLK
CCDC62





[103-122]



[204-223]





13
3722
RAMRVAHLELATYELAATES
FMR1NB
13
5045
ESPDLSISHSQVEQLVNKTS
CT46





[17-36]



[306-325]





13
3723
PASSSSLSGGHASPHLFTFP
GATA-3
13
5046
TLEGERNQIYIQLSEVDKTK
cTAGE5





[135-154]



[328-347]





13
3724
LQVTRIFLQALNLGIEVINT
Glypican-
13
5047
SRDILNNFPHSIARQKRILV
CXorf61





3



[63-82]





[223-242]









13
3725
FYTTDRVMTVSFHKYGEYFP
HDAC1
13
5048
VVDVQTSQITKIPILKDREP
DCAF12





[187-206];



[114-133]





HDAC2









[188-207]









13
3726
NANIPSIYANGTHLVPGQHK
IGFS11
13
5049
EVLISENVVASIQPAEGSFE
DKKL1





[351-370]



[116-135]





13
3727
VIFVTGLLLRKPNTYPKMIP
IL13RA2
13
5050
GISHPIPLPSAAELLVKREN
DMRT1





[355-374]



[132-151]





13
3728
ENDQVVVKITGHFYACQVAQ
KOC1
13
5051
DLAPDTTYLVQVQALTQEGQ
EPHA2





[531-550]



[496-515]





13
3729
IQSAYEIIKLKGYTSWAIGL
LDHC
13
5052
KAAGSASAKRVWNMTATRPK
FATE





[235-254]



[57-76]





13
3730
FNTQKKTVWLIHGYRPVGSI
LIPI
13
5053
SKTLGIGRLKRPSFLDDPLY
FSIP1





[91-110]



[524-543]





13
3731
EALNMMGLYDGMEHLIYGEP
MAGE-A10
13
5054
EAGLAEYLFDKLTLGGRVKE
FTHL17





[248-267]



[163-182]





13
3732
KVLHHLLKISGGPHISYPPL
MAGE-A12
13
5055
PVNSQKITLEWASPQNFTSV
GASZ





[285-304]



[382-401]





13
3733
EQQTASSSSTLVEVTLGEVP
MAGE-A2
13
5056
MEVTVYHRRGSRSYVPLAHS
gp100





[35-54]



[184-203]





13
3734
AEMLGSVVGNWQYFFPVIFS
MAGE-A3
13
5057
KALENFKTGKVRILIATDLA
HAGE





[133-152];



[528-547]





MAGE-A6









[133-152]









13
3735
WEAGMLMHFILRKYKMREPI
MAGE-B1
13
5058
QNSRQYLDQIRQTIFENLKM
HDAC3





[110-129]



[349-368]





13
3736
VVFGLELNKVNPNGHTYTFI
MAGE-B2
13
5059
SIPVHLNSLPRLETLVAEVQ
JARID1B





[162-181]



[1048-1067]





13
3737
LCNDVLAMKRSSSLPSWKSL
MORC1
13
5060
THEDKIVRRNATMIFGILAS
KU-CT-1





[757-776]



[77-96]





13
3738
MTPGTQSPFFLLLLLTVLTV
MUC-1
13
5061
APEEEIWEELSVMEVYDGRE
MAGE-A1





[1-20]



[209-228]





13
3739
AELFALLCRLADELLFRQIA
NR6A1
13
5062
TVRPADLTRVIMPLEQRSQH
MAGE-A11





[281-300]



[100-119]





13
3740
HENENYLLHENCMLKKEIAM
NY-BR-1
13
5063
PVIFGKASESLKMIFGIDVK
MAGE-A4





[1038-1057]



[149-168]





13
3741
SQALGSLRTTTPAFTLNIPS
NYD-TSPG
13
5064
TKAEMLESVIKNYKNHFPDI
MAGE-A8





[12-31]



[134-153]





13
3742
ENRYDCLGSKKYSYMNICKE
ODF1
13
5065
EPRKLLTQDWVQENYLEYRQ
MAGE-A9





[155-174]



[240-259]





13
3743
RTKAFRVDSTPGPAAYMLPM
ODF3
13
5066
QSRTDPLIMKTNMLVQFLME
MAGE-B3





[127-146]



[105-124]





13
3744
KVTFIFSTLMLFPINIWIFE
ODF4
13
5067
TTAMTSAYSRATSSSSSQPM
MAGE-B4





[151-170]



[327-346]





13
3745
KSSQRKLNWIPSFPTYDYFN
PASD1
13
5068
EYKPYFPQILNRTSQHLVVA
MAGE-B6





[15-34]



[228-247]





13
3746
MARGLKYLHQEKKLLHGDIK
PBK
13
5069
PLQSPVISFSSSTSLSPFSE
MAGE-C1





[150-169]



[850-869]





13
3747
FVASINLTLTKWYSRVVFQM
PIWIL2
13
5070
EEEEEASSASSTLYLVFSPS
MAGE-C2





[760-779]



[34-53]





13
3748
MSLKGHLQSVTAPMGITMKP
PIWIL3
13
5071
KKIIETMSSSKLSNVEASKE
MPHOSPH1





[523-542]



[1749-1768]





13
3749
PSLSHCSQLTTLSFYGNSIS
PRAME
13
5072
LSSELGDLEKHSSLPALKEE
NKX3.1





[400-419]



[184-203]





13
3750
VLPGLTYLTVAGIPAMSTRD
SAGE1
13
5073
KFKEHLKQMTLQLELKQIPW
NLRP4





[554-573]



[25-44]





13
3751
FIDENVATHSAGIYLGIAEC
SLCO6A1
13
5074
SETLKHLVLQFLQQYYSIYD
NXF2





[253-272]



[385-404]





13
3752
CWPTGGATVAEARVYRDARG
SOX-6
13
5075
ELSKSMESMRGHLQAQLRSK
ODF2





[594-613]



[337-356]





13
3753
KEACAHLLAITAPKDLPMFL
SPAG1
13
5076
IVNASEMDIQNVPLSEKIAE
OIP5





[822-841]



[179-198]





13
3754
AGSIYREFERLIGRYDEEVV
SPAG9
13
5077
YSPQRTYRSEVSSPIQRGDV
PEPP2





[28-47]



[556-575]





13
3755
YVYMKRKYEAMTKLGFKAIL
SSX-3
13
5078
LQFYNIIFRRLLKIMNLQQI
PIWIL1





[48-67]



[209-228]





13
3756
IKATKPLLMEQYCSIKIVDI
TDRD1
13
5079
DYPKIIKVQENPAAFVRAIQ
PIWIL4





[396-415]



[518-537]





13
3757
KCCGLTSLPAVQAPVIQECY
TEKT5
13
5080
LYSEELFPEELSVVLGTNDL
PRSS55





[17-36]



[110-129]





13
3758
EVKGCTAMIGCRLMSGILAV
TEX101
13
5081
SFDSLFSAVKNFTEIASKFS
PSMA





[181-200]



[628-647]





13
3759
ILKKGIYVDAVNSLGQTALF
TEX14
13
5082
YVMELPKLKLSGVVRLSSYS
RAGE-1





[42-61]



[345-364]





13
3760
PTLRSLLWYDETLYAELLGK
TEX15
13
5083
AIVEAARLEKVHSLFRRQLA
SART3





[1714-1733]



[237-256]





13
3761
KRYVAYFAQVKHLYNWNLPP
TPTE
13
5084
EETRQVYMDLNNNIEKMITA
SCP-1





[391-410]



[205-224]





13
3762
PRTSAPSRAGALLLLLLLLR
TSP50
13
5085
LQQSRIVQSQRLKTIKQLYE
SCP3a





[14-33]



[161-180]





13
3763
YRVPERLRQGFCGVGRAAQA
TSPY1
13
5086
DRDEAWVLETIGKYWAAEKV
SCRN1





[9-28]



[161-180]





13
3764
LAVLYCLLWSFQTSAGHFPR
TYR
13
5087
KQEDSKQLLQVNKLEKEQKL
se57-1





[3-22]



[148-167]





14
3765
YASWFESFCQFTHYRCSNHV
ACRBP
13
5088
FLPITSSDIDVVESEAVSVL
SPATA19





[96-115]



[20-39]





14
3766
MAARTVIIDHGSGFLKAGTA
ACTL8
13
5089
ADSKMKAEIQALTFLSSDYL
SPO11





[1-20]



[362-381]





14
3767
SKPMRWPFFLFIPFFIIFCV
ADAM2
13
5090
LQIEEEKNKQRQLRLAFEEQ
SYCE1





[682-701]



[142-161]





14
3768
NIVDSILDVIGVKVLLFGLE
ADAM29
13
5091
GSIPGFLISSGMSSHKQGHT
TAF7L





[230-249]



[295-314]





14
3769
LTSSELMAITRKMAATAATC
AFP
13
5092
TDGRHFVSQTTGNLYIARTN
TAG-1





[442-461]



[179-198]





14
3770
TNSLQKQLQAVLQWIAASQF
AKAP-4
13
5093
EDTTLTITVPAVSRRVEELS
THEG





[767-786]



[179-198]





14
3771
ASALKSALSGHLETVILGLL
ANXA2
13
5094
ENELDSAHSEIELLRSQMAN
TSGA10





[84-103]



[540-559]





14
3772
NGKSQYYIMFGPDICGFDIK
CALR3
13
5095
IQDVRRVPGVAPTLVRSASE
WT1





[123-142]



[297-316]





14
3773
KALESNQMECQTALQKTQLQ
CCDC62
13
5096
EHGQEIFQKKVSPPGPALNV
ZNF165





[94-113]



[142-161]





14
3774
PRYNVAEIVIHIRNKILTGA
CDCA1
14
5097
GYHYRYEINADPRLTNLSSN
5T4





[7-26]



[398-417]





14
3775
SREVTTNAQRWANKCTLQHS
CRISP2
14
5098
MDTSTDPVRVLSWLRRDLEK
AKAP-3





[64-83]



[32-51]





14
3776
EHQSLVLVKALLAVSVSCIT
CT46
14
5099
PNHHQLAFNYQELEHLQTVK
BRDT





[23-42]



[732-751]





14
3777
GTGVQSTFTTFYEVDCDVID
CTNNA2
14
5100
DQAPEVTLQADIEVMSTVHI
CABYR





[810-829]



[274-293]





14
3778
IHTEEVCITSVHGRNGVIDY
CXorf48
14
5101
SDEAKSIRDVPTLLGAKLDK
CAGE1





[175-194]



[674-693]





14
3779
FYLLLASSILCALIVFWKYR
CXorf61
14
5102
SKSLKSQVAEAKMTFKRFQA
CTAGE2





[3-22]



[150-169]





14
3780
RNYFSDIDFFPNAVYTHCYD
DCAF12
14
5103
AEAKMTFKIFQMNEERLKIA
cTAGE5





[408-427]



[188-207]





14
3781
QASGVRWCVVHGRLLSADTK
DPPA2
14
5104
AFQDSVLEEEVELVLAPSEE
CTCFL





[217-236]



[55-74]





14
3782
GIAAGMKYLANMNYVHRDLA
EPHA2
14
5105
PQRPRNRPYFQRARQQAPGP
DBPC





[722-741]



[316-335]





14
3783
LHLITMMALKVLGELNILPN
FAM46D
14
5106
LFSAPMDFRGLPGNYHKEEN
DKKL1





[322-341]



[71-90]





14
3784
LIIAVLVSASIANLWLWMNQ
FATE1
14
5107
VENTPDLVSDSTYYSSFYQP
DMRT1





[164-183]



[197-216]





14
3785
LPIYCRSLFWRSEPADDLQR
FMR1NB
14
5108
TVNGEQLDLDPGQTLIYYVD
EpCAM





[200-219]



[234-253]





14
3786
YTSYLYLSMAFYFNRDDVAL
FTHL17
14
5109
KYRKLIESELSYFVIVYSVM
FBXO39





[30-49]



[423-442]





14
3787
VSTWNSRILKRTAITICGFG
GASZ
14
5110
DIEDVTPVFPQLSRSIISKL
FSIP1





[443-462]



[433-452]





14
3788
RAMLGTHTMEVTVYHRRGSR
gp100
14
5111
SSFNPAALSRHMSSLSHISP
GATA-3





[176-195]



[390-409]





14
3789
KIKNIQSTTNTTIQIIQEQP
HAGE
14
5112
EAFEIVVRHAKNYTNAMFKN
Glypican-





[89-108]



3









[113-132]





14
3790
EAIFKPVMSKVMEMFQPSAV
HDAC1
14
5113
GEARLREMEALQSLRLANEG
JARID1B





[238-257]



[1146-1165]





14
3791
FCSRYTGASLQGATQLNNKI
HDAC3
14
5114
GGLKKLLSFAENSTIPDIQK
KU-CT-1





[103-122]



[274-293]





14
3792
MPATNVSIFINNTQLSDTGT
IGFS11
14
5115
GSDPRSFPLWYEEALKDEEE
MAGE-A10





[98-117]



[320-339]





14
3793
WEGEDLSKKTLLRFWLPFGF
IL13RA2
14
5116
REDSGDFGLQVSTMFSEDDF
MAGE-A11





[331-350]



[23-42]





14
3794
SMNLQAHLIPGLNLNALGLF
KOC1
14
5117
APEEKIWEELSMLEVFEGRE
MAGE-A2





[357-376]



[216-235]





14
3795
VIGSGCNLDSARFRYLIGEK
LDHC
14
5118
KASSSLQLVFGIELMEVDPI
MAGE-A3





[158-177]



[153-172]





14
3796
LETNCNFISFPCRSYKDYKT
LIPI
14
5119
AASSSSTLIMGTLEEVTDSG
MAGE-A8





[285-304]



[38-57]





14
3797
PARYEFLWGPRALAETSYVK
MAGE-A1
14
5120
EEPSSSVDPAQLEFMFQEAL
MAGE-A9





[259-278]



[89-108]





14
3798
CAPEEKIWEELSVLEASDGR
MAGE-A12
14
5121
GEPRKFITQDLVQEKYLKYE
MAGE-B1





[215-234]



[239-258]





14
3799
ELVTKAEMLERVIKNYKRCF
MAGE-A4
14
5122
AETSKMKVLEFLAKVNGTTP
MAGE-B2





[129-148]



[281-300]





14
3800
VAKLVHFLLLKYRAREPVTK
MAGE-A6
14
5123
NSNPARYEFLWGPRAHAETS
MAGE-B3





[113-132]



[265-284]





14
3801
AGARPRVAARRGTTAMTSAY
MAGE-B4
14
5124
PHLYEDALIDEVERALRLRA
MAGE-B6





[315-334]



[388-407]





14
3802
EEVIWEVLNAVGVYAGREHF
MAGE-C2
14
5125
SDEQGMSQNRLLILILSIIF
MAGE-C1





[246-265]



[989-1008]





14
3803
KCGTLLVIYNLKLLLNGEPE
MORC1
14
5126
TSASGSASGSASTLVHNGTS
MUC-1





[193-212]



[959-978]





14
3804
TTQKEFFQGCIMQPVKDLLK
MPHOSPH1
14
5127
EAFSRASLVSVYNSYPYYPY
NKX3.1





[123-142]



[203-222]





14
3805
NRFPDLMMCLPEIRYIAGKM
NR6A1
14
5128
MAASFFSDFGLMWYLEELKK
NLRP4





[435-454]



[1-20]





14
3806
QTERMLCFSVNGVFKEVEGQ
NXF2
14
5129
RADPVDLEFSVDQVDSVDQE
PASD1





[491-510]



[298-317]





14
3807
INLVDVYGNTALHYAVYSEI
NY-BR-1
14
5130
SATEVGRIQASPLPRSVDLS
PIWIL4





[76-95]



[17-36]





14
3808
FSDFKDFIFDDMYIVQKYIS
NYD-TSPG
14
5131
KYADKIYSISMKHPQEMKTY
PSMA





[225-244]



[606-625]





14
3809
IEAARRQFQSQLADLQQLPD
ODF2
14
5132
YVEIWQAYLDYLARRVDFKQ
SART3





[582-601]



[417-436]





14
3810
TKPCAPVVTFGIKHSDYMTP
ODF3
14
5133
MEKQKPFALFVPPRSSSSQV
SCP-1





[229-248]



[1-20]





14
3811
KSFWSLILSHPSGAVSCSSS
ODF4
14
5134
IEKARKKASSAGVVEDMGGE
SCP3a





[205-224]



[50-69]





14
3812
PLGPAGLGAEEPAAGPQLPS
OIP5
14
5135
QDKRIENLREKVNILEAQNK
se57-1





[49-68]



[274-293]





14
3813
GYRAFTEANDGSLCLAMEYG
PBK
14
5136
LKNNLIEKDPSLVYQHLLYL
SPAG1





[99-118]



[857-876]





14
3814
GILGSILLPSFQIALLTSED
PEPP2
14
5137
KTRDGGSVVGASVFYKDVAG
SPAG9





[209-228]



[699-718]





14
3815
LRDWGLSFDSNLLSFSGRIL
PIWIL1
14
5138
PDVENEVKALLRSDAEAVST
TAF7L





[438-457]



[259-278]





14
3816
TITSCEWVDFYLLAHHVRQG
PIWIL2
14
5139
WKRLGWSESSRIIVLDQSDL
TEX14





[880-899]



[1476-1495]





14
3817
TYCLCHMYYNLPGIIRVPAP
PIWIL3
14
5140
PSSRILQLSKPKAPATLLEE
THEG





[833-852]



[264-283]





14
3818
TWKLPTLAKFSPYLGQMINL
PRAME
14
5141
DLKIQIEMEKKVVFSTISLG
TPTE





[243-262]



[430-449]





14
3819
SVLLLLSLVTGTQLGPRTPL
PRSS55
14
5142
KVITKEYLVNITEYRASHST
TSPY1





[5-24]



[214-233]





14
3820
PLLTTNLSPQCLSLLHAMVA
RAGE-1
14
5143
FINHQIIYAGEKNHQYGKSF
ZNF165





[248-267]



[307-326]





14
3821
RRFGQNYERIFILLEEVQGS
SAGE1
15
5144
EDVVLRWSQEFSTLTLGQFG
ACRBP





[836-855]



[524-543]





14
3822
IHYFTGTPDPSRSIFKPFIF
SCRN1
15
5145
QKQSSYVGWWIHFRIVEIVV
ADAM29





[291-310]



[185-204]





14
3823
VIVSTLEMSCKALMRFIMVT
SLCO6A1
15
5146
ERQLNEAVGNVTPLQLLDWL
AKAP-3





[442-461]



[830-849]





14
3824
QIQVQGHMPPLMIPIFPHDQ
SOX-6
15
5147
VPHLQKVFDRYKSYSPYDML
ANXA2





[257-276]



[222-241]





14
3825
NCTCGATAVAVPSNIQGIRN
SPO11
15
5148
KNGRLTNQLQYLQKVVLKDL
BRDT





[193-212]



[24-43]





14
3826
AHRKHTMLQECKERISALNL
SYCE1
15
5149
APGHMSDVEWMSIFKPSKMQ
CCDC62





[123-142]



[525-544]





14
3827
RNGGTSMMVENMAVRPAPHP
TAG-1
15
5150
LKEFEKTIHFYQKKIILHEK
CTAGE2





[1002-1021]



[408-427]





14
3828
VIYSPGEFYCHVLKEDALKK
TDRD1
15
5151
SIYFSSDVVTGNVPLKVGQK
CXorf48





[722-741]



[56-75]





14
3829
QAPVIQECYQPYYLPGYRYL
TEKT5
15
5152
VPVKGSRYAPNARKSRAFIP
DBPC





[28-47]



[166-185]





14
3830
ADPANMFNWTTEEVETCDKG
TEX101
15
5153
DAQESSLGLTGLQSLLQGFS
DKKL1





[38-57]



[37-56]





14
3831
LICREDNAVSAATALLESEE
TEX15
15
5154
AISYRKFTSASDVWSFGIVM
EPHA2





[541-560]



[788-807]





14
3832
EQAQEEITRLRREMMKSCKS
TSGA10
15
5155
VESAVWYVKKFGRYLEHLEV
FBXO39





[69-88]



[75-94]





14
3833
KLKQELKYSNYVRPICLPGT
TSP50
15
5156
KRKRKSEMLQKAARGREEHG
FMR1NB





[211-230]



[234-253]





14
3834
LYRNGDFFISSKDLGYDYSY
TYR
15
5157
QGLEMRIKLWEEIKSAKYSE
FSIP1





[432-451]



[142-161]





14
3835
SDNHTTPILCGAQYRIHTHG
WT1
15
5158
LENFFRYFLRLSDDKMEHAQ
FTHL17





[273-292]



[49-68]





15
3836
GLPHIRVFLDNNPWVCDCHM
5T4
15
5159
SKDQQKILAALKELQVEEIQ
GASZ





[283-302]



[320-339]





15
3837
TLYPGFTKRLFRELMGDHVS
ACTL8
15
5160
KVKNQLRFLAELAYDLDVDD
Glypican-





[302-321]



3









[515-534]





15
3838
PRTISLESLAVILAQLLSLS
ADAM2
15
5161
SQKRSFVYVWKTWGQYWQVL
gp100





[299-318]



[144-163]





15
3839
TSSYANRRPCFSSLVVDETY
AFP
15
5162
NLLLNYGLYRKMEIYRPHKA
HDAC1





[502-521]



[40-59];









HDAC2









[41-60]





15
3840
PDGECSIDDLSFYVNRLSSL
AKAP-4
15
5163
KKIRESYENDIASMNLQAHL
KOC1





[208-227]



[345-364]





15
3841
PSSEAAEDVMVAAPLVCSGK
CABYR
15
5164
EALFKKSAETLWNIQKDLIF
LDHC





[210-229]



[313-332]





15
3842
FKKIKANYVCLQERYMTEMQ
CAGE1
15
5165
KPPYSRLDYTDAKFVDVIHS
LIPI





[410-429]



[213-232]





15
3843
SGTIFDNFLITDDEEYADNF
CALR3
15
5166
SFSQDILHDKIIDLVHLLLR
MAGE-A11





[309-328]



[216-235]





15
3844
FLWQYKSSADKMQQLNAAHQ
CDCA1
15
5167
PRKLLTQDLVQENYLEYRQV
MAGE-A12





[141-160]



[242-261]





15
3845
KGLCTNSCQYQDLLSNCDSL
CRISP2
15
5168
GSNPARYEFLWGPRALAETS
MAGE-A4





[198-217]



[264-283]





15
3846
KWMLGCYDALQKKYLRMVVL
CT46
15
5169
VVDEKYKDHFTEILNGASRR
MAGE-B1





[80-99]



[137-156]





15
3847
AFLSPPTLLEGPLRLSPLLP
cTAGE5
15
5170
TKGEMLKIVGKRFREHFPEI
MAGE-B2





[533-552]



[133-152]





15
3848
RQSLQQCVAISIQQELYSPQ
CTCFL
15
5171
KMKKPIMKADMLKIVQKSHK
MAGE-B3





[127-146]



[127-146]





15
3849
RAARALLSAVTRLLILADMA
CTNNA2
15
5172
LKIISKKYKEHFPEIFRKVS
MAGE-B4





[125-144]



[136-155]





15
3850
ILCALIVFWKYRRFQRNTGE
CXorf61
15
5173
LQIPVSRSFSSTLLSIFQSS
MAGE-C1





[11-30]



[198-217]





15
3851
AVSLDGYFHLWKAENTLSKL
DCAF12
15
5174
ASSTLYLVFSPSSFSTSSSL
MAGE-C2





[269-288]



[42-61]





15
3852
GGSPVKNSLRGLPGPYVPGQ
DMRT1
15
5175
ERSQRSQIANITTVWRAQPT
MORC1





[249-268]



[668-687]





15
3853
RKRKAVTKRARLQRSYEMNE
DPPA2
15
5176
QKWREERDQLVAALEIQLKA
MPHOSPH1





[148-167]



[1516-1535]





15
3854
KDTEITCSERVRTYWIIIEL
EpCAM
15
5177
ETQFNQYKTEAASRYNLTIS
MUC-1





[129-148]



[1118-1137]





15
3855
TQKVTCFYQPAPYFAAEARY
FAM46D
15
5178
EKLDAFFGFQLSQEIKQQIH
NLAP4





[342-361]



[513-532]





15
3856
GHASPHLFTFPPTPPKDVSP
GATA-3
15
5179
EQLEERTWLLHDAIQNQQNA
PASD1





[144-163]



[382-401]





15
3857
KEPMIVYVGTLDLVAVSSVK
HAGE
15
5180
RPRRINMTDTGISPMSTRDP
SAGE1





[443-462]



[226-245]





15
3858
ALFENLRMLPHAPGVQMQAI
HDAC2
15
5181
PIPESVIQNYNKALQQLEKY
SART3





[366-385];



[276-295]





HDAC1









[365-384]









15
3859
DRVMTVSFHKYGNYFFPGTG
HDAC3
15
5182
EELKGTEQELIGLLQAREKE
SCP-1





[185-204]



[458-477]





15
3860
LYQGGQMFDGAPRFHGAVGF
IGFS11
15
5183
EGVGVDINKALLAKRKRLEM
SCP3a





[75-94]



[75-94]





15
3861
TRQLCFVVRSKVNIYCSDDG
IL13RA2
15
5184
EIEALLGMDLVRLGLERGET
SCAN1





[301-320]



[103-122]





15
3862
CDVDKLHFTPRIQRLNELEA
JARID1B
15
5185
IPPRDKMEDNSALYESTSAH
se57-1





[76-95]



[10-29]





15
3863
NDGTKIAASQAISAMCENSG
KU-CT-1
15
5186
QAFPDMHNSNISKILGSAWK
SOX-6





[329-348]



[641-660]





15
3864
VADLVGFLLLKYRAREPVTK
MAGE-A1
15
5187
PGNVKALLRRATTYKHQNKL
SPAG1





[106-125]



[273-292]





15
3865
GMLSDVQSMPKTGILILILS
MAGE-A10
15
5188
QKVGSLEPRVEVLINRINEV
SYCE1





[213-232]



[44-63]





15
3866
REDSVFAHPRKLLMQDLVQE
MAGE-A2
15
5189
KVLLDAGFAVGEQSMVTDKP
TDAD1





[234-253]



[665-684]





15
3867
KVLHHMVKISGGPHISYPPL
MAGE-A3
15
5190
QAKATQFNSALFTLSSHRQG
TEX14





[285-304]



[875-894]





15
3868
LHHMVKISGGPRISYPLLHE
MAGE-A6
15
5191
SRRVEELSRPKRFYLEYYNN
THEG





[287-306]



[191-210]





15
3869
FLWGPRALAETSYVKVLEHV
MAGE-A8
15
5192
KVLKSERDKIFLLYEQAQEE
TSGA10





[274-293];



[55-74]





MAGE-A4









[272-291]









15
3870
LKVAELVHFLLHKYRVKEPV
MAGE-A9
16
5193
LIFLLNFTESRTLHRNEYGI
AFP





[110-129]



[9-28]





15
3871
YDGILHSIYGDARKIITEDL
MAGE-B6
16
5194
QVASDMMVSLMKTLKVHSSG
AKAP-4





[317-336]



[339-358]





15
3872
KMVNVPLEQLPLLFKVVLHS
NA6A1
16
5195
VNILTNRSNAQRQDIAFAYQ
ANXA2





[453-472]



[57-76]





15
3873
TLKIIERNFPELLSLNLCNN
NXF2
16
5196
SGKINRHEHYFNQFHRRNEL
CALR3





[261-280]



[365-384]





15
3874
ACLQRKMNVDVSSTIYNNEV
NY-BR-1
16
5197
LQQSLNQDFHQKTIVLQEGN
CDCA1





[1173-1192]



[190-209]





15
3875
CKPAELSRGRGILIFSDFKD
NYD-TSPG
16
5198
PASNMLKMEWSREVTTNAQR
CRISP2





[211-230]



[54-73]





15
3876
DELERKLEATSAQNIEFLQV
ODF2
16
5199
EELERTIHSYQGQIISHEKK
cTAGE5





[667-686]



[440-459]





15
3877
GPAYSILGRYQTKTMLTPGP
ODF3
16
5200
MSLLSIQQQEGVQVVVQQPG
CTCFL





[84-103]



[97-116]





15
3878
RWMAQVLASELSLVAFILLL
ODF4
16
5201
QPFEENEFIDASRLVYDGVR
CTNNA2





[77-96]



[602-621]





15
3879
STYNLLFCGSCGIPVGFHLY
OIP5
16
5202
GLINSNTDNNLAVYDLSRDI
CXorf61





[130-149]



[47-66]





15
3880
CSTPTINIPASPFMQKLGFG
PBK
16
5203
LHKRKRLPPVKRSLVYYLKN
DCAF12





[22-41]



[33-52]





15
3881
VTGQPSQDNCIFVVNEQTVA
PEPP2
16
5204
TLSSHLQIDKMTDNKTGEVL
DKKL1





[88-107]



[99-118]





15
3882
AWNSCNEYMPSRIIVYRDGV
PIWIL1
16
5205
DSKSLRTALQKEITTRYQLD
EpCAM





[685-704]



[158-177]





15
3883
IAGPIGMRMSPPAWVELKDD
PIWIL2
16
5206
GDQDNWLRTNWVYRGEAERI
EPHA2





[628-647]



[75-94]





15
3884
KMSTYLKTISPNNFTLAFIV
PIWIL3
16
5207
FIKRNIELAKESRNPVVMVD
FSIP1





[741-760]



[254-273]





15
3885
ADCLKVFMTGALNKWYKYNH
PIWIL4
16
5208
IQNAAVFQEAFEIVVRHAKN
Glypican-





[663-682]



3









[105-124]





15
3886
ELFPPLFMAAFDGRHSQTLK
PRAME
16
5209
QVSLKVSNDGPTLIGANASF
gp100





[51-70]



[65-84]





15
3887
VIMDWEECSKMFPKLTKNML
PASS55
16
5210
SDEYIKFLASIRPDNMSEYS
HDAC2





[215-234]



[70-89]





15
3888
FKYHLTVAQVRGGMVFELAN
PSMA
16
5211
RDYTLRTFGEMADAFKSDYF
JARID1B





[570-589]



[375-394]





15
3889
APECLLTDGFYTYKMDLWSA
RAGE-1
16
5212
TSLGLTYDGMLSDVQSMPKT
MAGE-A10





[169-188]



[205-224]





15
3890
GRCWIYNKTKMAFLLVGICF
SLCO6A1
16
5213
LEHVVRVNARVRIAYPSLRE
MAGE-A4





[655-674]



[288-307]





15
3891
QRKRFTAVEMARVLMERNQY
SPAG9
16
5214
KASDSLQLVFGIELMEVDPI
MAGE-A6





[499-518]



[153-172]





15
3892
DADPHGIEIMCIYKYGSMSM
SPO11
16
5215
QENYLEYRQAPGSDPVRYEF
MAGE-A8





[277-296]



[255-274]





15
3893
CSEEYLERQLQAEFIESGQY
TAF7L
16
5216
DGEEHLIYGEPRKFITQDLV
MAGE-B1





[362-381]



[231-250]





15
3894
PGLSYRWLLNEFPNFIPTDG
TAG-1
16
5217
GEPWKLITKDLVQEKYLEYK
MAGE-B2





[162-181]



[242-261]





15
3895
LECAANEVNCPLQVALECLY
TEKT5
16
5218
KVDSTKDSYVLVSKMDLPNN
MAGE-B3





[176-195]



[170-189]





15
3896
VREACPHQLLTQPRKTENGA
TEX101
16
5219
AETSKMKVLEFLAKVNDTTP
MAGE-B4





[205-224]



[278-297]





15
3897
KREKNSYYVFLKYKRQVNEC
TEX15
16
5220
DDSTATESASSSVMSPSFSS
MAGE-C1





[1774-1793]



[1122-1141]





15
3898
GLFGVFLVLLDVTLILADLI
TPTE
16
5221
YTLDEKVAELVEFLLLKYEA
MAGE-C2





[95-114]



[139-158]





15
3899
LQVSSYQHWIWDCLNGQALA
TSP50
16
5222
EQEKEEIASKSALLRQIKEV
MPHOSPH1





[344-363]



[207-226]





15
3900
CGVGRAAQALVCASAKEGTA
TSPY1
16
5223
DSLVERLHRQTAEYSAFKLE
0DF2





[20-39]



[488-507]





15
3901
DINIYDLFVWMHYYVSMDAL
TYR
16
5224
EHGDSSAYENVKFIVNVRDI
PASD1





[169-188]



[118-137]





15
3902
FKDCERRFSRSDQLKAHQRA
WT1
16
5225
MDEAKILKSLHHPNIVGYRA
PBK





[357-376]



[83-102]





15
3903
ALSRLRELCCQWLKPEIHTK
ZNF165
16
5226
IPTSPSHGSIAAYQGYSPQR
PEPP2





[66-85]



[541-560]





16
3904
WVCDCHMADMVTWLKETEVV
5T4
16
5227
HDIVNRQKSIAGFVASTNAE
PIWIL3





[296-315]



[657-676]





16
3905
QYPNYCSFKSQQCLMRNRNR
ACRBP
16
5228
ARLVDNIQRNTNARFELETW
PIWIL4





[483-502]



[415-434]





16
3906
SGLLTGVVVDSGYGLTRVQP
ACTL8
16
5229
SISISALQSLLQHLIGLSNL
PRAME





[140-159]



[417-436]





16
3907
TTGEANELLHTFLRWKTSYL
ADAM2
16
5230
PYEEALLQAEAPRLAEYQAY
SART3





[239-258]



[297-316]





16
3908
KHLPVFTYTDQGAILEDQPF
ADAM29
16
5231
EVEKAKVIADEAVKLQKEID
SCP-1





[76-95]



[681-700]





16
3909
AEDLIVSALLLIQYHLAQGG
AKAP-3
16
5232
SGKPSVEDQFTRAYDFETED
SCP3a





[524-543]



[12-31]





16
3910
YCVQDTTSANTTLVHQTTPS
BRDT
16
5233
LKIKLQASREAGAAALANVA
se57-1





[708-727]



[112-131]





16
3911
QLPEQIVIPFTDQVACLKEN
CABYR
16
5234
MITQLISLREQLLAAHDEQK
SOX-6





[311-330]



[194-213]





16
3912
KSVSQYLEMDKTLSKKEEEV
CAGE1
16
5235
GQGENKMKNLPVPVYLRPLD
SPAG9





[433-452]



[660-679]





16
3913
QSDLQFLNFNVENSQELIQM
CCDC62
16
5236
QGHTSSEYDMLREMFSDSRS
TAF7L





[293-312]



[311-330]





16
3914
SVSCITYLRGIFPECAYGTR
CT46
16
5237
PGNISWTFSSSSLSIKWDPV
TAG-1





[37-56]



[916-935]





16
3915
SLYPPTLLEGPLRLSPLLPR
CTAGE2
16
5238
PQAKEMFIDTVISSYNIETA
TEX15





[503-522]



[389-408]





16
3916
FCGDYGMIDESIYFSSDVVT
CXorf48
16
5239
TERDVAFTDLARMTTERDSL
TSGA10





[46-65]



[103-122]





16
3917
EAAAGATAVPAATVPATAAG
DBPC
16
5240
TPIEWYPDYEVEAYRRRHHN
TSPY1





[5-24]



[233-252]





16
3918
CEPASEPSSFTVTPVIEEDE
DMRT1
17
5241
EDVRVSGWLQTEFLSFQDGD
ACRBP





[354-373]



[452-471]





16
3919
ARAVQPKALNSCSIPVSVEA
DPPA2
17
5242
SNTYQLPDGSRVELTPMQRV
ACTL8





[194-213]



[235-254]





16
3920
PGNEEFQVVKDAVLDCLLDF
FAM46D
17
5243
LFGLEIWTNKNLIVVDDVRK
ADAM29





[92-111]



[245-264]





16
3921
LLSCLSKSNNRLKSLSIQYL
FBXO39
17
5244
KWVESIFLIFLLNFTESRTL
AFP





[115-134]



[2-21]





16
3922
RRKAKGRNRRSHRAMRVAHL
FMR1NB
17
5245
LGNGSSVDEVSFYANRLTNL
AKAP-3





[5-24]



[115-134]





16
3923
GDPQLCHFLESHYLHEQVKT
FTHL17
17
5246
SSGKPIPASVVLKRVLLRHT
AKAP-4





[126-145]



[356-375]





16
3924
EISGDEFLNFLLKLNKQCGH
GASZ
17
5247
KIRSEFKAKYGKSLYYYIQQ
ANXA2





[350-369]



[302-321]





16
3925
ANGDPVCNACGLYYKLHNIN
GATA-3
17
5248
PDSQQQYNVVKTVKVTEQLR
BRDT





[333-352]



[255-274]





16
3926
TLCYLMPGFIHLVLQPSLKG
HAGE
17
5249
AQLEENAKYSSVYMEAEATA
CABYR





[293-312]



[366-385]





16
3927
CWTYETSLLVEEAISEELPY
HDAC3
17
5250
KMKNTDYLTQYDLSEFENIG
CALR3





[306-325]



[279-298]





16
3928
SESPGSIQVARGQPAVLPCT
IGFS11
17
5251
ARNETLSNTLVELSAQVGQL
CCDC62





[26-45]



[133-152]





16
3929
ESSCEIKLKWSIPLGPIPAR
IL13RA2
17
5252
SEQDELMADISKRIQSLEDE
cTAGE5





[249-268]



[160-179]





16
3930
TEEIPLKILAHNNFVGRLIG
KOC1
17
5253
EHQLGNNTLSSHLQIDKMTD
DKKL1





[274-293]



[92-111]





16
3931
PDVKKNSMECIYNLVQDFQC
KU-CT-1
17
5254
QQLGLSTNGKKIEVYLRLHR
DPPA2





[164-183]



[105-124]





16
3932
NSQCKITIVGTGAVGMACAI
LDHC
17
5255
HKAREKPYDSKSLRTALQKE
EpCAM





[18-37]



[150-169]





16
3933
KLQEVKILAQFYNDFVNISS
LIPI
17
5256
EQQKKIESYLHNHFIGEGMT
FAM46D





[401-420]



[275-294]





16
3934
LESVIKNYKHCFPEIFGKAS
MAGE-A1
17
5257
GPLSVYPPASSSSLSGGHAS
GATA-3





[129-148]



[128-147]





16
3935
WVQEKYLVYRQVPGTDPACY
MAGE-A11
17
5258
SLIYRRRLMKQDFSVPQLPH
gp100





[363-382]



[613-632]





16
3936
IGHLYILVTCLGLSYDGLLG
MAGE-A12
17
5259
QLSTGGSVASAVKLNKQQTD
HDAC1





[172-191]



[111-130]





16
3937
ISHLYILVTCLGLSYDGLLG
MAGE-A2
17
5260
HNLLLNYGLYRKMEIYRPHK
HDAC2





[172-191]



[40-59]





16
3938
LGDNQIMPKAGLLIIVLAII
MAGE-A3
17
5261
IREDDTTLVTATVENETYTL
IL13RA2





[190-209]



[276-295]





16
3939
GTDVKEVDPAGHSYILVTAL
MAGE-A9
17
5262
QEGPSTFPDLETSFQVALSR
MAGE-A12





[162-181]



[92-111]





16
3940
CATEEEVWEFLGLLGIYDGI
MAGE-B6
17
5263
EEGPRMFPDLESEFQAAISR
MAGE-A2





[301-320]



[92-111]





16
3941
AGALEDFPARWSFRAYTSVL
MORC1
17
5264
VGNWQYFFPVIFSKASSSLQ
MAGE-A3





[225-244]



[140-159]





16
3942
KNYGQLDIFPARDTYHPMSE
MUC-1
17
5265
EEGVEAQEEALGLVGAQAPT
MAGE-A4





[1189-1208]



[13-32]





16
3943
TPQTQHQLKALCSLAAEGMW
NLRP4
17
5266
PAHLESLFREALDEKVAELV
MAGE-A8





[389-408]



[101-120





16
3944
MCLPEIRYIAGKMVNVPLEQ
NA6A1
17
5267
YKMREPIMKADMLKVVDEKY
MAGE-B1





[442-461]



[123-142]





16
3945
RNWFKVTIPYGIKYDKAWLM
NXF2
17
5268
KSGSLVQFLLYKYKIKKSVT
MAGE-B2





[122-141]



[114-133]





16
3946
IQDAQKRTALHWACVNGHEE
NY-BR-1
17
5269
VDVSYKKSYKGANSKIEKKQ
MAGE-B3





[12-31]



[75-94]





16
3947
KPLTIYVYQEGLVRFATEKF
NYD-TSPG
17
5270
SASQKAIIFKRLSKDAVKKK
MAGE-B6





[266-285]



[179-198]





16
3948
TWRPHRPRGPIMALYSSPGP
ODF3
17
5271
STFEGFAQSSLQIPVSPSFS
MAGE-C1





[9-28]



[258-277]





16
3949
RSCSDLENGKVTFIFSTLML
ODF4
17
5272
KLREILLYFFPEHQLPSELE
MORC1





[142-161]



[824-843]





16
3950
GHFCLSSDKMVCYLLKTKAI
OIP5
17
5273
QQHVPFRESKLTHYFQSFFN
MPHOSPH1





[160-179]



[426-445]





16
3951
KMGGELWRVDIPLKLVMIVG
PIWIL1
17
5274
QLKVLIAENTMLTSKLKEKQ
NY-BR-1





[611-630]



[1111-1130]





16
3952
DSLKLCLVGSLKKFYEVNHC
PIWIL2
17
5275
ITPPSSEKLVSVMRLSDLST
ODF2





[786-805]



[91-110]





16
3953
SLVNYNLWIEKVTQLEGRPF
PRSS55
17
5276
SMEWDTQVVKGSSPLGPAGL
OIP5





[287-306]



[36-55]





16
3954
LHETDSAVATARRPRWLCAG
PSMA
17
5277
GPPDPQAFQGPAAYQPDQMR
PASD1





[5-24]



[735-754]





16
3955
PQCLSLLHAMVAYDPDERIA
RAGE-1
17
5278
GTGVNVYLMKRSPRGLSHSP
PBK





[256-275]



[41-60]





16
3956
PAPGNILSTAPPWLRHMAAA
SAGE1
17
5279
DVMHLSQSPSVSQLSVLSLS
PRAME





[639-658]



[338-357]





16
3957
WGAEMGANEHGVCIANEAIN
SCRN1
17
5280
IGEGTFSEVMKMQSLRDGNY
RAGE-1





[77-96]



[10-29]





16
3958
FLFAAVVAWCTLIPLSCFPN
SLCO6A1
17
5281
RKQDNVLSNVLSGLINMAGA
SAGE1





[318-337]



[451-470]





16
3959
YPSLWGFGTTKTFKIPIEHL
SPAG1
17
5282
TEKENKMKDLTFLLEESRDK
SCP-1





[6-25]



[276-295]





16
3960
TVVDNIINDISCMLKVSRRS
SPO11
17
5283
EYSQQFLTLFQQWDLDMQKA
SCP3a





[148-167]



[124-143]





16
3961
LKGERPGAAHQAGPDVLIGQ
SYCE1
17
5284
VAFPPRAKDGLVVFGKNSAR
SCRN1





[312-331]



[11-30]





16
3962
QPITSSHLALPFQIIRCSLE
TDRD1
17
5285
IQDIITSLARNEAPAFTIDN
SPO11





[1039-1058]



[55-74]





16
3963
EKCMGMRKTFPCTPRLVGHT
TEKT5
17
5286
GQDTSSQKIEDLMEMVQKLQ
SYCE1





[466-485]



[25-44]





16
3964
IGCRLMSGILAVGPMFVREA
TEX101
17
5287
DRGSETTYESSADIAGDEGT
TAF7L





[189-208]



[36-55]





16
3965
PLPTQLYNWAAPEVILQKAA
TEX14
17
5288
LMELNGSSSQLIIMLLKNFM
TDRD1





[414-433]



[1060-1079]





16
3966
LCWPSVYWTERFLEDTTLTI
THEG
17
5289
SNAAIQIASATMPALSLNND
TEX15





[166-185]



[598-617]





16
3967
NLPPRRILFIKHFIIYSIPR
TPTE
17
5290
NEGYDRRPLASMSLPPPKAS
THEG





[407-426]



[349-368]





16
3968
DQMTQTASDVPVLQVIMHSR
TSP50
17
5291
SSGRQSFYRNPIKEVVRFLD
TPTE





[172-191]



[253-272]





16
3969
NLLSPASFFSSWQIVCSRLE
TYR
17
5292
ELVRHHNMHQRNMTKLQLAL
WT1





[261-280]



[430-449]





16
3970
KRPFMCAYPGCNKRYFKLSH
WT1
17
5293
SQSSNLSQHQRIHMRENLLM
ZNF165





[320-339]



[466-485]





16
3971
GTCDQSFKWNSDFINHQIIY
ZNF165
18
5294
PWPERLSNNVEELLQSSLSL
ACRBP





[295-314]



[167-186]





17
3972
TGNQLAVLPAGAFARRPPLA
5T4
18
5295
LAKDLIVSALKLIQYHLTQQ
AKAP-4





[99-118]



[540-559]





17
3973
GSDTTVVAQKVFQLIGLTNA
ADAM2
18
5296
LEKDIISDTSGDFRKLMVAL
ANXA2





[195-214]



[155-174]





17
3974
RQFETVCKFHWVEAFDDEMT
CAGE1
18
5297
DKSKLWLLKDRDLARQKEQE
BRDT





[119-138]



[900-919]





17
3975
SEKTKRLNELKLSVVSLKEI
CDCA1
18
5298
KVSSIHSDQSDVLMVDVATS
CABYR





[217-236]



[182-201]





17
3976
SDPTSWSSAIQSWYDEILDF
CRISP2
18
5299
QERTNSELHNLRQIYVKQQS
CCDC62





[102-121]



[275-294]





17
3977
FEGEPMYLNVGEVSTPFHIF
CT46
18
5300
AQLQRTPMSALVFPNKISTE
CT46





[203-222]



[4-23]





17
3978
PGPPRAPFAMRNVYLPRGFL
CTAGE2
18
5301
ELYQENEMKLHRKLTVEENY
cTAGE5





[710-729]



[387-406]





17
3979
KTFRTVTLLRNHVNTHTGTR
CTCFL
18
5302
GPLKNTSDVINAAKKIAEAG
CTNNA2





[292-311]



[733-752]





17
3980
AGAIRGRAARVIHIINAEME
CTNNA2
18
5303
RLFLKGNLLRGIDSLFSAPM
DKKL1





[540-559]



[57-76]





17
3981
PSAPGSRTPGNPATAVSGTP
DBPC
18
5304
VRTYWIIIELKHKAREKPYD
EpCAM





[58-77]



[139-158]





17
3982
NVCLAYGSEWSVYAVGSQAH
DCAF12
18
5305
VLPDGQVIWVNNTIINGSQV
gp100





[299-318]



[96-115]





17
3983
SFYQPSLFPYYNNLYNCPQY
DMRT1
18
5306
PARRAKRMRAEAMNIKIEPE
JARID1B





[212-231]



[227-246]





17
3984
MELQAARACFALLWGCALAA
EPHA2
18
5307
LENFTLKVAYIPDEMAAQQN
KOC1





[1-20]



[144-163]





17
3985
RILLQEIPIRSISLRSCYFS
FBXO39
18
5308
AAEADGIDPLINLLSSKRDG
KU-CT-1





[300-319]



[394-413]





17
3986
SLEEDSALEALLNFFFPTTC
FMR1NB
18
5309
WKNIHKQVIQSAYEIIKLKG
LDHC





[115-134]



[227-246]





17
3987
AENMKCLQFSKDVIISDTKD
FSIP1
18
5310
VKNTRKVAVSLSVHIKNLLK
LIPI





[501-520]



[147-166]





17
3988
AINSHITLELYTSYLYLSMA
FTHL17
18
5311
KVLEYVIKVSARVRFFFPSL
MAGE-A1





[20-39]



[278-297]





17
3989
LLDSGISVDSNFQYGWTPLM
GASZ
18
5312
ASEEEIWEELGVMGVYDGRE
MAGE-A4





[65-84]



[217-236]





17
3990
RTACLVVAMLLSLDFPGQAQ
Glypican-
18
5313
VGNWQYFFPVIFSKASDSLQ
MAGE-A6





3



[140-159]





[6-25]









17
3991
VHDVTHVYNFDFPRNIEEYV
HAGE
18
5314
VNPNGHTYTFIDKVDLTDEE
MAGE-B2





[553-572]



[171-190]





17
3992
NNKICDIAINWAGGLHHAKK
HDAC3
18
5315
EFLNKMRIYDGKKHFIFGEP
MAGE-B3





[119-138]



[225-244]





17
3993
NIGLIAGAIGTGAVIIIFCI
IGFS11
18
5316
GEPRKLITQDLVQEKYLEYQ
MAGE-B4





[239-258]



[239-258]





17
3994
CAVNTFLTENSPYSLLEVLC
JARID1B
18
5317
RTSQHLVVAFGVELKEMDSS
MAGE-B6





[1072-1091]



[239-258]





17
3995
LIPGLNLNALGLFPPTSGMP
KOC1
18
5318
LDEKVDELARFLLLKYQVKQ
MAGE-C1





[364-383]



[908-927]





17
3996
PEEEVVIHEFASLCLANMSA
KU-CT-1
18
5319
AFTKLNNASSRSHSIFTVKI
MPHOSPH1





[119-138]



[340-359]





17
3997
YSPDCKILVVSNPVDILTYI
LDHC
18
5320
PSPGSTLSSSRSVELNGFMA
NR6A1





[127-146]



[190-209]





17
3998
NKRPCLEFSQLSVKDSFRDL
LIPI
18
5321
YLKGELLRRTKRDIVDSLSA
NXF2





[38-57]



[454-473]





17
3999
PVTKAEMLESVIKNYKHCFP
MAGE-A1
18
5322
IDIHFLERKMQHHLLKEKNE
NY-BR-1





[122-141]



[1296-1315]





17
4000
SDPARYEFLWGPRAHAEIRK
MAGE-A10
18
5323
EKSEEYAEQLHVQLADKDLY
ODF2





[289-308]



[414-433]





17
4001
LVHLLLRKYRVKGLITKAEM
MAGE-A11
18
5324
QPDQMRSAEQTRLMPAEQRD
PASD1





[229-248]



[749-768]





17
4002
MPKTGFLIIILAIIAKEGDC
MAGE-A6
18
5325
SNSIKRNPNAPVVRRGWLYK
PEPP2





[196-215]



[159-178]





17
4003
GLSCDSMLGDGHSMPKAALL
MAGE-A9
18
5326
QETAQLVGSTASQQPGYIQP
PIWIL1





[182-201]



[16-35]





17
4004
RNGLLMPLLSVIFLNGNCAR
MAGE-B4
18
5327
MSGRARVKARGIARSPSATE
PIWIL4





[197-216]



[1-20]





17
4005
VTEAEMLMIVIKYKDYFPVI
MAGE-C2
18
5328
RRLWGSIQSRYISMSVWTSP
PRAME





[162-181]



[4-23]





17
4006
SPGSGSSTTQGQDVTLAPAT
MUC-1
18
5329
RPFYRHVIYAPSSHNKYAGE
PSMA





[65-84]



[684-703]





17
4007
EYISEMLLRNKSVRYLDLSA
NLRP4
18
5330
GSMKVKRQFVEFTIKEAARF
SAGE1





[797-816]



[854-873]





17
4008
RKQRNRCQYCRLLKCLQMGM
NR6A1
18
5331
QENRKIIEAQRKAIQELQFG
SCP-1





[106-125]



[135-154]





17
4009
NLCNNKLYQLDGLSDITEKA
NXF2
18
5332
MFRQQQKILQQSRIVQSQRL
SCP3a





[276-295]



[153-172]





17
4010
QFIPLTFVMPNDYTKFVAEY
NYD-TSPG
18
5333
PLKNVRKKRFRKTQKKVPDV
TAF7L





[176-195]



[225-244]





17
4011
MTEEVWMGTWRPHRPRGPIM
ODF3
18
5334
KLVENSLSISNPGLFTSLGP
TDRD1





[1-20]



[144-163]





17
4012
IFSTLMLFPINIWIFELERN
ODF4
18
5335
GEYFYSSTAQENLALETSSP
TEX14





[155-174]



[1088-1107]





17
4013
KKERPISMINEASNYNVTSD
PEPP2
18
5336
LKKAHRRVHTSLQLITKVGE
TEX15





[114-133]



[1004-1023]





17
4014
PLISVKPLDNWLLIYTRRNY
PIWIL1
18
5337
RKRRRRRRLMELAEPKINWQ
THEG





[486-505]



[120-139]





17
4015
ERINLKNTSFITSQELNWVK
PIWIL2
18
5338
TTDKILIDVFDGLPLYDDVK
TPTE





[571-590]



[458-477]





17
4016
PGIIRVPAPCHYAHKLAYLV
PIWIL3
18
5339
FWSWVGQANDIGLLKLKQEL
TSP50





[844-863]



[197-216]





17
4017
NDNSEAQLAHLIPELCFLTG
PIWIL4
18
5340
ASPLTGIADASQSSMHNALH
TYR





[365-384]



[348-367]





17
4018
EPGEKWYQVGIISWGKSCGE
PRSS55
18
5341
ENSRSMPKLEIFEKIESQRI
ZNF165





[259-278]



[188-207]





17
4019
GAKGVILYSDPADYFAPGVK
PSMA
19
5342
GFTKRLFRELMGDHVSSTKA
ACTL8





[221-240]



[306-325]





17
4020
LSSVGLHMTKGLALWEAYRE
SART3
19
5343
QITEEQLEAVIADFSGLLEK
AFP





[214-233]



[562-581]





17
4021
ENKLLQLKSSATYGKSCQDL
se57-1
19
5344
AQDKAESYSLISMKGMGDPK
AKAP-3





[213-232]



[397-416]





17
4022
LVAIFIAFYGDRKKVIWFVA
SLCO6A1
19
5345
LSGEAAEAVHSGTSVKSSSG
CABYR





[157-176]



[451-470]





17
4023
VAEARVYRDARGRASSEPHI
SOX-6
19
5346
PVQEDMALNEVLQKLKHTNR
CAGE1





[602-621]



[298-317]





17
4024
ADGNVKAFYRRALAHKGLKN
SPAG1
19
5347
TILSPKQIKTPFQKILRDKD
CT46





[687-706]



[239-258]





17
4025
DSTLRLYHAHTYQHLQDVDI
SPAG9
19
5348
VAEAKMTFKRFQANEERLEI
CTAGE2





[1109-1128]



[157-176]





17
4026
TATRRKPHLLLVAAVALVSS
TAG-1
19
5349
AAPIHDADAQESSLGLTGLQ
DKKL1





[3-22]



[30-49]





17
4027
NSWRPSLFYKIANVQTCPDE
TEKT5
19
5350
ASGALVGAASGSSAGGSSRG
DMRT1





[48-67]



[34-53]





17
4028
KTENGATCLPIPVWGLQLLL
TEX101
19
5351
TRNDWRVASELINILERANQ
HAGE





[219-238]



[592-611]





17
4029
GQPSLCSFEINEIYSGCLIL
TEX14
19
5352
LPEIQELYQTLLAKPSPAQQ
JARID1B





[619-638]



[1360-1379]





17
4030
SCKSPKSTTAHAILRRVETE
TSGA10
19
5353
SDLESIFKDAKIPVSGPFLV
KOC1





[85-104]



[16-35]





17
4031
KVDPYRSCGFSYEQDPTLRD
TSP50
19
5354
SSKRDGAIANAATVLTNMAM
KU-CT-1





[97-116]



[408-427]





17
4032
FSDHNFAGSNKIAEILCKDL
TSPY1
19
5355
DLQHGSLFFSTSKITSGKDY
LDHC





[261-280]



[64-83]





17
4033
VGAVLTALLAGLVSLLCRHK
TYR
19
5356
DMNVIVVDWSRGATTFIYNR
LIPI





[484-503]



[126-145]





18
4034
LALIGAIFLLVLYLNRKGIK
5T4
19
5357
WVQENYLEYRQVPGSNPARY
MAGE-A4





[363-382]



[251-270]





18
4035
ISLRPLLVSHVMACGGNTLY
ACTL8
19
5358
SVMGLYDGREHSVYWKLRKL
MAGE-A8





[285-304]



[229-248]





18
4036
IFCVLIAIMVKVNFQRKKWR
ADAM2
19
5359
NLSNDWDFPRNGLLMPLLGV
MAGE-B1





[698-717]



[188-207]





18
4037
FGGQKHIIHIKVKKLLFSKH
ADAM29
19
5360
RGQTQDHQGAQITATNKKKV
MAGE-B3





[58-77]



[19-83]





18
4038
QHACAVMKNFGTRTFQAITV
AFP
19
5361
RTHSTFEGFPQSLLQIPMTS
MAGE-C1





[221-240]



[325-344]





18
4039
EVVSDLIDSFLRNLHSVTGT
AKAP-3
19
5362
KQEFLNVQEYNHLLKVMGQY
MORC1





[328-347]



[414-433]





18
4040
KLDKYHSLNEELDFLVTSYE
CAGE1
19
5363
VQQIQSNYDIAIAELHVQKS
MPHOSPH1





[690-709]



[933-952]





18
4041
CGFDIKKVHVILHFKNKYHE
CALR3
19
5364
TMNKRYNVSQQALDLQNLRF
NXF2





[137-156]



[220-239]





18
4042
PFSNLVTHLDSFLPICRVND
CDCA1
19
5365
YWRTSSFRMTEHNSVKPWQQ
NYD-TSPG





[84-103]



[124-143]





18
4043
RAAVAGFFAVLFLWRSFRSV
CTAGE2
19
5366
NRSLGQRQNSPLPFQWRITH
ODF4





[17-36]



[55-74]





18
4044
CCQCSYASRDTYKLKAHMRT
CTCFL
19
5367
RSWTYGITRGGRVFFINEEA
PEPP2





[372-391]



[14-33]





18
4045
WCPPPFFYRRRFVRGPRPPN
DBPC
19
5368
KVLRSETVLDFMFNFYHQTE
PIWIL1





[223-242]



[272-291]





18
4046
GTLNKVFASQWLNHRQVVCG
DCAF12
19
5369
FKRANMDNDIALLLLASPIK
PRSS55





[87-106]



[148-167]





18
4047
PQGRAGGFGKASGALVGAAS
DMRT1
19
5370
RLQDFDKSNPIVLRMENDQL
PSMA





[24-43]



[649-668]





18
4048
ALNSCSIPVSVEAFLMQASG
DPPA2
19
5371
KMENVQPAPDNVLLTLRPRR
SAGE1





[201-220]



[210-229]





18
4049
LEPHMNYTFTVEARNGVSGL
EPHA2
19
5372
AATEAPKMSNADFAKLFLRK
SART3





[402-421]



[944-963]





18
4050
EIRFTNLTWDQVITLDQVLD
FAM46D
19
5373
GGSGAVMSERVSGLAGSIYR
SPAG9





[3-22]



[14-33]





18
4051
EVKFMNPYNAVLTKKFQVTM
FBXO39
19
5374
NEVKALLRSDAEAVSTRWEV
TAF7L





[93-112]



[263-282]





18
4052
FKCFAPFRDVPKQMMQMFGL
FMR1NB
19
5375
NESVAPYTPFEVKIRSYNAR
TAG-1





[171-190]



[775-794]





18
4053
SEECEASKGYYLTKALTGHN
FSIP1
19
5376
FQAENTIMLLERSIMAKEGP
TEKT5





[473-492]



[368-387]





18
4054
SHYLHEQVKTIKELGGYVSN
FTHL17
19
5377
AYDPKHFHNRVVRIMIDDHN
TPTE





[136-155]



[289-308]





18
4055
ANASFEKDKQSILITACSAH
GASZ
19
5378
LVERREEAQRAQQAVPGPGP
TSPY1





[103-122]



[83-102]





18
4056
PTHHGSQVCRPPLLHGSLPW
GATA-3
19
5379
AQYRIHTHGVFRGIQDVARV
WT1





[77-96]



[284-303]





18
4057
PDATCHQVRSFFQRLQPGLK
Glypican-
20
5380
GRRDARSFVEAAGTTNFPAN
AKAP-3





3



[543-562]





[31-50]









18
4058
QSQAWPIVLQGIDLIGVAQT
HAGE
20
5381
SKIASEMAYEAVELTAAEMR
AKAP-4





[269-288]



[268-287]





18
4059
HSDDYIKFLRSIRPDNMSEY
HDAC1
20
5382
MKGKGTRDKVLIRIMVSRSE
ANXA2





[68-87]



[278-297]





18
4060
YGQGHPMKPHRIRMTHNLLL
HDAC2
20
5383
SATEKVFKQQEIPSVFPKTS
BRDT





[25-44]



[166-185]





18
4061
LHHAKKFEASGFCYVNDIVI
HDAC3
20
5384
IKIGSEKSLHLEVEITSIVS
CABYR





[133-152]



[409-428]





18
4062
TFTTSAALINLNVIWMVTPL
IGFS11
20
5385
ERPEIVSTWSSAGISWRSEA
CAGE1





[45-64]



[260-279]





18
4063
GFILILVIFVTGLLLRKPNT
IL13RA2
20
5386
HKEKDKGLQTTQNGRFYAIS
CALR3





[349-368]



[59-78]





18
4064
VQFLLFKYQMKEPITKAEIL
MAGE-A10
20
5387
NQKSLFKDQKFEAMLVQQNR
CCDC62





[142-161]



[348-367]





18
4065
FREASVCMQLLFGIDVKEVD
MAGE-A11
20
5388
KTRSGKVFQNKMANGNQPVK
CT46





[264-283]



[333-352]





18
4066
LETSFQVALSRKMAELVHFL
MAGE-A12
20
5389
IEEKSKLLEKFSLVQKEYEG
cTAGE5





[101-120]



[86-105]





18
4067
VIFSKASEYLQLVFGIEVVE
MAGE-A2
20
5390
GSSRGGGSGSGASDLGAGSK
DMrT1





[149-168]



[49-68]





18
4068
MPKAGLLIIVLAIIAREGDC
MAGE-A3
20
5391
NSYNVRRTEGFSVTLDDLAP
EPHA2





[196-215]



[480-499]





18
4069
GHSYILVTCLGLSYDGLLGD
MAGE-A8
20
5392
RPSRVHASEVESAVWYVKKF
FBXO39





[176-195]



[66-85]





18
4070
SMPKAALLIIVLGVILTKDN
MAGE-A9
20
5393
QLAEIDIKLQELSAASPTIS
FSIP1





[194-213]



[319-338]





18
4071
DPPRYQFLWGPRAYAETTKM
MAGE-B1
20
5394
GSHHTASPWNLSPFSKTSIH
GATA-3





[264-283]



[104-123]





18
4072
WEVLNAVGVYAGREHFVYGE
MAGE-C2
20
5395
FVNLKNITYLVLDEADKMLD
HAGE





[250-269]



[384-403]





18
4073
AMGIPFIIQCDLCLKWRVLP
MORC1
20
5396
GSVAGAVKLNRQQTDMAVNW
HDAC2





[477-496]



[117-136]





18
4074
TLVHNGTSARATTTPASKST
MUC-1
20
5397
TESVSHFSDLGQSFSFHSGN
IGFS11





[971-990]



[332-351]





18
4075
QEANFHIIDNVDLVVSAYCL
NLAP4
20
5398
TVEYELKYRNIGSETWKTII
IL13RA2





[574-593]



[66-85]





18
4076
LKPWLLEVNYSPALTLDCST
NYD-TSPG
20
5399
HSVPKRQRIRKLQIRNIPPH
KOC1





[380-399]



[72-91]





18
4077
TPGPAAYRQTDVRVTKFKAP
ODF3
20
5400
FHPGGLMKLASREADLYRFI
KU-CT-1





[179-198]



[853-872]





18
4078
SELSLVAFILLLVVAFSKKW
ODF4
20
5401
RAHAETSKMKVLEYIANANG
MAGE-A11





[85-104]



[389-408]





18
4079
GPQLPSWLQPERCAVFQCAQ
OIP5
20
5402
EEGPSTFPDLESEFQAALSR
MAGE-A6





[63-82]



[92-111]





18
4080
HHPNIVGYRAFTEANDGSLC
PBK
20
5403
QIKEPVTKAEMLESVIKNYK
MAGE-A8





[93-112]



[128-147]





18
4081
PNVECKSMRFGMLKDHQAVT
PIWIL2
20
5404
KEPVTKAEMLESVIKNYKRY
MAGE-A9





[249-268]



[126-145]





18
4082
LQLWDLKFDTNFLSVPGRVL
PIWIL3
20
5405
DGEEHSVFGEPWKLITKDLV
MAGE-B2





[453-472]



[234-253]





18
4083
MLLFSVLLLLSLVTGTQLGP
PRSS55
20
5406
STSTERSLKDSLTRKTKMLV
MAGE-B4





[1-20]



[98-117]





18
4084
GDFGSCRSVYSKQPYTEYIS
RAGE-1
20
5407
QATIDTADDATVMASESLSV
MAGE-C2





[144-163]



[345-364]





18
4085
VYDYNCHVDLIALLRLEGEL
SART3
20
5408
LDVQIQHVVEGKRALSELTQ
MPHOSPH1





[109-128]



[1135-1154]





18
4086
MAAAPPSYCFVAFPPRAKDG
SCRN1
20
5409
ESLDQKLFQLQSKNMWLQQQ
NY-BR-1





[1-20]



[1261-1280]





18
4087
SCQDLQREISILQEQISHLQ
se57-1
20
5410
HKAEVEAIMEQLKELKQKGD
ODF2





[228-247]



[377-396]





18
4088
NPVLICLALSKATEYLVIIG
SLCO6A1
20
5411
TKYVFDSAPSHSISARTKAF
ODF3





[382-401]



[112-131]





18
4089
RRQEMRQFFTVGQQPQIPIT
SOX-6
20
5412
SVHLAWDLSRSLGAVVFSRV
OIP5





[717-736]



[90-109]





18
4090
VDYKTVLQIDCGLQLANDSV
SPAG1
20
5413
NDLIEERYKASQDPFPAAII
PBK





[542-561]



[124-143]





18
4091
LKDSILSIVHVKGIVLVALA
SPAG9
20
5414
RGTTEIGMIGSKPFSTVKYK
PEPP2





[999-1018]



[779-798]





18
4092
HILSTSKGLIAGNLRYIEED
SPO11
20
5415
KRVNTRFFAQSGGRLQNPLP
PIWIL1





[169-188]



[742-761]





18
4093
VLWSKGTEILVNSSRVTVTP
TAG-1
20
5416
KTPKDSFTMSDGKEITFLEY
PIWIL2





[450-469]



[436-455]





18
4094
LPTLRSALFSRYSPHDWDQS
TEKT5
20
5417
PSVSQLSVLSLSGVMLTDVS
PRAME





[78-97]



[346-365]





18
4095
HCPTCVALGTCFSAPSLPCP
TEX101
20
5418
YSEELFPEELSVVLGTNDLT
PRSS55





[139-158]



[111-130]





18
4096
TEALIVCEQDVSRMRRQLDE
TSGA10
20
5419
KFSGYPLYHSVYETYELVEK
PSMA





[316-335]



[545-564]





18
4097
MRPEGSLTYAVPERLRQGFC
TSPY1
20
5420
RLNPHPNILMLHEVVFDRKS
RAGE-1





[1-20]



[56-75]





18
4098
PPPPSQASSGQARMFPNAPY
WT1
20
5421
ELTKVRMARQKMSEIFPLTE
SART3





[114-133]



[127-146]





19
4099
VPTDLPAYVRNLFLTGNQLA
5T4
20
5422
ELEDIKVSLQRSVSTQKALE
SCP-1





[85-104]



[323-342]





19
4100
IYDENSYWRNQNPGSLLQLP
ACRBP
20
5423
TGEGEFNFSEVFSPVEDHLD
SCRN1





[301-320]



[215-234]





19
4101
IPRATIIYANISGHLCIAVE
ADAM2
20
5424
SILQEQISHLQFVIHSQHQN
se57-1





[557-576]



[237-256]





19
4102
NCSYGDFWEYTVERTKCLLE
ADAM29
20
5425
QQQEQIARQQQQLLQQQHKI
SOX-6





[368-387]



[232-251]





19
4103
FNQWKQNATDIMEAMLKRLV
AKAP-4
20
5426
IIEAKMELEEVTRLLNLKDK
SPAG1





[412-431]



[724-743]





19
4104
HLETVILGLLKTPAQYDASE
ANXA2
20
5427
SSSLSIKWDPVVPFRNESAV
TAG-1





[94-113]



[925-944]





19
4105
EKMDNQEYKDAYKFAADVRL
BRDT
20
5428
QAIIQGFSYDLLKKIDSPQR
TEX14





[324-343]



[152-171]





19
4106
YHENKKLIRCKVDGFTHLYT
CALR3
20
5429
HVSDHNRLLHLARPKAQSDK
THEG





[154-173]



[293-312]





19
4107
MVAVHQQQLLSWEEDRQKVL
CCDC62
20
5430
TVEKEMKSLARKAMDTESEL
TSGA10





[47-66]



[174-193]





19
4108
EKMKDTVQKLKNARQEVVEK
CDCA1
20
5431
SAKEGTAFRMEAVQEGAAGV
TSPY1





[256-275]



[33-52]





19
4109
RGPLFPVDARGPFLRRGPPF
cTAGE5









[700-719]









Example 19—Process for Personalized Vaccination

Process for personalized vaccination consists of 3 main steps as shown in FIG. 17. First, during the visit at the oncologist the patient provides saliva sample and tumor sample (biopsy) for tumor pathology. Second step is the matching of vaccine peptides with the patient's unique genetic code: Based on the determined HLA genotype of the patient and determined tumor type of the patient, 12 tumor and patient specific peptides are selected for the patient from the Hotspot Sequences listed in Table-25. Then, the vaccine will be prepared and after fill&finish plus QC release, and vaccine vials shipped to the clinical site. At the clinic, as third step of the process, vaccine is administered to the patient by the oncologist. The manufacturing of the personalized vaccine is carried out under GMP conditions. Vaccine selection and preparation can be performed during 6-8 weeks.


Eligibility criteria for personalized vaccination are:

    • ≥12 immunogenic peptides (12 PEPIs) from
    • ≥12 different cancer-specific antigens (expression rate (ER) in the disease ≥10%) and
    • AGP ≥3 (expected number of antigens expressed in the patient's tumor)
    • On stock in the PEPI PANEL “Warehouse”


Example 20—Feasibility Study for a “Simulated” Breast Cancer Clinical Trial

We describe here a model, where the peptide set (“warehouse”) consists of 100 immunogenic peptides derived from breast cancer specific TSAs (FIG. 18). These 100 peptides represent the peptide set for vaccine selection in this example. In this stock, there are available 100 mg of each peptide, that represents 25 peptide dose (for vaccination).


During the feasibility study, we screened 509 HLA-genotyped breast cancer subjects and identified 82 patients (16%) who were not eligible because less, than 12 peptides were found for those patients. This means, that 82% of patients could be treated with “patient-specific” vaccine from a panel consisting of 100 peptides. However, the amount (100 mg each) will only be enough for 32% of the patients if we intend to administer 3 doses/patient during the treatment, therefore 267 (52%), who will have not sufficient peptides in warehouse must be also excluded from this feasibility study. Consequently, 160 patients can be enrolled and treated by the administration of 3 consecutive vaccine doses. Manufacturing (GMP) can be performed within cca. 6 months.


Example 21—Vaccine Selection for a Breast Cancer Patient (Patient-C of Example 22) and for a Colorectal Cancer Patient (Patient-D of Example 22)

The vaccine selection process from peptides listed in Table 25 is demonstrated here by two examples.


Patient-C's PIT vaccine described in Example 22 were designed during a completely personalized design process and manufactured individually, and demonstrated very high immunogenicity: 11 out of 12 (92%) vaccine peptides induced CD8+ T cell responses and 11/12 (92%) were resulted in CD4+ T cell specific immune responses.


By taking the HLA genotype and tumor pathology report (breast cancer) of Patient-C, patient matching process according to Example 16 resulted in 116 of 3286 sequences, selected from 38 breast cancer specific TSAs (according to selection criteria of, Expression rate (ER) ≥10%). These 116 peptides are usable for vaccine selection for Patient-C and contain the PIT vaccine sequences. Three examples for random selection of 12 peptides from the 116 peptides are shown in Table 25 with expected AGP numbers.


PIT vaccine of Patient-C has an expected AGP value of 6.45, meaning that at least 6 vaccine-specific TSAs are likely expressed in the patient's tumor and are targeted by immune responses with at least 50% of probability. (AGP95 is 4, meaning that PIT vaccine peptides from at least 4 different TSAs are likely expressed in the patient's tumor and are targeted by immune responses in Patient-C with at least 95% probability.)









TABLE 29







Vaccine selection for Patient-C from the PEPI PANEL. Original vaccine means the


PIT vaccine designed during in a completely personalized design process for Patient-C (Example


22). The peptide set matched with Patient-C breast cancer indication resulted in 116 of 3286


Sequences selected from 38 of 58 Breast cancer specific TSAs). These 116 peptides are usable


for vaccine selection for Patient-C. Three examples for random selection of 12 peptides from the


116 peptides are shown in this table with calculated expected AGP numbers.












Calculated





expected



Vaccines
SEQ ID NOS (AG[ER %] from Table 25)
AGP
CI95%













PIT vaccine
5449 (SPAG9[88%]), 5432 (AKAP-4[85%]), 5433 (CTCFL[74%]),
6.45
[3, 9]


of Patient-C
5440 (MAGE-A11[59%]), 41 (FMR1NB[55%]), 5437 (FSIP1[42%]),





5444 (NY-BR-1[47%]), 5439 (LDHC[35%]), 5438 (GATA-3[31%]),





440 (Survivin[68%]), 5443 (MAGE-C1[16%]), 111 (PRAME[49%])




Random1
2 (ACRBP[40%]), 7 (AKAP-3[40%]), 18 (CDCA1[64%]), 40
4.91
[2, 8]



(FBXO39[38%]), 41 (FMR1NB[55%]), 42 (FSIP1[42%]), 57





(JARID1B[76%]), 60 (Lage-1[12%]), 66 (MAGE-A11[59%]), 68





(MAGE-A2[12%]), 74 (MAGE-A9[44%]), 80 (MAGE-C1[16%])




Random2
107 (PIWIL2[94%]), 167 (AKAP-4[85%]), 183 (CTCFL[74%]), 192
7.96
[5.11]



(EpCAM[76%]), 215 (JARID1B[76%]), 405 (ODF4[63%]), 440





(Survivin[68%]), 663 (MAGE-A11[59%]), 1539 (MAGE-A9[44%]),





857 (TDRD1[38%]), 1326 (PEPP2[60%]), 1441 (ODF4[63%])




Random3
18 (CDCA1[64%]), 107 (PIWIL2[94%]), 215 (JARID1B[76%]),
5.92
[3, 9]



297 (TDRD1[38%]), 391 (MAGE-C1[16%]), 470 (AKAP-4[85%]),





490 (DKKL1[20%]), 498 (FBXO39[38%]), 1088 (PRAME[49%]),





1100 (SP17[47%]), 1800 (TSGA10[70%])









For Patient-D, a similar analysis was performed. During the patient matching process according to Example 19, 136 of 3286 sequences were selected from Table 25. (derived from 37 of 53 CRC specific TSAs), based on the HLA genotype and tumor pathology report (colorectal cancer, CRC) data of Patient-D. These 136 peptides are usable for vaccine selection for Patient-D. Three examples for random selection of 13 peptides from the 136 peptides are shown in Table 30, with calculated AGP numbers. Patient-D had a PIT vaccine consisting of 13 peptides, therefore the random selection was also performed to result in 13 peptide sets.


Patient-D's PIT vaccine described in Example 22 were designed during a completely personalized design process and manufactured individually, and demonstrated very high immunogenicity: 13 out of 13 (100%) vaccine peptides induced CD8+ T cell responses and 7/13 (54%) were resulted in CD4+ T cell specific immune responses.


PIT vaccine of Patient-D has an expected AGP value of 6.60, meaning that at least 6 vaccine-specific TSAs are likely expressed in the patient's tumor and are targeted by immune responses with at least 50% of probability. (AGP95 is 4, meaning that PIT vaccine peptides from at least 4 different TSAs are likely expressed in the patient's tumor and are targeted by immune responses in Patient-D with at least 95% probability.)









TABLE 30







Vaccine selection for Patient-D from the PEPI PANEL. Original vaccine means the


PIT vaccine designed during in a completely personalized design process for Patient-D (Example


22). The peptide set matched with Patient-D CRC indication resulted in 136 of 3286 Sequences


selected from 37 of 53 CRC specific TSAs). These 136 peptides are usable for vaccine selection


for Patient-D and contain the PIT vaccine sequences. Three examples for random selection of 13


peptides from the 116 peptides are shown in this table with calculated AGP numbers.












Calculated





expected



Vaccines
SEQ ID NOS (AG[ER %] from Table 25)
AGP
CI95%













PIT vaccine
5450 (TSP50[89%]), 5436 (EpCAM[88%]), 5434 (CAGE1[74%]),
6.60
[4, 10]


of Patient-D
5447 (PIWIL1[48%]), 5448 (SPAG9[71%]), 2168 (AKAP-4





[74%]), 5442 (MAGE-A8[44%]), 5435 (DPPA2[44%]), 40





(FBXO39[39%]), 5445 (NYD-TSPG[30%]), 5446 (PAGE4[33%]),





647 (HAGE[15%]), 1172 (Lage-1[13%])
5.30
[2, 8]


Random1
315 (5T4[85%]), 347 (DPPA2[44%]), 353 (FBXO39[39%]), 371





(Lage-1[13%]), 383 (MAGE-A6[22%]), 384 (MAGE-A8[44%]),





412 (PIWIL2[80%]), 470 (AKAP-4[74%]), 486 (CXorf48[17%]),





639 (FBXO39[39%]), 647 (HAGE[15%]), 652 (IGFS11[55%]),
6.91
[4, 10]



657 (Lage-1[13%])




Random2
1157 (FBXO39[39%]), 1160 (GASZ[22%]), 1172 (Lage-1[13%]),





1183 (MAGE-A6[22%]), 1211 (PIWIL3[96%]), 1249 (5T4[85%]),





1256 (AKAP-4[74%]), 1262 (CCDC62[13%]), 1270
5.32
[3, 8]



(DBPC[90%]), 1274 (EpCAM[88%]), 1300 (MAGE-A3[22%]),





1365 (ZNF165[43%]), 1372 (AKAP-3[83%])




Random3
470 (AKAP-4[74%]), 486 (CXorf48[17%]), 639 (FBXO39[39%]),





647 (HAGE[15%]), 652 (IGFS11[55%]), 657 (Lage-1[13%]), 658





(LDHC[15%]), 686 (NYD-TSPG[30%]), 696 (PIWIL3[96%]), 713





(SPAG1[55%]), 796 (MAGE-A1[14%]), 830 (PIWIL3[96%]), 929





(MAGE-A2[18%])









Example 22—Personalised Immunotherapy (PIT) Design and Treatment for Ovarian-, Breast- and Colorectal Cancer

This Example provides proof of concept data from 4 metastatic cancer patients treated with personalized immunotherapy vaccine compositions to support the principals of binding of epitopes by multiple HLAs of a subject to induce cytotoxic T cell responses, on which the present disclosure is partly based on.


Composition for Treatment of Ovarian Cancer with POC01-PIT (Patient-A)


This example describes the treatment of an ovarian cancer patient with a personalised immunotherapy composition, wherein the composition was specifically designed for the patient based on her HLA genotype based on the disclosure described herein.


The HLA class I and class II genotype of a metastatic ovarian adenocarcinoma cancer patient (Patient-A) was determined from a saliva sample.


To make a personalized pharmaceutical composition for Patient-A thirteen peptides were selected, each of which met the following two criteria: (i) derived from an antigen that is expressed in ovarian cancers, as reported in peer reviewed scientific publications; and (ii) comprises a fragment that is a T cell epitope capable of binding to at least three HLA class I of Patient-A (Table 31). In addition, each peptide is optimized to bind the maximum number of HLA class II of the patient.









TABLE 31







Personalized vaccine of ovarian cancer Patient-A.













POC01

Anti-






vaccine
Tar-
gen


MAX
MAX


for
get
Ex-

SEQ
HLA
HLA


Patient-
Anti-
pres-

ID
class
class


A
gen
sion
20mer peptides
NO:
I
II





POC01_
AKAP4
89%
NSLQKQLQAVLQWIA
5933
3
5


P1


ASQFN








POC01_
BORIS
82%
SGDERSDEIVLTVSN
5934
4
2


P2


SNVEE








POC01_
SPAG9
76%
VQKEDGRVQAFGWSL
5935
3
3


P3


PQKYK








POC01_
OY-
75%
EVESTPMIMENIQEL
5936
3
4


P4
TES-1

IRSAQ








POC01_
SP17
69%
AYFESLLEKREKTNF
5937
3
1


P5


DPAEW








POC01_
WT1
63%
PSQASSGQARMFPNA
5938
4
1


P6


PYLPS








POC01_
HIWI
63%
RRSIAGFVASINEGM
5939
3
4


P7


TRWFS








POC01_
PRAME
60%
MQDIKMILKMVQLDS
5940
3
4


P8


IEDLE








POC01_
AKAP-
58%
ANSVVSDMMVSIMKT
5941
3
4


P9
3

LKIQV








POC01_
MAGE-
37%
REALSNKVDELAHFL
5942
3
2


P10
A4

LRKYR








POC01_
MAGE-
37%
ETSYEKVINYLVMLN
5943
3
4


P11
A9

AREPI








POC01_
MAGE-
52%
DVKEVDPTGHSFVLV
5944
3
4


P12a
A10

TSLGL








POC01_
BAGE
30%
SAQLLQARLMKEESP
5945
3
2


P12b


VVSWR









Eleven PEPI3 peptides in this immunotherapy composition can induce T cell responses in Patient-A with 84% probability and the two PEPI4 peptides (POC01-P2 and POC01-P5) with 98% probability, according to the validation of the PEPI test shown in Table 7. T cell responses target 13 antigens expressed in ovarian cancers. Expression of these cancer antigens in Patient-A was not tested. Instead the probability of successful killing of cancer cells was determined based on the probability of antigen expression in the patient's cancer cells and the positive predictive value of the ≥1 PEPI3+ test (AGP count). AGP count predicts the effectiveness of a vaccine in a subject: Number of vaccine antigens expressed in the patient's tumor (ovarian adenocarcinoma) with PEPI. The AGP count indicates the number of tumor antigens that the vaccine recognizes and induces a T cell response against the patient's tumor (hit the target). The AGP count depends on the vaccine-antigen expression rate in the subject's tumor and the HLA genotype of the subject. The correct value is between 0 (no PEPI presented by any expressed antigen) and maximum number of antigens (all antigens are expressed and present a PEPI).


The probability that Patient-A will express one or more of the 13 antigens is shown in FIGS. 19A-B. AGP95 (AGP with 95% probability)=5, AGP50 (the mean-expected value-of the discrete probability distribution)=7.9, mAGP (probability that AGP is at least 2)=100%, AP=13.


A pharmaceutical composition for Patient-A may be comprised of at least 2 from the 13 peptides (Table 31), because the presence in a vaccine or immunotherapy composition of at least two polypeptide fragments (epitopes) that can bind to at least three HLAs of an individual (≥2 PEPI3+) was determined to be predictive for a clinical response. The peptides are synthetized, dissolved in a pharmaceutically acceptable solvent and mixed with an adjuvant prior to injection. It is desirable for the patient to receive personalized immunotherapy with at least two peptide vaccines, but preferable more to increase the probability of killing cancer cells and decrease the chance of relapse.


For treatment of Patient-A, the 13 peptides were formulated as 4×3 or 4 peptide (P0001/1, P0001/2, P0001/3, P0001/4). One treatment cycle is defined as administration of all 13 peptides within 30 days.


Patient History:

Diagnosis: Metastatic ovarian adenocarcinoma


Age: 51

Family anamnesis: colon and ovary cancer (mother) breast cancer (grandmother)


Tumor Pathology:

2011: first diagnosis of ovarian adenocarcinoma; Wertheim operation and chemotherapy; lymph node removal


2015: metastasis in pericardial adipose tissue, excised


2016: hepatic metastases


2017: retroperitoneal and mesenteric lymph nodes have progressed; incipient peritoneal carcinosis with small accompanying ascites


Prior Therapy:
2012: Paclitaxel-carboplatin (6×)
2014: Caelyx-carboplatin (lx)

2016-2017 (9 months): Lymparza (Olaparib) 2×400 mg/day, oral


2017: Hycamtin inf. 5×2.5 mg (3× one seria/month)


PIT vaccine treatment began on 21 Apr. 2017. FIG. 20.


2017-2018: Patient-A received 8 cycles of vaccination as add-on therapy, and lived 17 months (528 days) after start of the treatment. During this interval, after the 3rd and 4th vaccine treatment she experienced partial response as best response. She died in October 2018.


An interferon (IFN)-γ ELISPOT bioassay confirmed the predicted T cell responses of Patient-A to the 13 peptides. Positive T cell responses (defined as >5 fold above control, or >3 fold above control and >50 spots) were detected for all 13 20-mer peptides and all 13 9-mer peptides having the sequence of the PEPI of each peptide capable of binding to the maximum HLA class I alleles of Patient-A (FIG. 21).


Patient' tumor MRI findings (Baseline Apr. 15, 2016) (BL: baseline for tumor response evaluation on FIG. 22)


Disease was confined primarily to liver and lymph nodes. The use of MRI limits detection of lung (pulmonary) metastasis


May 2016-January 2017: Olaparib treatment (FU1: follow up 1 on FIG. 22)


Dec. 25, 2016 (before PIT vaccine treatment) There was dramatic reduction in tumor burden with confirmation of response obtained at (FU2: follow up 2 on FIG. 22)


January-March 2017—TOPO protocol (topoisomerase)


Apr. 6, 2017 (FU3 on FIG. 22) demonstrated regrowth of existing lesions and appearance of new lesions leading to disease progression. Peritoneal carcinomatosis with increased amount of ascites. Progressive hepatic tumor and lymph node


Apr. 21, 2017 Start Pit

Jul. 26, 2017 (after the 2nd Cycle of PIT): (FU4 on FIG. 22) Progression/Pseudo-Progression

    • Rapid progression in lymph nodes, hepatic, retroperitoneal and thoracic areas, significant pleural fluid and ascites. Initiate Carboplatin, Gemcitabine, Avastin.


      Sep. 20, 2017 (after 3 Cycles of PIT): (FU5 on FIG. 22) Partial Response
    • Complete remission in the pleural region/fluid and ascites
    • Remission in hepatic, retroperitoneal area and lymph nodes
    • The findings suggest pseudo progression.


      Nov. 28, 2017 (after 4 Cycles of PIT): (FU6 on FIG. 22) Partial Response
    • Complete remission in the thoracic region. Remission in hepatic, retroperitoneal area and lymph nodes


Apr. 13, 2018: Progression





    • Complete remission in the thoracic and retroperitoneal regions. Progression in hepatic centers and lymph nodes


      Jun. 12, 2018: Stable disease

    • Complete remission in the thoracic and retroperitoneal regions. Minimal regression in hepatic centers and lymph nodes





July 2018: Progression

October 2018: Patient-A died


Partial MRI data for Patient-A is shown in Table 32 and FIG. 22.









TABLE 32







Summary Table of Lesions Responses

















Baseline
FU1
FU2
FU3
FU4
FU5
FU6




Lesion/
(% Δ
(% Δ
(% Δ
(% Δ
(% Δ
(% Δ
(% Δ
Best
PD


Time
from
from
from
from
from
from
from
Response
Time


Point
BL)
BL)
BL)
BL)
BL)
BL)
BL)
Cycle
Point



















TL1
NA
−56.1
−44.4
−44.8
+109.3
−47.8
−67.3
FU6
FU4


TL2
NA
−100.0
−100.0
−47.1
−13.1
−100.0
−100.0
FU1
FU3


TL3
NA
−59.4
−62.3
−62.0
−30.9
−66.7
−75.9
FU6
FU4


TL4
NA
−65.8
−100.0
−100.0
−100.0
−100.0
−100.0
FU2
NA


SUM
NA
−66.3
−76.0
−68.9
−23.5
−78.2
−85.2
FU6
FU4









Design, Safety and Immunogenicity of Personalised Immunotherapy Composition PBRC01 for Treatment of Metastatic Breast Cancer (Patient-B)

The HLA class I and class II genotype of metastatic breast cancer Patient-B was determined from a saliva sample. To make a personalized pharmaceutical composition for Patient-B twelve peptides were selected, each of which met the following two criteria: (i) derived from an antigen that is expressed in breast cancers, as reported in peer reviewed scientific publications; and (ii) comprises a fragment that is a T cell epitope capable of binding to at least three HLA class I of Patient-B (Table 33). In addition, each peptide is optimized to bind the maximum number of HLA class II of the patient. The twelve peptides target twelve breast cancer antigens. The probability that Patient-B will express one or more of the 12 antigens is shown in FIGS. 23A-C.









TABLE 33







12 peptides for Patient-B breast cancer patient















Anti-







Tar-
gen


MAXHL
MAXHL


BRC01
get
Ex-

SEQ 
A
A


vaccine
Anti-
pres-

ID
Class
Class


peptides
gen
sion
20mer peptide
NO:
I
II





PBRC01_
FSIP1
49%
ISDTKDYFMSKTL
5946
3
6


cP1


GIGRLKR








PBRC01_
SPAG9
88%
FDRNTESLFEELS
5947
3
2


cP2


SAGSGLI








PBRC01_
AKAP4
85%
SQKMDMSNIVLML
5948
3
6


cP3


IQKLLNE








PBRC01_
BORIS
71%
SAVFHERYALIQH
5949
3
6


cP4


QKTHKNE








PBRC01_
MAGE-
59%
DVKEVDPTSHSYV
5950
3
4


cP5
A11

LVTSLNL








PBRC01_
NY-
49%
ENAHGQSLEEDSA
5951
3
2


cP6
SAR-

LEALLNF






35










PBRC01_
HOM-
47%
MASFRKLTLSEKV
5952
3
5


cP7
TES-

PPNHPSR






85










PBRC01_
NY-
47%
KRASQYSGQLKVL
5953
3
6


cP8
BR-1

IAENTML








PBRC01_
MAGE-
44%
VDPAQLEFMFQEA
5954
3
8


cP9
A9

LKLKVAE








PBRC01_
SCP-
38%
EYEREETRQVYMD
5955
3
3


cP10
1

LNNNIEK








PBRC01_
MAGE-
37%
PEIFGKASESLQL
5956
3
3


cP11
A1

VFGIDVK








PBRC01_
MAGE-
21%
DSESSFTYTLDEK
5957
4
2


cP12
C2

VAELVEF









Predicted Efficacy:


AGP95=4; 95% likelihood that the PIT Vaccine induces CTL responses against 4 TSAs expressed in the breast cancer cells of Patient-B. Additional efficacy parameters: AGP50=6.45, mAGP=100%, AP=12.


For treatment of Patient-B the 12 peptides were formulated as 4×3 peptide (PBR01/1, PBR01/2, PBR01/3, PBR01/4). One treatment cycle is defined as administration of all 12 different peptide vaccines within 30 days (FIG. 23C).


Patient History:

2013: Diagnosis: breast carcinoma diagnosis; CT scan and hone scan ruled out metastatic disease.


2014: bilateral mastectomy, postoperative chemotherapy


2016: extensive metastatic disease with nodal involvement both above and below the diaphragm. Multiple liver and pulmonary metastases.


Therapy:
2013-2014: Adriamycin-Cyclophosphamide and Paclitaxel

2017: Letrozole, Palbociclib and Gosorelin and PIT vaccine


2018: Worsening conditions, patient died in January


PIT vaccine treatment began on 7 Apr. 2017. treatment schedule of Patient-B and main characteristics of disease are shown in Table 34.









TABLE 34







Treatment and response of Patient-B









Date (2017)














March
May
June
September
November
December









PIT Vaccine














Palbocyclib







Treatment
Letrozole














regimen
Gosorelin
Anticancer drug treatment interruption
















Neutrophils
ND
1.1
4.5
3.4
2.4
3


(1.7-3.5/mm3)








CEA
99
65
23
32
128
430


(<5.0 ng/ml)








CA 15-3
322
333
138
76
272
230


(<31.3 U/ml)








T1: Right
15 mm &
9 mm &
nd*
nd
nd
6 mm & 0


axillar
11.6
2.0



SUVmax


lymph node
SUVmax
SUVmax






T2: Right lung
10 mm &
7 mm & 0
nd 
nd
nd
4 mm & 0


metastasis
4.8
SUVmax



SUVmax



SUVmax







Left iliac
Non
Regression
nd 
nd
nd
Regression


bone
measurable
& 0



&


metastasis
& 4.0
SUVmax



0 SUVmax



SUVmax







Multiple liver
Non
Partial
nd 
nd
nd
Progression


metastases
measurable
regression



& 16.8



& 11.5
& 6.1



SUVmax



SUVmax
SUVmax





*no data






It was predicted with 95% confidence that 8-12 vaccine peptides would induce T cell responses in Patient-B. Peptide-specific T cell responses were measured in all available PBMC samples using an interferon (IFN)-γ ELISPOT bioassay (FIG. 24). The results confirmed the prediction: Nine peptides reacted positive demonstrating that T cells can recognize Patient-B's tumor cells expressing FISP1, BORIS, MAGE-A11, HOM-TES-85, NY-BR-1, MAGE-A9, SCP1, MAGE-A1 and MAGE-C2 antigens. Some tumor specific T cells were present after the 1St vaccination and boosted with additional treatments (e.g. MAGE-A1) others induced after boosting (e.g. MAGE-A9). Such broad tumor specific T cell responses are remarkable in a late stage cancer patient.


Patient-B History and Results

Mar. 7, 2017: Prior PIT Vaccine treatment


Hepatic multi-metastatic disease with truly extrinsic compression of the origin of the choledochal duct and massive dilatation of the entire intrahepatic biliary tract. Celiac, hepatic hilar and retroperitoneal adenopathy


March 2017: Treatment initiation—Letrozole, Palbociclib, Gosorelin & PIT Vaccine


May 2017: Drug interruption


May 26, 2017: After 1 cycle of PIT


83% reduction of tumor metabolic activity (PET CT) liver, lung lymphnodes and other metastases.


June 2017: Normalized Neutrophils values indicate Palbociclib interruption as affirmed by the patient


4 Months Delayed Rebound of Tumor Markers

March to May 2017: CEA and CA remained elevated consistently with the outcome of her anti-cancer treatment (Ban, Future Oncol 2018)


June to September 2017: CEA and CA decreased consistently with the delayed responses to immunotherapies


Quality of Life

February to March 2017: Poor, hospitalized with jaundice


April to October 2017: Excellent

November 2017: Worsening conditions (tumor escape?)


January 2018: Patient-B died.


Immunogenicity results are summarized in FIG. 24.


Clinical outcome measurements of the patient: One month prior to the initiation of PIT vaccine treatment PET CT documented extensive DFG avid disease with nodal involvement both above and below the diaphragm (Table 34). She had progressive multiple hepatic, multifocal osseous and pulmonary metastases and retroperitoneal adenopathy. Her intrahepatic enzymes were elevated consistent with the damage caused by her liver metastases with elevated bilirubin and jaundice. She accepted Letrozole, Palbociclib and Gosorelin as anti-cancer treatment. Two month after initiation of PIT vaccinations the patient felt very well and her quality of life normalized. In fact, her PET CT showed a significant morphometabolic regression in the liver, lung, bone and lymph node metastases. No metabolic adenopathy was identifiable at the supra-diaphragmatic stage.


The combination of Palblocyclib and the personalised vaccine was likely to have been responsible for the remarkable early response observed following administration of the vaccine. Palbocyclib has been shown to improve the activity of immunotherapies by increasing TSA presentation by HLAs and decreasing the proliferation of Tregs (Goel et al. Nature. 2017:471-475). The results of Patient-B treatment suggest that PIT vaccine may be used as add-on to the state-of-art therapy to obtain maximal efficacy.


Patient-B's tumor biomarkers were followed to disentangle the effects of state-of-art therapy from those of PIT vaccine. Tumor markers were unchanged during the initial 2-3 months of treatment then sharply dropped suggesting of a delayed effect, typical of immunotherapies (Table 34). Moreover, at the time the tumor biomarkers dropped the patient had already voluntarily interrupted treatment and confirmed by the increase in neutrophil counts.


After the 5th PIT treatment the patient experienced symptoms. The levels of tumor markers and liver enzymes were increased again. 33 days after the last PIT vaccination, her PET CT showed significant metabolic progression in the liver, peritoneal, skeletal and left adrenal site confirming the laboratory findings. The discrete relapse in the distant metastases could be due to potential immune resistance; perhaps caused by downregulation of both HLA expression that impairs the recognition of the tumor by PIT induced T cells. However, the PET CT had detected complete regression of the metabolic activity of all axillary and mediastinal axillary supra-diaphragmatic targets (Table 34). These localized tumor responses may be accounted to the known delayed and durable responses to immunotherapy, as it is unlikely that after anti-cancer drug treatment interruption these tumor sites would not relapse.


Personalised Immunotherapy Composition for Treatment of a Patient with Metastatic Breast Carcinoma (Patient-C)


PIT vaccine similar in design to that described for Patient-A and Patient-B was prepared for the treatment of a patient (Patient-C) with metastatic breast carcinoma. PIT vaccine contained 12 PEPIs. The PIT vaccine has a predicted efficacy of AGP=4. The patient's treatment schedule is shown in FIG. 25.


Tumor Pathology

2011 Original tumor: HER2-, ER+, sentinel lymph node negative


2017 Multiple bone metastases: ER+, cytokeratin 7+, cytokeratin 20-,CA125-, TTF1-, CDX2-


Treatments

2011 Wide local resection, sentinel lymph nodes negative; radiotherapy


2017—Anti-cancer therapy (Tx): Letrozole (2.5 mg/day), Denosumab;

    • Radiation (Rx): one bone
    • PIT vaccine (3 cycles) as add-on to standard of care


Bioassay confirmed positive T cell responses (defined as >5 fold above control, or >3 fold above control and >50 spots) to 11 out of the 12 20-mer peptides of the PIT vaccine and 11 out of 12 9-mer peptides having the sequence of the PEPI of each peptide capable of binding to the maximum HLA class I alleles of the patient (FIGS. 26A-B). Long-lasting memory T-cell responses were detected after 14 months of the last vaccination (FIGS. 26C-D).


Treatment Outcome

Clinical results of treatment of Patient-C are shown in Table 35. Patient-C has partial response and signs of healing bone metastases.









TABLE 35







Clinical results of treatment of breast cancer Patient-C













+70 days*
+150 days*
+388 days*



Before PIT
(10 w)
(21 w)
(55 w)





Bone
Met. breast
Not done
RIB5 is
Not done


Biopsy
cancer DCIS

negative



PET CT
Multiple
Only RIB5 is
Not done
Not done



metastases
DFG avid




CT
Multiple
Not done
Not done
Healing



metastases


bone mets






(sclerotic foci)


CA-15-3
87
50
32
24





*After 3rd cycle of PIT vaccination







Immune responses are shown on FIG. 26. Predicted Immunogenicity, PEPI=12 (CI95% [8,12]


Detected Immunogenicity: 11 (20-mers) & 11 (9-mers) antigen specific T cell responses following 3 PIT vaccinations (FIG. 26A, B). After 4.5, 11 or 14 months of the last vaccination, PIT vaccine-specific immune response could still be detected (FIG. 26 C, D).


Personalised Immunotherapy Composition for Treatment of Patient with Metastatic Colorectal Cancer (Patient-D)


Tumor Pathology

2017 (February) mCRC (MSS) with liver metastases, surgery of primer tumor (in sigmoid colon).

    • pT3 pN2b (8/16) M1. KRAS G12D, TP53-C135Y, KDR-Q472H, MET-T1010I mutations. SATB2 expression. EGFR wt, PIK3CA-I391M (non-driver).


      2017 (June) Partial liver resection: KRAS-G12D (35G>A) NRAS wt,


      2018 (May) 2nd resection: SATB2 expression, lung metastases 3→21


Treatments

2017 FOLFOX-4 (oxaliplatin, Ca-folinate, 5-FU)→allergic reaction during 2nd treatment

    • DeGramont (5-FU+Ca-folinate)


      2018 (June)→FOLFIRI plus ramucirumab, biweekly; chemoembolization


      2018 (October) PIT vaccination (13 patient-specific peptides, 4 doses) as add-on to standard of care.


      The patient's treatment schedule is shown in FIG. 27.


Treatment Outcome

Patient in good overall condition, disease progression in lungs after 8 months confirmed by CT.


Both PIT induced and pre-existing T cell responses were measured by enriched Fluorospot from PBMC, using 9mer and 20mer peptides for stimulation (FIGS. 28A-B).


Summary of immune response rate and immunogenicity results prove the proper design for target antigen selection as well as for the induction of multi-peptide targeting immune responses, both CD4+ and CD8+ specific ones.









TABLE 36







Summary table of immunological analysis of Patient A-D









Measured immunogenicity for the



different vaccine peptides*









Patient ID
CD4+ T cells
CD8+ T cells














Patient-A
13/13
(100%)
13/13
(100%)


Patient-B
9/12
(75%)
1/12
(8%)


Patient-C
11/12
(92%)
11/12
(92%)


Patient-D
7/13
(54%)
13/13
(100%)









IRR (ratio of immune
4/4
4/4


responder patients)




Ratio of immunogenic peptides
10/12-13
10/12-13


(median)





*Following 1-3 cycles of vaccination





Claims
  • 1. A method of providing immunotherapy to a subject in need thereof, the method comprising: administering to the individual a pharmaceutical composition, comprising i) two or more different peptides consisting of an amino acid sequence selected from the group consisting of SEQ ID Nos: 1 to 2786 and 5432 to 5931 and ii) a pharmaceutically acceptable adjuvant, diluent, carrier, preservative, or a combination thereof, thereby inducing an immune response.
  • 2. The method of claim 1, further comprising: predicting that the subject will have a CD8+ T cell response and/or a CD4+ T cell response to each peptide of the pharmaceutical composition by,(i) a) determining that each peptide comprises at least one amino acid sequence that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject; and b) predicting that the subject will have a CD8+ T cell response to each peptide of the pharmaceutical composition or each peptide, polynucleic acid or vector of the kit; and(ii) a) determining that each peptide comprises at least one amino acid sequence that is a T cell epitope capable of binding to at least three HLA class II molecules of the subject; and b) predicting that the subject will have a CD4+ T cell response to each peptide of the pharmaceutical composition.
  • 3. The method of claim 1, wherein the pharmaceutical composition comprises at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, or at least 12 different peptides, wherein each peptide consists of an amino acid sequence selected from the group consisting of SEQ ID Nos: 1 to 2786 and 5432 to 5931.
  • 4. The method of claim 1, wherein the peptides of the pharmaceutical composition are from different cancer associated antigens selected from Table 24.
  • 5. The method of claim 1, wherein the adjuvant comprises an aluminium salt, saponin, Lipid A, or a water-in-oil emulsion.
  • 6. The method according to claim 1, wherein the immunotherapy is a treatment for cancer.
  • 7. The method of claim 6, wherein the cancer is bladder cancer, brain cancer, breast cancer, colorectal cancer, gastric cancer, hepatocellular cancer, leukemia, lung cancer, lymphoma, melanoma, ovarian cancer, pancreatic cancer, pediatric cancer, thyroid cancer, prostate cancer, kidney cancer, head and neck cancer, esophageal cancer and cervical cancer.
  • 8. A pharmaceutical composition, comprising (a) at least two peptides consisting of 15 to 50 amino acids in length, wherein each peptide comprises a different sequence and which binds to at least three HLA class II alleles and at least three HLA class I alleles; and(b) an immunological adjuvant.
  • 9. The pharmaceutical composition of claim 8, wherein the at least two peptides each comprise a different sequence selected from SEQ ID Nos: 1 to 2786 and/or 5432 to 5931.
  • 10. The pharmaceutical composition of claim 8, comprising at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, or at least 12 different peptides, wherein each peptide comprises an amino acid sequence selected from the group consisting of SEQ ID Nos: 1 to 2786 and 5432 to 5931.
  • 11. The pharmaceutical composition of claim 8, wherein the peptides are from different cancer associated antigens selected from Table 24.
  • 12. The pharmaceutical composition of claim 8, wherein the adjuvant comprises an aluminium salt, saponin, Lipid A, or a water-in-oil emulsion.
  • 13. A method of designing or preparing a peptide, or a polynucleic acid or vector that encodes a peptide, or a panel of peptides, or one or more polynucleic acid or vectors that encode a panel of peptides, for use in a method of inducing a T cell response against a target polypeptide, the method comprising (i) selecting or defining a model human population comprising a plurality of subjects each defined by HLA class I genotype and/or by HLA class II genotype;(ii) identifying for each subject of the model population: (a) amino acid sequences of the target polypeptide that are a T cell epitope capable of binding to at least three HLA class I molecules of the subject;(b) amino acid sequences of the target polypeptide that are a T cell epitope capable of binding to at least three HLA class II molecules of the subject;(c) amino acid sequences of the target polypeptide that comprise a T cell epitope capable of binding to at least three HLA class I molecules of the subject and a T cell epitope capable of binding to at least three HLA class II molecules of the subject; or(d) amino acid sequences of the target polypeptide that both a. are a T cell epitope capable of binding to at least three HLA class II molecules; andb. comprise an amino acid sequence that is a T cell epitope capable of binding to at least three HLA class I molecules of the subject;(iii) selecting a polypeptide fragment window length of between 9 and 50 amino acids;(iv) identifying a fragment of the target polypeptide that (a) has the length selected in step (iii); and(b) comprises an amino acid sequence identified in any one of step (ii) (a) to (c) in the highest proportion of subjects in the model population; and(v) designing or preparing a peptide, a polynucleic acid or vector that encodes a peptide, a panel of peptides, or one or more polynucleic acids or vectors that encode a panel of peptides, wherein each peptide comprises one or more of the target polypeptide fragments identified in step (iv).
  • 14. The method of claim 13, wherein the polypeptide fragment is flanked at the N and/or C terminus by additional amino acids that are not part of the sequence of the target polypeptide antigen.
  • 15. The method of claim 13, further comprising (v) testing the fragment identified in step (iv) against additional pre-defined criteria, rejecting the fragment if the further pre-defined criteria are not met, and repeating step (iv) to identify an alternative fragment of the target polypeptide that has the length selected in step (iii); and comprises an amino acid sequence identified in step (iv) in the next highest proportion of subjects in the model population.
  • 16. The method of claim 15, further comprising repeating step (iv) and step (v) in one or more further rounds, wherein a further fragment of the target polypeptide is identified in each round, and wherein in each round subjects are excluded from the model population if any of the fragments selected in step (iv) and not rejected in step (v) of any of the preceding rounds comprises an amino acid sequence identified in step (ii) for that subject.
  • 17. The method according to claim 13, wherein the target polypeptide is expressed by pathogenic organism, a virus or a cancer cell, or is a cancer testes antigen, optionally wherein the target polypeptide is selected from the antigens listed in any of Tables 2 to 5.
  • 18. The method according to claim 13, further comprising selecting two or more peptides, polynucleic acids or vectors designed or prepared according to the method of claim 9 for use in a method of vaccinating, providing immunotherapy to, or inducing a cytotoxic and/or helper T cell response in a subject, wherein each of the two or more peptides or encoded peptides comprises an amino acid sequence that is (a) a fragment of a polypeptide that is expressed by a pathogenic organism, a virus or a cancer cell; and(b) a T cell epitope capable of binding to at least three HLA class I molecules of the subject or a T cell epitope capable of binding to at least three HLA class II molecules of the subject;and wherein the method further comprises administering the one or more peptides, polynucleic acids or vectors to the subject.
Priority Claims (1)
Number Date Country Kind
1814362.8 Sep 2018 GB national