THIOESTERASES AND CELLS FOR PRODUCTION OF TAILORED OILS

BACKGROUND

Certain organisms including plants and some microalgae use a type II fatty acid biosynthetic pathway, characterized by the use of discrete, monofunctional enzymes for fatty acid synthesis. In contrast, mammals and fungi use a single, large, multifunctional protein.

Type II fatty acid biosynthesis typically involves extension of a growing acyl-ACP (acyl-carrier protein) chain by two carbon units followed by cleavage by an acyl-ACP thioesterase. In plants, two main classes of acyl-ACP thioesterases have been identified: (i) those encoded by genes of the FatA class, which tend to hydrolyze oleoyl-ACP into oleate (an 18:1 fatty acid) and ACP, and (ii) those encoded by genes of the FatB class, which liberate C8-C16 fatty acids from corresponding acyl-ACP molecules.

Different FatB genes from various plants have specificities for different acyl chain lengths. As a result, different gene products will produce different fatty acid profiles in plant seeds. See, U.S. Pat. Nos. 5,850,022; 5,723,761; 5,639,790; 5,807,893; 5,455,167; 5,654,495; 5,512,482;5,298,421;5,667,997; and 5,344,771; 5,304,481. Recently, FatB genes have been cloned into oleaginous microalgae to produce triglycerides with altered fatty acid profiles. See, WO2010/063032, WO2011/150411, WO2012/106560, and WO2013/158938.

SUMMARY

In various aspects, the invention(s) contemplated herein may include, but need not be limited to, any one or more of the following embodiments:

Embodiment 1

A nucleic acid construct including a regulatory element and a FatB gene expressing an active acyl-ACP thioesterase operable to produce an altered fatty acid profile in an oil produced by a cell expressing the nucleic acid construct, wherein the FatB gene expresses a protein having an amino acid sequence falling within clade 5 of Table 1a, the sequence having at least 94.6% sequence identity with each of SEQ ID NOs: 88, 82, 85, and 103, and optionally wherein the fatty acid of the oil is enriched in C8 and C10 fatty acids.

Embodiment 2

Embodiment 3

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within clade 1 of Table 1a, the sequence having at least 85.9% sequence identity with each of SEQ ID NOs: 19, 161, 22, and 160, and optionally wherein the fatty acid of the oil is enriched in C14 and C16 fatty acids.

Embodiment 4

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within clade 2 of Table 1a, the sequence having at least 89.5% sequence identity with each of SEQ ID NOs: 134-136, 132, 133, 137, 124, 122, 123, 125, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.

Embodiment 5

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within clade 3 of Table 1a, the sequence having at least 92.5% sequence identity with each of SEQ ID NOs: 126 and 127, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.

Embodiment 6

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within clade 4 of Table 1a, the sequence having at least 83.8% sequence identity with SEQ ID NO: 79, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.

Embodiment 7

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within clade 6 of Table 1a, the sequence having at least 99.9% sequence identity with each of SEQ ID NOs: 111 and 110, and optionally wherein the fatty acid of the oil is enriched in CIO fatty acids.

Embodiment 8

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within clade 7 of Table 1a, the sequence having at least 89.5% sequence identity with each of SEQ ID NOs: 73, 106, 185, 172, 171, 173, 174, and optionally wherein the fatty acid of the oil is enriched in C10 and C12 fatty acids.

Embodiment 9

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within clade 8 of Table 1a, the sequence having at least 85.9% sequence identity with each of SEQ ID NOs: 112, 113, 142, 145, 143, 144, 139, 140, 138, 141, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.

Embodiment 10

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within clade 9 of Table 1a, the sequence having at least 83.8% sequence identity with each of SEQ ID NOs: 187-189, and optionally wherein the fatty acid of the oil is enriched in C12 and C14 fatty acids.

Embodiment 11

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within clade 10 of Table 1a, the sequence having at least 95.9% sequence identity with each of SEQ ID NOs: 147, 149, 146, 150, 152, 151, 148, 154, 156, 155, 157, 108, 75, 190, 191, and 192, and optionally wherein the fatty acid of the oil is enriched in C14 and C16 fatty acids.

Embodiment 12

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within clade 11 of Table 1a, the sequence having at least 88.7% sequence identity with SEQ ID NO: 121, and optionally wherein the fatty acid of the oil is enriched in C14 and C16 fatty acids.

Embodiment 13

The nucleic acid construct of embodiment 2, wherein the FatB gene expresses a protein having an amino acid sequence falling within clade 12 of Table 1a, the sequence having at least 72.8% sequence identity with each of SEQ ID NOs: 129 and 186, and optionally wherein the fatty acid of the oil is enriched in C16 fatty acids.

Embodiment 14

An isolated nucleic acid or recombinant DNA construct including a nucleic acid, wherein the nucleic acid has at least 80% sequence identity to any of SEQ ID NOS: 2, 3, 5, 6, 8, 9, 11, 12, 14, 15, 17, 18, 20, 21, 23, 24, 26, 27, 29, 30, 32, 33, 35, 36, 38, 39, 41, 42, 44, 45, 47, 48, 50, 51, 53, 54, 56, 57, 59, 60, 62, 63, 65, 66, 68, 69, 71, 72, 74, 76, 78, 80, 81, 83, 84, 86, 87, 89, 90, 92, 93, 95, 96, 98, 99, 101, 102, 104, 105, 107, 109 or any equivalent sequences by virtue of the degeneracy of the genetic code.

Embodiment 15

An isolated nucleic acid sequence encoding a protein or a host cell expressing a protein having at least 80% sequence identity to any of SEQ ID NOS: 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31, 34, 37, 40, 43, 46, 49, 52, 55, 58, 61, 64, 67, 70, 73, 75, 77, 79, 82, 85, 88, 91, 94, 97, 100, 103, 106, 108, 110-192 or a fragment thereof having acyl-ACP thioesterase activity.

Embodiment 16

The isolated nucleic acid of embodiment 15, wherein, the protein has acyl-ACP thioesterase activity operable to alter the fatty acid profile of an oil produced by a recombinant cell including that sequence.

Embodiment 17

A method of producing a recombinant cell that produces an altered fatty acid profile, the method including transforming the cell with a nucleic acid according to any of embodiments 1-3.

Embodiment 18

A host cell produced by the method of embodiment 17.

Embodiment 19

The host cell of embodiment 18, wherein the host cell is selected from a plant cell, a microbial cell, and a microalgal cell.

Embodiment 20

A method for producing an oil or oil-derived product, the method including cultivating a host cell of embodiment 5 or 6, and extracting oil produced thereby, optionally wherein the cultivation is heterotrophic growth on sugar.

Embodiment 21

The method of embodiment 20, further including producing a fatty acid, fuel, chemical, or other oil-derived product from the oil.

Embodiment 22

An oil produced by the method of embodiment 20, optionally having a fatty acid profile including at least 20% C8, C10, C12, C14 or C16 fatty acids.

Embodiment 23

An oil-derived product produced by the method of embodiment

Embodiment 24

The oil of embodiment 23, wherein the.oil is produced by a microalgae and optionally, lacks C24-alpha sterols.

DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS OF THE INVENTION
Definitions

As used with respect to nucleic acids, the term “isolated” refers to a nucleic acid that is free of at least one other component that is typically present with the naturally occurring nucleic acid. Thus, a naturally occurring nucleic acid is isolated if it has been purified away from at least one other component that occurs naturally with the nucleic acid.

A “natural oil” or “natural fat” shall mean a predominantly triglyceride oil obtained from an organism, where the oil has not undergone blending with another natural or synthetic oil, or fractionation so as to substantially alter the fatty acid profile of the triglyceride. In connection with an oil comprising triglycerides of a particular regiospecificity, the natural oil or natural fat has not been subjected to interesterification or other synthetic process to obtain that regiospecific triglyceride profile, rather the regiospecificity is produced naturally, by a cell or population of cells. In connection with a natural oil or natural fat, and as used generally throughout the present disclosure, the terms oil and fat are used interchangeably, except where otherwise noted. Thus, an “oil” or a “fat” can be liquid, solid, or partially solid at room temperature, depending on the makeup of the substance and other conditions. Here, the term “fractionation” means removing material from the oil in a way that changes its fatty acid profile relative to the profile produced by the organism, however accomplished. The terms “natural oil” and “natural fat” encompass such oils obtained from an organism, where the oil has undergone minimal processing, including refining, bleaching and/or degumming, which does not substantially change its triglyceride profile. A natural oil can also be a “noninteresterified natural oil”, which means that the natural oil has not undergone a process in which fatty acids have been redistributed in their acyl linkages to glycerol and remain essentially in the same configuration as when recovered from the organism.

“Exogenous gene” shall mean a nucleic acid that codes for the expression of an RNA and/or protein that has been introduced into a cell (e.g. by transformation/transfection), and is also referred to as a “transgene”. A cell comprising an exogenous gene may be referred to as a recombinant cell, into which additional exogenous gene(s) may be introduced. The exogenous gene may be from a different species (and so heterologous), or from the same species (and so homologous), relative to the cell being transformed. Thus, an exogenous gene can include a homologous gene that occupies a different location in the genome of the cell or is under different control, relative to the endogenous copy of the gene. An exogenous gene may be present in more than one copy in the cell. An exogenous gene may be maintained in a cell, for example, as an insertion into the genome (nuclear or plastid) or as an episomal molecule.

“Fatty acids” shall mean free fatty acids, fatty acid salts, or fatty acyl moieties in a glycerolipid. It will be understood that fatty acyl groups of glycerolipids can be described in terms of the carboxylic acid or anion of a carboxylic acid that is produced when the triglyceride is hydrolyzed or saponified.

“Microalgae” are microbial organisms that contain a chloroplast or other plastid, and optionally that are capable of performing photosynthesis, or a prokaryotic microbial organism capable of performing photosynthesis. Microalgae include obligate photoautotrophs, which cannot metabolize a fixed carbon source as energy, as well as heterotrophs, which can live solely off of a fixed carbon source. Microalgae include unicellular organisms that separate from sister cells shortly after cell division, such as Chlamydomonas, as well as microbes such as, for example, Volvox, which is a simple multicellular photosynthetic microbe of two distinct cell types. Microalgae include cells such as Chlorella, Dunaliella, and Prototheca. Microalgae also include other microbial photosynthetic organisms that exhibit cell-cell adhesion, such as Agmenellum, Anabaena, and Pyrobotrys. Microalgae also include obligate heterotrophic microorganisms that have lost the ability to perform photosynthesis, such as certain dinoflagellate algae species and species of the genus Prototheca.

An “oleaginous” cell is a cell capable of producing at least 20% lipid by dry cell weight, naturally or through recombinant or classical strain improvement. An “oleaginous microbe” or “oleaginous microorganism” is a microbe, including a microalga that is oleaginous.

The term “percent sequence identity,” in the context of two or more amino acid or nucleic acid sequences, refers to two or more sequences or subsequences that are the same or have a specified percentage of amino acid residues or nucleotides that are the same, when compared and aligned for maximum correspondence, as measured using a sequence comparison algorithm or by visual inspection. For sequence comparison to determine percent nucleotide or amino acid identity, typically one sequence acts as a reference sequence, to which test sequences are compared. When using a sequence comparison algorithm, test and reference sequences are input into a computer, subsequence coordinates are designated, if necessary, and sequence algorithm program parameters are designated. The sequence comparison algorithm then calculates the percent sequence identity for the test sequence(s) relative to the reference sequence, based on the designated program parameters. Optimal alignment of sequences for comparison can be conducted using the NCBI BLAST software (ncbi.nlm.nih.gov/BLAST/) set to default parameters. For example, to compare two nucleic acid sequences, one may use blastn with the “BLAST 2 Sequences” tool Version 2.0.12 (Apr. 21, 2000) set at the following default parameters: Matrix: BLOSUM62; Reward for match: 1; Penalty for mismatch: −2; Open Gap: 5 and Extension Gap: 2 penalties; Gap x drop-off: 50; Expect: 10; Word Size: 11; Filter: on. For a pairwise comparison of two amino acid sequences, one may use the “BLAST 2 Sequences” tool Version 2.0.12 (Apr. 21, 2000) with blastp set, for example, at the following default parameters: Matrix: BLOSUM62; Open Gap: 11 and Extension Gap: 1 penalties; Gap x drop-off 50; Expect: 10; Word Size: 3; Filter: on.

In connection with a natural oil, a “profile” is the distribution of particular species or triglycerides or fatty acyl groups within the oil. A “fatty acid profile” is the distribution of fatty acyl groups in the triglycerides of the oil without reference to attachment to a glycerol backbone. Fatty acid profiles are typically determined by conversion to a fatty acid methyl ester (FAME), followed by gas chromatography (GC) analysis with flame ionization detection (FID). The fatty acid profile can be expressed as one or more percent of a fatty acid in the total fatty acid signal determined from the area under the curve for that fatty acid. FAME-GC-FID measurement approximate weight percentages of the fatty acids.

As used herein, an oil is said to be “enriched” in one or more particular fatty acids if there is at least a 10% increase in the mass of that fatty acid in the oil relative to the non-enriched oil. For example, in the case of a cell expressing a heterologous FatB gene described herein, the oil produced by the cell is said to be enriched in, e.g., C8 and C16 fatty acids if the mass of these fatty acids in the oil is at least 10% greater than in oil produced by a cell of the same type that does not express the heterologous FatB gene (e.g., wild type oil).

“Recombinant” is a cell, nucleic acid, protein or vector that has been modified due to the introduction of an exogenous nucleic acid or the alteration of a native nucleic acid. Thus, e.g., recombinant (host) cells can express genes that are not found within the native (non-recombinant) form of the cell or express native genes differently than those genes are expressed by a non-recombinant cell. Recombinant cells can, without limitation, include recombinant nucleic acids that encode a gene product or suppression elements such as mutations, knockouts, antisense, interfering RNA (RNAi) or dsRNA that reduce the levels of active gene product in a cell. A “recombinant nucleic acid” is a nucleic acid originally formed in vitro, in general, by the manipulation of nucleic acid, e.g., using polymerases, ligases, exonucleases, and endonucleases, using chemical synthesis, or otherwise is in a form not normally found in nature. Recombinant nucleic acids may be produced, for example, to place two or more nucleic acids in operable linkage. Thus, an isolated nucleic acid or an expression vector formed in vitro by nucleic by ligating DNA molecules that are not normally joined in nature, are both considered recombinant for the purposes of this invention. Recombinant nucleic acids can also be produced in other ways; e.g., using chemical DNA synthesis. Once a recombinant nucleic acid is made and introduced into a host cell or organism, it may replicate using the in vivo cellular machinery of the host cell; however, such nucleic acids, once produced recombinantly, although subsequently replicated intracellularly, are still considered recombinant for purposes of this invention. Similarly, a “recombinant protein” is a protein made using recombinant techniques, i.e., through the expression of a recombinant nucleic acid.

Embodiments of the present invention relate to the use of FatB genes isolated from plants, which can be expressed in a host cell in order to alter the fatty acid profile of an oil produced by the recombinant cell. Although the microalga, Prototheca moriformis, was used to screen the genes for ability to the alter fatty acid profile, the genes are useful in a wide variety of host cells. For example, the genes can be expressed in bacteria, other microalgae, or higher plants. The genes can be expressed in higher plants according to the methods of US Patent Nos. 5,850,022; 5,723,761; 5,639,790; 5,807,893; 5,455,167; 5,654,495; 5,512,482;5,298,421;5,667,997; 5,344,771; and 5,304,481. The fatty acids can be further converted to triglycerides, fatty aldehydes, fatty alcohols and other oleochemicals either synthetically or biosynthetically.

In specific embodiments, triglycerides are produced by a host cell expressing a novel FatB gene. A triglyceride-containing natural oil can be recovered from the host cell. The natural oil can be refined, degummed, bleached and/or deodorized. The oil, in its natural or processed form, can be used for foods, chemicals, fuels, cosmetics, plastics, and other uses. In other embodiments, the FatB gene may not be novel, but the expression of the gene in a microalga is novel.

The genes can be used in a variety of genetic constructs including plasmids or other vectors for expression or recombination in a host cell. The genes can be codon optimized for expression in a target host cell. The proteins produced by the genes can be used in vivo or in purified form.

For example, the gene can be prepared in an expression vector comprising an operably linked promoter and 5′UTR. Where a plastidic cell is used as the host, a suitably active plastid targeting peptide can be fused to the FATB gene, as in the examples below. Generally, for the newly identified FATB genes, there are roughly 50 amino acids at the N-terminal that constitute a plastid transit peptide, which are responsible for transporting the enzyme to the chloroplast. In the examples below, this transit peptide is replaced with a 38 amino acid sequence that is effective in the Prototheca moriformis host cell for transporting the enzyme to the plastids of those cells. Thus, the invention contemplates deletions and fusion proteins in order to optimize enzyme activity in a given host cell. For example, a transit peptide from the host or related species may be used instead of that of the newly discovered plant genes described here.

A selectable marker gene may be included in the vector to assist in isolating a transformed cell. Examples of selectable markers useful in microlagae include sucrose invertase and antibiotic resistance genes.

The gene sequences disclosed can also be used to prepare antisense, or inhibitory RNA (e.g., RNAi or hairpin RNA) to inhibit complementary genes in a plant or other organism.

FatB genes found to be useful in producing desired fatty acid profiles in a cell are summarized below in Table 1. Nucleic acids or proteins having the sequence of SEQ ID NOS: 1-109 can be used to alter the fatty acid profile of a recombinant cell. Variant nucleic acids can also be used; e.g., variants having at least 70, 80, 85, 90, 95, 96, 97, 98, or 99% sequence identity to SEQ ID NOS: 2, 3, 5, 6, 8, 9, 11, 12, 14, 15, 17, 18, 20, 21, 23, 24, 26, 27, 29, 30, 32, 33, 35, 36, 38, 39, 41, 42, 44, 45, 47, 48, 50, 51, 53, 54, 56, 57, 59, 60, 62, 63, 65, 66, 68, 69, 71, 72, 74, 76, 78, 80, 81, 83, 84, 86, 87, 89, 90, 92, 93, 95, 96, 98, 99, 101, 102, 104, 105, 107 or 109. Codon optimization of the genes for a variety of host organisms is contemplated, as is the use of gene fragments. Preferred codons for Prototheca strains and for Chlorella protothecoides are shown below in Tables 2 and 3, respectively. Codon usage for Cuphea wrightii is shown in Table 3a. Codon usage for Arabidopsis is shown in Table 3b; for example, the most preferred of codon for each amino acid can be selected. Codon tables for other organisms including microalgae and higher plants are known in the art. In some embodiments, the first and/or second most preferred Prototheca codons are employed for codon optimization. In specific embodiments, the novel amino acid sequences contained in the sequence listings below are converted into nucleic acid sequences according to the most preferred codon usage in Prototheca, Chlorella, Cuphea wrightii, or Arabidopsis as set forth in tables 2 through 3b or nucleic acid sequences having at least 70, 80, 85, 90, 95, 96, 97, 98, or 99% sequence identity to these derived nucleic acid sequences.

In embodiments of the invention, there is protein or a nucleic acid encoding a protein having any of SEQ ID NOS: 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31, 34, 37, 40, 43, 46, 49, 52, 55, 58, 61, 64, 67, 70, 73, 75, 77, 79, 82, 85, 88, 91, 94, 97, 100, 103, 106, 108, or 110-192. In an embodiment, there is protein or a nucleic acid encoding a protein having at least 70, 75, 80, 85, 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, or 100% sequence identity with any of SEQ ID NOS: 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31, 34, 37, 40, 43, 46, 49, 52, 55, 58, 61, 64, 67, 70, 73, 75, 77, 79, 82, 85, 88, 91, 94, 97, 100, 103, 106, 108, or 110-192. In certain embodiments, the invention encompasses a fragment any of the above-described proteins or nucleic acids (including fragments of protein or nucleic acid variants), wherein the protein fragment has acyl-ACP thioesterase activity or the nucleic acid fragment encodes such a protein fragment. In other embodiments, the fragment includes a domain of an acyl-ACP thioesterase that mediates a particular function, e.g., a specificity-determining domain. Illustrative fragments can be produced by C-terminal and/or N-terminal truncations and include at least 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 96%, 97%, 98%, or 99% of the full-length sequences disclosed herein.

In certain embodiments, percent sequence identity for variants of the nucleic acids or proteins discussed above can be calculated by using the full-length nucleic acid sequence (e.g., one of SEQ ID NOS: 2, 3, 5, 6, 8, 9, 11, 12, 14, 15, 17, 18, 20, 21, 23, 24, 26, 27, 29, 30, 32, 33, 35, 36, 38, 39, 41, 42, 44, 45, 47, 48, 50, 51, 53, 54, 56, 57, 59, 60, 62, 63, 65, 66, 68, 69, 71, 72, 74, 76, 78, 80, 81, 83, 84, 86, 87, 89, 90, 92, 93, 95, 96, 98, 99, 101, 102, 104, 105, 107 or 109) or full-length amino acid sequence (e.g., one of SEQ ID NOS: 1, 4, 7, 10, 13, 16, 19, 22, 25, 28, 31, 34, 37, 40, 43, 46, 49, 52, 55, 58, 61, 64, 67, 70, 73, 75, 77, 79, 82, 85, 88, 91, 94, 97, 100, 103, 106, 108, or 110-192) as the reference sequence and comparing the full-length test sequence to this reference sequence. In some embodiments relating to fragments, percent sequence identity for variants of nucleic acid or protein fragments can be calculated over the entire length of the fragment.

The nucleic acids can be in isolated form, or part of a vector or other construct, chromosome or host cell. It has been found that is many cases the full length gene (and protein) is not needed; for example, deletion of some or all of the N-terminal hydrophobic domain (typically an 18 amino acid domain starting with LPDW) yields a still-functional gene. In addition, fusions of the specificity determining regions of the genes in Table 1 with catalytic domains of other acyl-ACP thioesterases can yield functional genes. Thus, in certain embodiments, the invention encompasses functional fragments (e.g., specificity determining regions) of the disclosed nucleic acid or amino acids fused to heterologous acyl-ACP thioesterase nucleic acid or amino acid sequences, respectively.

TABLE 1

FatB genes according to embodiments of the present invention

Native CDS

Sequence

nucleotide

Prototheca

Variant(relative
Amino Acid
sequence (not

moriformis

to dominant
Sequence
codon-optimized,
codon-optimized

transcript
of CDS (no
no additional
nucleotide

Species
Gene Name
identified)
additional tags)
cloning sites)
sequence of CDS

Cinnamomum

CcFATB1b
M25L, M322R,
SEQ ID NO: 1
SEQ ID NO: 2
SEQ ID NO: 3

camphora

ΔT367-D368

Cinnamomum

CcFATB4
“wild-type”
SEQ ID NO: 4
SEQ ID NO: 5
SEQ ID NO: 6

camphora

Cinnamomum

CcFATB3
“wild-type”
SEQ ID NO: 7
SEQ ID NO: 8
SEQ ID NO: 9

camphora

Cuphea

ChsFATB1
“wild-type”
SEQ ID NO: 10
SEQ ID NO: 11
SEQ ID NO: 12

hyssopifolia

Cuphea

ChsFATB2
“wild-type”
SEQ ID NO: 13
SEQ ID NO: 14
SEQ ID NO: 15

hyssopifolia

Cuphea

ChsFATB2b
+a.a.248-259
SEQ ID NO: 16
SEQ ID NO: 17
SEQ ID NO: 18

hyssopifolia

Cuphea

ChsFATB3
“wild-type”
SEQ ID NO: 19
SEQ ID NO: 20
SEQ ID NO: 21

hyssopifolia

Cuphea

ChsFATB3b
V204I, C239F, E243D,
SEQ ID NO: 22
SEQ ID NO: 23
SEQ ID NO: 24

hyssopifolia

M251V

Cuphea

CuPSR23FATB3
“wild-type”
SEQ ID NO: 25
SEQ ID NO: 26
SEQ ID NO: 27

PSR23

Cuphea

CwFATB3
“wild-type”
SEQ ID NO: 28
SEQ ID NO: 29
SEQ ID NO: 30

wrightii

Cuphea

CwFATB4a
“wild-type”
SEQ ID NO: 31
SEQ ID NO: 32
SEQ ID NO: 33

wrightii

Cuphea

CwFATB4b
“wild-type”
SEQ ID NO: 34
SEQ ID NO: 35
SEQ ID NO: 36

wrightii

Cuphea

CwFATB5
“wild-type”
SEQ ID NO: 37
SEQ ID NO: 38
SEQ ID NO: 39

wrightii

Cuphea

ChtFATB1a
“wild-type”
SEQ ID NO: 40
SEQ ID NO: 41
SEQ ID NO: 42

heterophylla

Cuphea

ChtFATB1b
P16S, T20P, G94S,
SEQ ID NO: 43
SEQ ID NO: 44
SEQ ID NO: 45

heterophylla

G105W, S293F, L305F

Cuphea

ChtFATB2b
“wild-type”
SEQ ID NO: 46
SEQ ID NO: 47
SEQ ID NO: 48

heterophylla

Cuphea

ChtFATB2a
S17P, P21S, T28N,
SEQ IDO NO: 49
SEQ ID NO: 50
SEQ ID NO: 51

heterophylla

L30P, S33L, G76D,

S78P, G137W

Cuphea

ChtFATB2c
G76D, S78P
SEQ ID NO: 52
SEQ ID NO: 53
SEQ ID NO: 54

heterophylla

Cuphea

ChtFATB2d
S21P, T28N, L30P,
SEQ ID NO: 55
SEQ ID NO: 56
SEQ ID NO: 57

heterophylla

S33L, G76D, R97L,

H124L, W127L, I132S,

K258N, C303R, E309G,

K334T, T386A

Cuphea

ChtFATB2e
G76D, R97L, H124L,
SEQ ID NO: 58
SEQ ID NO: 59
SEQ ID NO: 60

heterophylla

I132S, G152S, H165L,

T211N, K258N, C303R,

E309G, K334T, T386A

Cuphea

ChtFATB2f
R97L, H124L, I132S,
SEQ ID NO: 61
SEQ ID NO: 62
SEQ ID NO: 63

heterophylla

G152S, H165L, T211N

Cuphea

ChtFATB2g
A6T, A16V, S17P,
SEQ ID NO: 64
SEQ ID NO: 65
SEQ ID NO: 66

heterophylla

G76D, R97L, H124L,

I132S, S143I, G152S,

A157T, H165L, T211N,

G414A

Cuphea

ChtFATB3a
“wild-type”
SEQ ID NO: 67
SEQ ID NO: 68
SEQ ID NO: 69

heterophylla

Cuphea

ChtFATB3b
C67G, H72Q, L128F,
SEQ ID NO: 70
SEQ ID NO: 71
SEQ ID NO: 72

heterophylla

N179I

Cuphea

CvisFATB1
published
SEQ ID NO: 73
N/A
SEQ ID NO: 74

viscosissima

Cuphea

CvisFATB2
published
SEQ ID NO: 75
N/A
SEQ ID NO: 76

viscosissima

Cuphea

CvisFATB3
published
SEQ ID NO: 77
N/A
SEQ ID NO: 78

viscosissima

Cuphea

CcalcFATB1
“wild-type”
SEQ ID NO: 79
SEQ ID 80
SEQ ID 81

calcarata

Cuphea

CpaiFATB1
“wild-type”
SEQ ID NO: 82
SEQ ID 83
SEQ ID 84

painteri

Cuphea

ChookFATB4
“wild-type”
SEQ ID NO: 85
SEQ ID 86
SEQ ID 87

hookeriana

Cuphea

CaFATB1
“wild-type”
SEQ ID NO: 88
SEQ ID 89
SEQ ID 90

avigera var.

pulcherrima

Cuphea

CPauFATB1
“wild-type”
SEQ ID NO: 91
SEQ ID 92
SEQ ID 93

paucipetala

Cuphea

CprocFATB1
“wild-type”
SEQ ID NO: 94
SEQ ID 95
SEQ ID 96

procumbens

Cuphea

CprocFATB2
“wild-type”
SEQ ID NO: 97
SEQ ID 98
SEQ ID 99

procumbens

Cuphea

CprocFATB3
“wild-type”
SEQ ID NO: 100
SEQ ID 101
SEQ ID 102

procumbens

Cuphea ignea

CigneaFATB1
“wild-type”; partial
SEQ ID NO: 103
SEQ ID 104
SEQ ID 105

(missing N-terminal

portion of native

transit peptide, fused

to CpSAD1tp_trimmed

transit peptide)

Consensus
JcFATB1
Consensus
SEQ ID NO: 106
None, can be
SEQ ID NO: 107

sequence

codon optimized

for a given host

Consensus
JcFATB2
Consensus
SEQ ID NO: 108
None, can be
SEQ ID NO: 109

sequence

codon optimized

for a given host

In certain embodiments, a host cell (e.g. plant or microalgal cell) is transformed to produce a recombinant FATB protein falling into one of clades 1-12 of Table 1a. These clades were determined by sequence alignment and observation of changes in fatty acid profile when expressed in Prototheca. See Example 5. The FATB amino acid sequence can fall within x % amino acid sequence identity of each sequence in that clade listed in Table 1a, where x is a first second or third cutoff value, also listed in Table 1a.

TABLE 1a

Groupings of Novel FatB genes into clades.

First Cutoff

Value (minimum

% amino acid
Second
Third

Clade

Example Function
identity to members
Cutoff
Cutoff

No.
Amino Acid SEQ ID Nos. in Clade
(see Table 6)
of clade)
Value
Value

1
ChsFATB3 (SEQ ID NO: 19)
Increase C14/C16
85.9
97.4
98

ChsFATB3d (SEQ ID NO: 161)
fatty acids

ChsFATB3b (SEQ ID NO: 22)

ChsFATB3c (SEQ ID NO: 160)

2
ChtFATB1a.2 (SEQ ID NO: 134)
Increase C12/C14
89.5
95
98

ChtFATB1a.3 (SEQ ID NO: 135)
fatty acids

ChtFATB1a.4 (SEQ ID NO: 136)

ChtFATB1a (SEQ ID NO: 132)_—

ChtFATB1a.1 (SEQ ID NO: 133)

ChtFATB1b (SEQ ID NO: 137)

CwFATB5b (SEQ ID NO: 124)

CwFATB5 (SEQ ID NO: 122)

CwFATB5a (SEQ ID NO: 123)

CwFATB5c (SEQ ID NO: 125)

3
CwFATB5.1 (SEQ ID NO: 126)
Increase C12/C14
92.5
95
98

CwFATB5.1a (SEQ ID NO: 127)
fatty acids

4
CcalcFATB1 (SEQ ID NO: 79)
Increase C12/C14
83.8
93
95

fatty acids

5
CaFATB1 (SEQ ID NO: 88)
Increase C8/C10
94.6
96
98

CpaiFATB1 (SEQ ID NO: 82)
fatty acids

ChookFATB4 (SEQ ID NO: 85)

CigneaFATB1 (SEQ ID NO: 103)

6
CuPSR23FATB3b (SEQ ID NO: 111)
Increase C10 fatty
99.9

CuPSR23FATB3 (SEQ ID NO: 110)
acids

7
CvisFATB1 (SEQ ID NO: 73)
Increase C10/C12
89.5
93
96

JcFATB1/SzFATB1 (SEQ ID NO: 106)
fatty acids

CgFATB1b (SEQ ID NO: 185)

CprocFATB1 (SEQ ID NO: 172)

CpauFATB1 (SEQ ID NO: 171)

CprocFATB2 (SEQ ID NO: 173)

CprocFATB3 (SEQ ID NO: 174)

8
CwFATB3 (SEQ ID NO: 112)
Increase C12/C14
85.9
98.9
99.5

CwFATB3a (SEQ ID NO: 113)
fatty acids

ChtFATB2e (SEQ ID NO: 142)

ChtFATB2h (SEQ ID NO: 145)

ChtFATB2f (SEQ ID NO: 143)

ChtFATB2g (SEQ ID NO: 144)

ChtFATB2a (SEQ ID NO: 139)

ChtFATB2c (SEQ ID NO: 140)

ChtFATB2b (SEQ ID NO: 138)

ChtFATB2d (SEQ ID NO: 141)

9
CcrFATB2c (SEQ ID NO: 187)
Increase C12/C14
83.8
90
95

CcrFATB2 (SEQ ID NO: 188)
fatty acids

CcrFATB2b (SEQ ID NO: 189)

10
ChtFATB3b (SEQ ID NO: 147)
Increase C14/C16
95.9
98
99

ChtFATB3d (SEQ ID NO: 149)
fatty acids

ChtFATB3a (SEQ ID NO: 146)

ChtFATB3e (SEQ ID NO: 150)

ChtFATB3g (SEQ ID NO: 152)

ChtFATB3f (SEQ ID NO: 151)

ChtFATB3c (SEQ ID NO: 148)

ChsFATB2 (SEQ ID NO: 154)

ChsFATB2c (SEQ ID NO: 156)

ChsFATB2b (SEQ ID NO: 155)

ChsFATB2d (SEQ ID NO: 157)

JcFATB2/SzFATB2 (SEQ ID NO: 108)

CvisFATB2 (SEQ ID NO: 75)

CcrFATB1 (SEQ ID NO: 190 )

CcrFATB1b (SEQ ID NO: 191 )

CcrFATB1c (SEQ ID NO: 192 )

11
CwFATB4b.1 (SEQ ID NO: 121)
Increase C14/C16
88.7
94.5
97

fatty acids

12
CcFATB3 (SEQ ID NO: 129)
Increase C16 fatty
72.8
85
90

UcFATB3 (SEQ ID NO: 186)
acids

(predicted)

TABLE 2

Preferred codon usage in Prototheca strains

Ala
GCG
345
(0.36)
Asn
AAT
8
(0.04)

GCA
66
(0.07)

AAC
201
(0.96)

GCT
101
(0.11)
Pro
CCG
161
(0.29)

GCC
442
(0.46)

CCA
49
(0.09)

Cys
TGT
12
(0.10)

CCT
71
(0.13)

TGC
105
(0.90)

CCC
267
(0.49)

Asp
GAT
43
(0.12)
Gln
CAG
226
(0.82)

GAC
316
(0.88)

CAA
48
(0.18)

Glu
GAG
377
(0.96)
Arg
AGG
33
(0.06)

GAA
14
(0.04)

AGA
14
(0.02)

Phe
TTT
89
(0.29)

CGG
102
(0.18)

TTC
216
(0.71)

CGA
49
(0.08)

Gly
GGG
92
(0.12)

CGT
51
(0.09)

GGA
56
(0.07)

CGC
331
(0.57)

GGT
76
(0.10)
Ser
AGT
16
(0.03)

GGC
559
(0.71)

AGC
123
(0.22)

His
CAT
42
(0.21)

TCG
152
(0.28)

CAC
154
(0.79)

TCA
31
(0.06)

Ile
ATA
4
(0.01)

TCT
55
(0.10)

ATT
30
(0.08)

TCC
173
(0.31)

ATC
338
(0.91)
Thr
ACG
184
(0.38)

Lys
AAG
284
(0.98)

ACA
24
(0.05)

AAA
7
(0.02)

ACT
21
(0.05)

Leu
TTG
26
(0.04)

ACC
249
(0.52)

TTA
3
(0.00)
Val
GTG
308
(0.50)

CTG
447
(0.61)

GTA
9
(0.01)

CTA
20
(0.03)

GTT
35
(0.06)

CTT
45
(0.06)

GTC
262
(0.43)

CTC
190
(0.26)
Trp
TGG
107
(1.00)

Met
ATG
191
(1.00)
Tyr
TAT
10
(0.05)

TAC
180
(0.95)

Stop
TGA/TAG/TAA

TABLE 3

Preferred codon usage in Chlorella protothecoides

TTC (Phe)
TAG (Tyr)
TGC (Cys)
TGA (Stop)

TGG (Trp)
CCC (Pro)
CAC (His)
CGC (Arg)

CTG (Leu)
CAG (Gln)
ATC (Ile)
ACC (Thr)

GAC (Asp)
TCC (Ser)
ATG (Met)
AAG (Lys)

GCC (Ala)
AAC (Asn)
GGC (Gly)
GTG (Val)

GAG (Glu)

TABLE 3a

Codon usage for Cuphea wrightii

UUU F 0.48 19.5 (52) UCU S 0.21 19.5 (52) UAU Y 0.45 6.4 (17) UGU C 0.41 10.5 (28)

UUC F 0.52 21.3 (57) UCC S 0.26 23.6 (63) UAC Y 0.55 7.9 (21) UGC C 0.59 15.0 (40)

UUA L 0.07 5.2 (14) UCA S 0.18 16.8 (45) UAA * 0.33 0.7 (2) UGA * 0.33 0.7 (2)

UUG L 0.19 14.6 (39) UCG S 0.11 9.7 (26) UAG * 0.33 0.7 (2) UGG W 1.00 15.4 (41)

CUU L 0.27 21.0 (56) CCU P 0.48 21.7 (58) CAU H 0.60 11.2 (30) CGU R 0.09 5.6 (15)

CUC L 0.22 17.2 (46) CCC P 0.16 7.1 (19) CAC H 0.40 7.5 (20) CGC R 0.13 7.9 (21)

CUA L 0.13 10.1 (27) CCA P 0.21 9.7 (26) CAA Q 0.31 8.6 (23) CGA R 0.11 6.7 (18)

CUG L 0.12 9.7 (26) CCG P 0.16 7.1 (19) CAG Q 0.69 19.5 (52) CGG R 0.16 9.4 (25)

AUU I 0.44 22.8 (61) ACU T 0.33 16.8 (45) AAU N 0.66 31.4 (84) AGU S 0.18 16.1 (43)

AUC I 0.29 15.4 (41) ACC T 0.27 13.9 (37) AAC N 0.34 16.5 (44) AGC S 0.07 6.0 (16)

AUA I 0.27 13.9 (37) ACA T 0.26 13.5 (36) AAA K 0.42 21.0 (56) AGA R 0.24 14.2 (38)

AUG M 1.00 28.1 (75) ACG T 0.14 7.1 (19) AAG K 0.58 29.2 (78) AGG R 0.27 16.1 (43)

GUU V 0.28 19.8 (53) GCU A 0.35 31.4 (84) GAU D 0.63 35.9 (96) GGU G 0.29 26.6 (71)

GUC V 0.21 15.0 (40) GCC A 0.20 18.0 (48) GAC D 0.37 21.0 (56) GGC G 0.20 18.0 (48)

GUA V 0.14 10.1 (27) GCA A 0.33 29.6 (79) GAA E 0.41 18.3 (49) GGA G 0.35 31.4 (84)

GUG V 0.36 25.1 (67) GCG A 0.11 9.7 (26) GAG E 0.59 26.2 (70) GGG G 0.16 14.2 (38)

TABLE 3b

Codon usage for Arabidopsis

UUU F 0.51 21.8 (678320) UCU S 0.28 25.2 (782818) UAU Y 0.52 14.6 (455089) UGU C 0.60 10.5 (327640)

UUC F 0.49 20.7 (642407) UCC S 0.13 11.2 (348173) UAC Y 0.48 13.7 (427132) UGC C 0.40 7.2 (222769)

UUA L 0.14 12.7 (394867) UCA S 0.20 18.3 (568570) UAA * 0.36 0.9 (29405) UGA * 0.44 1.2 (36260)

UUG L 0.22 20.9 (649150) UCG S 0.10 9.3 (290158) UAG * 0.20 0.5 (16417) UGG W 1.00 12.5 (388049)

CUU L 0.26 24.1 (750114) CCU P 0.38 18.7 (580962) CAU H 0.61 13.8 (428694) CGU R 0.17 9.0 (280392)

CUC L 0.17 16.1 (500524) CCC P 0.11 5.3 (165252) CAC H 0.39 8.7 (271155) CGC R 0.07 3.8 (117543)

CUA L 0.11 9.9 (307000) CCA P 0.33 16.1 (502101) CAA Q 0.56 19.4 (604800) CGA R 0.12 6.3 (195736)

CUG L 0.11 9.8 (305822) CCG P 0.18 8.6 (268115) CAG Q 0.44 15.2 (473809) CGG R 0.09 4.9 (151572)

AUU I 0.41 21.5 (668227) ACU T 0.34 17.5 (544807) AAU N 0.52 22.3 (693344) AGU S 0.16 14.0 (435738)

AUC I 0.35 18.5 (576287) ACC T 0.20 10.3 (321640) AAC N 0.48 20.9 (650826) AGC S 0.13 11.3 (352568)

AUA I 0.24 12.6 (391867) ACA T 0.31 15.7 (487161) AAA K 0.49 30.8 (957374) AGA R 0.35 19.0 (589788)

AUG M 1.00 24.5 (762852) ACG T 0.15 7.7 (240652) AAG K 0.51 32.7 (1016176) AGG R 0.20 11.0 (340922)

GUU V 0.40 27.2 (847061) GCU A 0.43 28.3 (880808) GAU D 0.68 36.6 (1139637) GGU G 0.34 22.2 (689891)

GUC V 0.19 12.8 (397008) GCC A 0.16 10.3 (321500) GAC D 0.32 17.2 (535668) GGC G 0.14 9.2 (284681)

GUA V 0.15 9.9 (308605) GCA A 0.27 17.5 (543180) GAA E 0.52 34.3 (1068012) GGA G 0.37 24.2 (751489)

GUG V 0.26 17.4 (539873) GCG A 0.14 9.0 (280804) GAG E 0.48 32.2 (1002594) GGG G 0.16 10.2 (316620)

Host Cells

The host cell can be a single cell (e.g., microalga, bacteria, yeast) or part of a multicellular organism such as a plant or fungus. Methods for expressing Fatb genes in a plant are given in 5,850,022; 5,723,761; 5,639,790; 5,807,893; 5,455,167; 5,654,495; 5,512,482;5,298,421;5,667,997; and 5,344,771; 5,304,481, or can be accomplished using other techniques generally known in plant biotechnology. Engineering of oleaginous microbes including those of Chlorophyta is disclosed in WO2010/063032, WO2011,150411, and WO2012/106560 and in the examples below.

Examples of oleaginous host cells include plant cells and microbial cells having a type II fatty acid biosynthetic pathway, including plastidic oleaginous cells such as those of oleaginous algae. Specific examples of microalgal cells include heterotrophic or obligate heterotrophic microalgae of the phylum Chlorophtya, the class Trebouxiophytae, the order Chlorellales, or the family Chlorellacae. Examples of oleaginous microalgae are provided in Published PCT Patent Applications WO2008/151149, WO2010/06032, WO2011/150410, and WO2011/150411, including species of Chlorella and Prototheca, a genus comprising obligate heterotrophs. The oleaginous cells can be, for example, capable of producing 25, 30, 40, 50, 60, 70, 80, 85, or about 90% oil by cell weight, ±5%. Optionally, the oils produced can be low in DHA or EPA fatty acids. For example, the oils can comprise less than 5%, 2%, or 1% DHA and/or EPA. The above-mentioned publications also disclose methods for cultivating such cells and extracting oil, especially from microalgal cells; such methods are applicable to the cells disclosed herein and incorporated by reference for these teachings. When microalgal cells are used they can be cultivated autotrophically (unless an obligate heterotroph) or in the dark using a sugar (e.g., glucose, fructose and/or sucrose). In any of the embodiments described herein, the cells can be heterotrophic cells comprising an exogenous invertase gene so as to allow the cells to produce oil from a sucrose feedstock. Alternately, or in addition, the cells can metabolize xylose from cellulosic feedstocks. For example, the cells can be genetically engineered to express one or more xylosc metabolism genes such as those encoding an active xylose transporter, a xylulose-5-phosphate transporter, a xylose isomerase, a xylulokinase, a xylitol dehydrogenase and a xylose reductase. See WO2012/154626, “GENETICALLY ENGINEERED MICROORGANISMS THAT METABOLIZE XYLOSE”, published Nov 15, 2012.

Oils and Related Products

The oleaginous cells express one or more exogenous genes encoding fatty acid biosynthesis enzymes. As a result, some embodiments feature natural oils that were not obtainable from a non-plant or non-seed oil, or not obtainable at all.

The oleaginous cells produce a storage oil, which is primarily triacylglyceride and may be stored in storage bodies of the cell. A raw oil may be obtained from the cells by disrupting the cells and isolating the oil. WO2008/151149, WO2010/06032, WO2011/150410, and WO2011/1504 disclose heterotrophic cultivation and oil isolation techniques. For example, oil may be obtained by cultivating, drying and pressing the cells. The oils produced may be refined, bleached and deodorized (RBD) as known in the art or as described in WO2010/120939. The raw or RBD oils may be used in a variety of food, chemical, and industrial products or processes. After recovery of the oil, a valuable residual biomass remains. Uses for the residual biomass include the production of paper, plastics, absorbents, adsorbents, as animal feed, for human nutrition, or for fertilizer.

Where a fatty acid profile of a triglyceride (also referred to as a “triacylglyceride” or “TAG”) cell oil is given here, it will be understood that this refers to a nonfractionated sample of the storage oil extracted from the cell analyzed under conditions in which phospholipids have been removed or with an analysis method that is substantially insensitive to the fatty acids of the phospholipids (e.g. using chromatography and mass spectrometry). The oil may be subjected to an RBD process to remove phospholipids, free fatty acids and odors yet have only minor or negligible changes to the fatty acid profile of the triglycerides in the oil. Because the cells are oleaginous, in some cases the storage oil will constitute the bulk of all the TAGs in the cell.

The stable carbon isotope value δ13C is an expression of the ratio of 13C/12C relative to a standard (e.g. PDB, carbonite of fossil skeleton of Belemnite americana from Peedee formation of South Carolina). The stable carbon isotope value δ13C (0/00) of the oils can be related to the δ13C value of the feedstock used. In some embodiments, the oils are derived from oleaginous organisms heterotrophically grown on sugar derived from a C4 plant such as corn or sugarcane. In some embodiments the δ13C (0/00) of the oil is from −10 to −17 0/00 or from −13 to −16 0/00.

The oils produced according to the above methods in some cases are made using a microalgal host cell. As described above, the microalga can be, without limitation, fall in the classification of Chlorophyta, Trebouxiophyceae , Chlorellales, Chlorellaceae, or Chlorophyceae. It has been found that microalgae of Trebouxiophyceae can be distinguished from vegetable oils based on their sterol profiles. Oil produced by Chlorella protothecoides was found to produce sterols that appeared to be brassicasterol, ergosterol, campesterol, stigmasterol, and β-sitosterol, when detected by GC-MS. However, it is believed that all sterols produced by Chlorella have C2413 stereoohemistry. Thus, it is believed that the molecules detected as campesterol, stigmasterol, and β-sitosterol, are actually 22,23-dihydrobrassicasterol, proferasterol and clionasterol, respectively. Thus, the oils produced by the microalgae described above can be distinguished from plant oils by the presence of sterols with C24β stereochemistry and the absence of C24α stereochemistry in the sterols present. For example, the oils produced may contain 22, 23-dihydrobrassicasterol while lacking campesterol; contain clionasterol, while lacking in β-sitosterol, and/or contain poriferasterol while lacking stigmasterol. Alternately, or in addition, the oils may contain significant amounts of Δ⁷-poriferasterol.

In one embodiment, the oils provided herein are not vegetable oils. Vegetable oils are oils extracted from plants and plant seeds. Vegetable oils can be distinguished from the non-plant oils provided herein on the basis of their oil content. A variety of methods for analyzing the oil content can be employed to determine the source of the oil or whether adulteration of an oil provided herein with an oil of a different (e.g. plant) origin has occurred. The determination can be made on the basis of one or a combination of the analytical methods. These tests include but are not limited to analysis of one or more of free fatty acids, fatty acid profile, total triacylglycerol content, diacylglycerol content, peroxide values, spectroscopic properties (e.g. UV absorption), sterol profile, sterol degradation products, antioxidants (e.g. tocopherols), pigments (e.g. chlorophyll), d13C values and sensory analysis (e.g. taste, odor, and mouth feel). Many such tests have been standardized for commercial oils such as the Codex Alimentarius standards for edible fats and oils.

Sterol profile analysis is a particularly well-known method for determining the biological source of organic matter. Campesterol, b-sitosterol, and stigamsterol are common plant sterols, with b-sitosterol being a principle plant sterol. For example, b-sitosterol was found to be in greatest abundance in an analysis of certain seed oils, approximately 64% in corn, 29% in rapeseed, 64% in sunflower, 74% in cottonseed, 26% in soybean, and 79% in olive oil (Gul et al. J. Cell and Molecular Biology 5:71-79, 2006).

Oil isolated from Prototheca moriformis strain UTEX1435 were separately clarified (CL), refined and bleached (RB), or refined, bleached and deodorized (RBD) and were tested for sterol content according to the procedure described in JAOCS vol. 60, no.8, August 1983. Results of the analysis are shown below (units in mg/100g):

Refined,

Refined &
bleached, &

Sterol
Crude
Clarified
bleached
deodorized

1
Ergosterol
384
398
293
302

(56%)
(55%)
(50%)
(50%)

2
5,22-
14.6
18.8
14
15.2

cholestadien-
(2.1%)
(2.6%)
(2.4%)
(2.5%)

24-methyl-3-ol

(Brassicasterol)

3
24-methylcholest-
10.7
11.9
10.9
10.8

5-en-3-ol
(1.6%)
(1.6%)
(1.8%)
(1.8%)

(Campesterol

or 22,23-

dihydrobrassica-

sterol)

4
5,22-
57.7
59.2
46.8
49.9

cholestadien-
(8.4%)
(8.2%)
(7.9%)
(8.3%)

24-ethyl-3-ol

(Stigmasterol or

poriferasterol)

5
24-ethylcholest-
9.64
9.92
9.26
10.2

5-en-3-ol (β-
(1.4%)
(1.4%)
(1.6%)
(1.7%)

Sitosterol

or clionasterol)

6
Other sterols
209
221
216
213

Total sterols
685.64
718.82
589.96
601.1

These results show three striking features. First, ergosterol was found to be the most abundant of all the sterols, accounting for about 50% or more of the total sterols. The amount of ergosterol is greater than that of campesterol, β-sitosterol, and stigmasterol combined. Ergosterol is steroid commonly found in fungus and not commonly found in plants, and its presence particularly in significant amounts serves as a useful marker for non-plant oils. Secondly, the oil was found to contain brassicasterol. With the exception of rapeseed oil, brassicasterol is not commonly found in plant based oils. Thirdly, less than 2% β-sitosterol was found to be present. β-sitosterol is a prominent plant sterol not commonly found in microalgae, and its presence particularly in significant amounts serves as a useful marker for oils of plant origin. In summary, Prototheca moriformis strain UTEX1435 has been found to contain both significant amounts of ergosterol and only trace amounts of β-sitosterol as a percentage of total sterol content. Accordingly, the ratio of ergosterol: β-sitosterol or in combination with the presence of brassicasterol can be used to distinguish this oil from plant oils.

In some embodiments, the oil content of an oil provided herein contains, as a percentage of total sterols, less than 20%, 15%, 10%, 5%, 4%, 3%, 2%, or 1% β-sitosterol. In other embodiments the oil is free from β-sitosterol.

In some embodiments, the oil is free from one or more of β-sitosterol, campesterol, or stigmasterol. In some embodiments the oil is free from β-sitosterol, campesterol, and stigmasterol. In some embodiments the oil is free from campesterol. In some embodiments the oil is free from stigmasterol.

In some embodiments, the oil content of an oil provided herein comprises, as a percentage of total sterols, less than 20%, 15%, 10%, 5%, 4%, 3%, 2%, or 1% 24-ethylcholest-5-en-3-ol. In some embodiments, the 24-ethylcholest-5-en-3-ol is clionasterol. In some embodiments, the oil content of an oil provided herein comprises, as a percentage of total sterols, at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, or 10% clionasterol.

In some embodiments, the oil content of an oil provided herein contains, as a percentage of total sterols, less than 20%, 15%, 10%, 5%, 4%, 3%, 2%, or 1% 24-methylcholest-5-en-3-ol. In some embodiments, the 24-methylcholest-5-en-3-ol is 22, 23-dihydrobrassicasterol. In some embodiments, the oil content of an oil provided herein comprises, as a percentage of total sterols, at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, or 10% 22,23-dihydrobrassicasterol.

In some embodiments, the oil content of an oil provided herein contains, as a percentage of total sterols, less than 20%, 15%, 10%, 5%, 4%, 3%, 2%, or 1% 5,22-cholestadien-24-ethyl-3-ol. In some embodiments, the 5, 22-cholestadien-24-ethyl-3-ol is poriferasterol. In some embodiments, the oil content of an oil provided herein comprises, as a percentage of total sterols, at least 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, or 10% poriferasterol.

In some embodiments, the oil content of an oil provided herein contains ergosterol or brassicasterol or a combination of the two. In some embodiments, the oil content contains, as a percentage of total sterols, at least 5%, 10%, 20%, 25%, 35%, 40%, 45%, 50%, 55%, 60%, or 65% ergosterol. In some embodiments, the oil content contains, as a percentage of total sterols, at least 25% ergosterol. In some embodiments, the oil content contains, as a percentage of total sterols, at least 40% ergosterol. In some embodiments, the oil content contains, as a percentage of total sterols, at least 5%, 10%, 20%, 25%, 35%, 40%, 45%, 50%, 55%, 60%, or 65% of a combination of ergosterol and brassicasterol.

In some embodiments, the oil content contains, as a percentage of total sterols, at least 1%, 2%, 3%, 4% or 5% brassicasterol. In some embodiments, the oil content contains, as a percentage of total sterols less than 10%, 9%, 8%, 7%, 6%, or 5% brassicasterol.

In some embodiments the ratio of ergosterol to brassicasterol is at least 5:1, 10:1, 15:1, or 20:1.

In some embodiments, the oil content contains, as a percentage of total sterols, at least 5%, 10%, 20%, 25%, 35%, 40%, 45%, 50%, 55%, 60%, or 65% ergosterol and less than 20%, 15%, 10%, 5%, 4%, 3%, 2%, or 1% β-sitosterol. In some embodiments, the oil content contains, as a percentage of total sterols, at least 25% ergosterol and less than 5% β-sitosterol. In some embodiments, the oil content further comprises brassicasterol.

Sterols contain from 27 to 29 carbon atoms (C27 to C29) and are found in all eukaryotes. Animals exclusively make C27 sterols as they lack the ability to further modify the C27 sterols to produce C28 and C29 sterols. Plants however are able to synthesize C28 and C29 sterols, and C28/C29 plant sterols are often referred to as phytosterols. The sterol profile of a given plant is high in C29 sterols, and the primary sterols in plants are typically the C29 sterols b-sitosterol and stigmasterol. In contrast, the sterol profile of non-plant organisms contain greater percentages of C27 and C28 sterols. For example the sterols in fungi and in many microalgae are principally C28 sterols. The sterol profile and particularly the striking predominance of C29 sterols over C28 sterols in plants has been exploited for determining the proportion of plant and marine matter in soil samples (Huang, Wen-Yen, Meinschein W. G., “Sterols as ecological indicators”; Geochimica et Cosmochimia Acta. Vol 43. pp 739-745).

In some embodiments the primary sterols in the microalgal oils provided herein are sterols other than b-sitosterol and stigmasterol. In some embodiments of the microalgal oils, C29 sterols make up less than 50%, 40%, 30%, 20%, 10%, or 5% by weight of the total sterol content.

In some embodiments the microalgal oils provided herein contain C28 sterols in excess of C29 sterols. In some embodiments of the microalgal oils, C28 sterols make up greater than 50%, 60%, 70%, 80%, 90%, or 95% by weight of the total sterol content. In some embodiments the C28 sterol is ergosterol. In some embodiments the C28 sterol is brassicasterol.

In embodiments of the present invention, oleaginous cells expressing one or more of the genes of Table 1 can produce an oil with at least 20, 40, 60 or 70% of C8, C10, C12, C14 or C16 fatty acids. In a specific embodiment, the level of myristate (C14:0) in the oil is greater than 30%.

Thus, in embodiments of the invention, there is a process for producing an oil, triglyceride, fatty acid, or derivative of any of these, comprising transforming a cell with any of the nucleic acids discussed herein. In another embodiment, the transformed cell is cultivated to produce an oil and, optionally, the oil is extracted. Oil extracted in this way can be used to produce food, oleochemicals or other products.

The oils discussed above alone or in combination are useful in the production of foods, fuels and chemicals (including plastics, foams, films, etc). The oils, triglycerides, fatty acids from the oils may be subjected to C-H activation, hydroamino methylation, methoxy-carbonation, ozonolysis, enzymatic transformations, epoxidation, methylation, dimerization, thiolation, metathesis, hydro-alkylation, lactonization, or other chemical processes.

After extracting the oil, a residual biomass may be left, which may have use as a fuel, as an animal feed, or as an ingredient in paper, plastic, or other product. For example, residual biomass from heterotrophic algae can be used in such products.

EXAMPLE 1
Discovery of Novel FATB Sequences

Sequences of novel plant acyl-ACP thioesterases involved in seed-specific mid-chain (C8-C16) fatty acid biosynthesis in higher plants were isolated. Seed-specific lipid production genes were isolated through direct interrogation of RNA pools accumulating in oilseeds. Based on phylogenetic analysis, novel enzymes can be classified as members of FatB family of acyl-ACP thioesterases.

Seeds of oleaginous plants were obtained from local grocery stores or requested through USDA ARS National Plant Germplasm System (NPGS) from North Central Regional Plant Introduction Station (NCRIS) or USDA ARS North Central Soil Conservation Research Laboratory (Morris, MI). Dry seeds were homogenized in liquid nitrogen to powder, resuspended in cold extraction buffer containing 6-8M Urea and 3M LiCI and left on ice for a few hours to overnight at 4° C. The seed homogenate was passed through NucleoSpin Filters (Macherey-Nagel) by centrifugation at 20,000 g for 20 minutes in the refrigerated microcentrifuge (4° C.). The resulting RNA pellets were resuspended in the buffer containing 20 mM Tris HCl, pH7.5, 0.5% SDS, 100 mM NaCl, 25 mM EDTA, 2% PVPP) and RNA was subsequently extracted once with Phenol-Chloroform-Isoamyl Alcohol (25:24:1, v/v) and once with chloroform. RNA was finally precipitated with isopropyl alcohol (0.7 Vol.) in the presence of 150 mM of Na Acetate, pH51.2, washed with 80% ethanol by centrifugation, and dried. RNA samples were treated with Turbo DNAse (Lifetech) and purified further using RNeasy kits (Qiagen) following manufacturers' protocols. The resulting purified RNA samples were converted to pair-end cDNA libraries and subjected to next-generation sequencing (2×100bp) using Illumina Hiseq 2000 platform. RNA sequence reads were assembled into corresponding seed transcriptomes using Trinity or Oases packages. Putative thioesterase-containg cDNA contigs were identified by mining transcriptomes for sequences with homology to known thioesterases. These in silico identified putative thioesterase cDNAs have been further verified by direct reverse transcription PCR analysis using seed RNA and primer pairs targeting full-length thioesterase cDNAs. The resulting amplified products were cloned and sequenced de novo to confirm authenticity of identified thioesterase genes.

To interrogate evolutionary and functional relationship between novel acyl-ACP thioesterases and the members of two existing thioesterase classes (FatA and FatB), we performed a phylogenetic analysis using published full-length (Mayer and Shanklin, 2007) and truncated (THYME database) amino acid thioesterase sequences. Novel proteins appear to group with known acyl-ACP FatB thioesterases involved in biosynthesis of C8-C16 fatty acids.

Moreover, novel thioesterases appear to cluster into 3 predominant out-groups suggesting distinct functional similarity and evolutionary relatedness among members of each cluster.

10080] The amino acid sequences of the FatB genes follow are shown in Table 4.

TABLE 4

Amino acid sequences of FatB genes:

CuPSR23 FATB3
SEQ ID NO: 110

CuPSR23 FATB3b
SEQ ID NO: 111

CwFATB3
SEQ ID NO: 112

CwFATB3a
SEQ ID NO: 113

CwFATB3b
SEQ ID NO: 114

CwFATB3c
SEQ ID NO: 115

CwFATB4a
SEQ ID NO: 116

CwFATB4a.1
SEQ ID NO: 117

CwFATB4a.2
SEQ ID NO: 118

CwFATB4a.3
SEQ ID NO: 119

CwFATB4b
SEQ ID NO: 120

CwFATB4b.1
SEQ ID NO: 121

CwFATB5
SEQ ID NO: 122

CwFATB5a
SEQ ID NO: 123

CwFATB5b
SEQ ID NO: 124

CwFATB5c
SEQ ID NO: 125

CwFATB5.1
SEQ ID NO: 126

CwFATB5.1a
SEQ ID NO: 127

CcFATB2b
SEQ ID NO: 128

CcFATB3
SEQ ID NO: 129

CcFATB3b
SEQ ID NO: 130

CcFATB3c
SEQ ID NO: 131

ChtFATB1a
SEQ ID NO: 132

ChtFATB1a.1
SEQ ID NO: 133

ChtFATB1a.2
SEQ ID NO: 134

ChtFATB1a.3
SEQ ID NO: 135

ChtFATB1a.4
SEQ ID NO: 136

ChtFATB1b
SEQ ID NO: 137

ChtFATB2b
SEQ ID NO: 138

ChtFATB2a
SEQ ID NO: 139

ChtFATB2c
SEQ ID NO: 140

ChtFATB2d
SEQ ID NO: 141

ChtFATB2e
SEQ ID NO: 142

ChtFATB2f
SEQ ID NO: 143

ChtFATB2g
SEQ ID NO: 144

ChtFATB2h
SEQ ID NO: 145

ChtFATB3a
SEQ ID NO: 146

ChtFATB3b
SEQ ID NO: 147

ChtFATB3c
SEQ ID NO: 148

ChtFATB3d
SEQ ID NO: 149

ChtFATB3e
SEQ ID NO: 150

ChtFATB3f
SEQ ID NO: 151

ChtFATB3g
SEQ ID NO: 152

ChsFATB1
SEQ ID NO: 153

ChsFATB2
SEQ ID NO: 154

ChsFatB2b
SEQ ID NO: 155

ChsFatB2c
SEQ ID NO: 156

ChsFatB2d
SEQ ID NO: 157

Chs FATB3
SEQ ID NO: 158

ChsFatb3b
SEQ ID NO: 159

ChsFatB3c
SEQ ID NO: 160

ChsFATB3d
SEQ ID NO: 161

ChsFATB3e
SEQ ID NO: 162

ChsFATB3f
SEQ ID NO: 163

ChsFATB3g
SEQ ID NO: 164

ChsFATB3h
SEQ ID NO: 165

ChsFATB3i
SEQ ID NO: 166

ChsFATB3j
SEQ ID NO: 167

ChsFATB3j:

MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKA

NASARPKANGSAVSLKSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAI

TTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQDGAVFRQSFSIRSYE

IGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVT

KMHIEVNRYPTWGDTIEVNTWVSESGKTGMGRDWLISDFHTGDILIRATS

VCAMMNQKTRRFSKFPYEVRQELAPHFVDSAPVIEDYQKLHKLDVKTGDS

ICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYRQ

ECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGTDIAKGRTKWRPKNAG

KTSNGNSIS

EXAMPLE 2
Cloning and Fatty Acid Analysis of Cells Transformed with Novel FATB Genes

In the example below, we detail the effect of expressing plant oilseed transcriptome-derived, heterologous thioesterases in the UTEX1435 (web.biosci.utexas.edu/utex/) strain, Strain A.

As in Example 1, RNA was extracted from dried plant seeds and submitted for paired-end sequencing using the Illumina Hiseq 2000 platform. RNA sequence reads were assembled into corresponding seed transcriptomes using Trinity or Oases packages and putative thioesterase-containing cDNA contigs were identified by mining transcriptomes for sequences with homology to known thioesterases. These in silico identified putative thioesterase cDNAs were verified by direct reverse transcription PCR analysis using seed RNA and primer pairs targeting full-length thioesterase cDNAs. The resulting amplified products were cloned and sequenced de novo to confirm authenticity of identified thioesterase genes and to identify sequence variants arising from expression of different gene alleles or diversity of sequences within a population of seeds. The resulting amino acid sequences were subjected to phylogenetic analysis using published full-length (Mayer and Shanklin, 2007) and truncated (THYME database) FatB sequences. The thioesterases that clustered with acyl-ACP FatB thioesterases, which are involved in biosynthesis of C8-C16 fatty acids, were pursued.

Construction of Transforming Vectors Expressing Acyl-ACP FatB Thioesterases

27 putative acyl-ACP FatB thioesterases from the species Cinnamomum camphora, Cuphea hyssopifolia, Cuphea PSR23, Cuphea wrightii, Cuphea heterophylla, and Cuphea viscosissima were synthesized in a codon-optimized form to reflect Prototheca moriformis (UTEX 1435) codon usage. Of the 27 genes synthesized, 24 were identified by our transcriptome sequencing efforts and the 3 genes from Cuphea viscosissima, were from published sequences in GenBank.

Transgenic strains were generated via transformation of the base strain Strain A (Prototheca moriformis, derived from UTEX 1435 by classical mutation and screening for high oil production) with a construct encoding 1 of the 27 FatB thioesterases. The construct pSZ2760 encoding Cinnamomum camphora (Cc) FATB1b is shown as an example, but identical methods were used to generate each of the remaining 26 constructs encoding the different respective thioesterases. Construct pSZ2760 can be written as 6S::CrTUB2:ScSUC2:CvNR::PmAMT3:CcFATB1b:CvNR::6S. The sequence of the transforming DNA is provided in Table 5 (pSZ2760). The relevant restriction sites in the construct from 5′-3′, BspQ1, Kpnl, Asci, Mfel, EcoRI, Spel, Xhol, Sad, BspQ1, respectively, are indicated in lowercase, bold, and underlined. BspQ1 sites delimit the 5′ and 3′ ends of the transforming DNA. Bold, lowercase sequences at the 5′ and 3′ end of the construct represent genomic DNA from UTEX 1435 that target integration to the 6S locus via homologous recombination. Proceeding in the 5′ to 3′ direction, the selection cassette has the C. reinhardtii β-tubulin promoter driving expression of the S. cerevisiae gene SUC2 (conferring the ability to grow on sucrose) and the Chlorella vulgaris Nitrate Reductase (NR) gene 3′ UTR. The promoter is indicated by lowercase, boxed text. The initiator ATG and terminator TGA for ScSUC2 are indicated by bold, uppercase italics, while the coding region is indicated with lowercase italics. The 3′ UTR is indicated by lowercase underlined text. The spacer region between the two cassettes is indicated by upper case text. The second cassette containing the codon optimized CcFATB1b gene (Table 5; pSZ2760) from Cinnamomum camphora is driven by the Prototheca moriformis endogenous AMT3 promoter, and has the Chlorella vulgaris Nitrate Reductase (NR) gene 3′ UTR. In this cassette, the AMT3 promoter is indicated by lowercase, boxed text. The initiator ATG and terminator TGA for the CcFATB1b gene are indicated in bold, uppercase italics, while the coding region is indicated by lowercase italics and the spacer region is indicated by upper case text. The 3′ UTR is indicated by lowercase underlined text. The final construct was sequenced to ensure correct reading frame and targeting sequences.

TABLE 5

pSZ2760 Transforming construct

gctcttcgccgccgccactcctgctcgagcgcgcccgcgcgtgcgccgccagcgccttggccttttcgccgcgctcgtgcgcgtcgctgat

gtccatcaccaggtccatgaggtctgccttgcgccggctgagccactgcttcgtccgggcggccaagaggagcatgagggaggactcct

ggtccagggtcctgacgtggtcgcggctctgggagcgggccagcatcatctggctctgccgcaccgaggccgcctccaactggtcctcca

gcagccgcagtcgccgccgaccctggcagaggaagacaggtgaggggggtatgaattgtacagaacaaccacgagccttgtctaggca

gaatccctaccagtcatggctttacctggatgacggcctgcgaacagctgtccagcgaccctcgctgccgccgcttctcccgcacgcttcttt

ccagcaccgtgatggcgcgagccagcgccgcacgctggcgctgcgcttcgccgatctgaggacagtcggggaactctgatcagtctaaa

cccccttgcgcgttagtgttgccatcctttgcagaccggtgagagccgacttgttgtgcgccaccccccacaccacctcctcccagaccaatt

ctgtcacctttttggcgaaggcatcggcctcggcctgcagagaggacagcagtgcccagccgctgggggttggcggatgcacgctcaggt

embedded image

cgccaagatcagcgcctccatgacgaacgagacgtccgaccgccccctggtgcacttcacccccaacaagggctggatgaacgacc

ccaacggcctgtggtacgacgagaaggacgccaagtggcacctgtacttccagtacaacccgaacgacaccgtctgggggacgccc

ttgttctggggccacgccacgtccgacgacctgaccaactgggaggaccagcccatcgccatcgccccgaagcgcaacgactccgg

cgccttctccggctccatggtggtggactacaacaacacctccggcttcttcaacgacaccatcgacccgcgccagcgctgcgtggcca

tctggacctacaacaccccggagtccgaggagcagtacatctcctacagcctggacggcggctacaccttcaccgagtaccagaaga

accccgtgctggccgccaactccacccagttccgcgacccgaaggtcttctggtacgagccctcccagaagtggatcatgaccgcggc

caagtcccaggactacaagatcgagatctactcctccgacgacctgaagtcctggaagctggagtccgcgttcgccaacgagggcttc

ctcggctaccagtacgagtgccccggcctgatcgaggtccccaccgagcaggaccccagcaagtcctactgggtgatgttcatctccat

caaccccggcgccccggccggcggctccttcaaccagtacttcgtcggcagcttcaacggcacccacttcgaggccttcgacaaccag

tcccgcgtggtggacttcggcaaggactactacgccctgcagaccttcttcaacaccgacccgacctacgggagcgccctgggcatcg

cgtgggcctccaactgggagtactccgccttcgtgcccaccaacccctggcgctcctccatgtccctcgtgcgcaagttctccctcaaca

ccgagtaccaggccaacccggagacggagctgatcaacctgaaggccgagccgatcctgaacatcagcaacgccggcccctgga

gccggttcgccaccaacaccacgttgacgaaggccaacagctacaacgtcgacctgtccaacagcaccggcaccctggagttcgag

ctggtgtacgccgtcaacaccacccagacgatctccaagtccgtgttcgcggacctctccctctggttcaagggcctggaggaccccga

ggagtacctccgcatgggcttcgaggtgtccgcgtcctccttcttcctggaccgcgggaacagcaaggtgaagttcgtgaaggagaac

ccctacttcaccaaccgcatgagcgtgaacaaccagcccttcaagagcgagaacgacctgtcctactacaaggtgtacggcttgctgg

accagaacatcctggagctgtacttcaacgacggcgacgtcgtgtccaccaacacctacttcatgaccaccgggaacgccctgggctc

cgtgaacatgacgacgggggtggacaacctgttctacatcgacaagttccaggtgcgcgaggtcaagTGA
caattggcagcagcag

ctcggatagtatcgacacactctggacgctggtcgtgtgatggactgttgccgccacacttgctgccttgacctgtgaatatccctgccgctttt

atcaaacagcctcagtgtgtttgatcttgtgtgtacgcgcttttgcgagttgctagctgcttgtgctatttgcgaataccacccccagcatcccctt

ccctcgtttcatatcgcttgcatcccaaccgcaacttatctacgctgtcctgctatccctcagcgctgctcctgctcctgctcactgcccctcgca

cagccttggtttgggctccgcctgtattctcctggtactgcaacctgtaaaccagcactgcaatgctgatgcacgggaagtagtgggatggg

embedded image

ggcctgaagccccgctcctccgacctgcagctgcgcgccggcaacgcccagacctccctgaagatgatcaacggcaccaagttctcc

tacaccgagtccctgaagaagctgcccgactggtccatgctgttcgccgtgatcaccaccatcttctccgccgccgagaagcagtggac

caacctggagtggaagcccaagcccaaccccccccagctgctggacgaccacttcggcccccacggcctggtgttccgccgcacctt

cgccatccgctcctacgaggtgggccccgaccgctccacctccatcgtggccgtgatgaaccacctgcaggaggccgccctgaacca

cgccaagtccgtgggcatcctgggcgacggcttcggcaccaccctggagatgtccaagcgcgacctgatctgggtggtgaagcgcac

ccacgtggccgtggagcgctaccccgcctggggcgacaccgtggaggtggagtgctgggtgggcgcctccggcaacaacggccgc

cgccacgacttcctggtgcgcgactgcaagaccggcgagatcctgacccgctgcacctccctgtccgtgatgatgaacacccgcaccc

gccgcctgtccaagatccccgaggaggtgcgcggcgagatcggccccgccttcatcgacaacgtggccgtgaaggacgaggagatc

aagaagccccagaagctgaacgactccaccgccgactacatccagggcggcctgaccccccgctggaacgacctggacatcaacc

agcacgtgaacaacatcaagtacgtggactggatcctggagaccgtgcccgactccatcttcgagtcccaccacatctcctccttcacc

atcgagtaccgccgcgagtgcacccgcgactccgtgctgcagtccctgaccaccgtgtccggcggctcctccgaggccggcctggtgt

gcgagcacctgctgcagctggagggcggctccgaggtgctgcgcgccaagaccgagtggcgccccaagctgtccttccgcggcatct

ccgtgatccccgccgagtcctccgtgatggactacaaggaccacgacggcgactacaaggaccacgacatcgactacaaggacga

cgacgacaagTGActcgaggcagcagcagctcggatagtatcgacacactctggacgctggtcgtgtgatggactgttgccgccacac

ttgctgccttgacctgtgaatatccctgccgcttttatcaaacagcctcagtgtgtttgatcttgtgtgtacgcgcttttgcgagttgctagctgctt

gtgctatttgcgaataccacccccagcatccccttccctcgtttcatatcgcttgcatcccaaccgcaacttatctacgctgtcctgctatccctc

agcgctgctcctgctcctgctcactgcccctcgcacagccttggtttgggctccgcctgtattctcctggtactgcaacctgtaaaccagcact

gcaatgctgatgcacgggaagtagtgggatgggaacacaaatggaAAGCTGTATAGGGATAACAGGGTAATga

gctcttgttttccagaaggagttgctccttgagcctttcattctcagcctcgataacctccaaagccgctctaattgtggagggggttcgaattta

aaagcttggaatgttggttcgtgcgtctggaacaagcccagacttgttgctcactgggaaaaggaccatcagctccaaaaaacttgccgctc

aaaccgcgtacctctgctttcgcgcaatctgccctgttgaaatcgccaccacattcatattgtgacgcttgagcagtctgtaattgcctcagaat

gtggaatcatctgccccctgtgcgagcccatgccaggcatgtcgcgggcgaggacacccgccactcgtacagcagaccattatgctacct

cacaatagttcataacagtgaccatatttctcgaagctccccaacgagcacctccatgctctgagtggccaccccccggccctggtgcttgc

ggagggcaggtcaaccggcatggggctaccgaaatccccgaccggatcccaccacccccgcgatgggaagaatctctccccgggatgt

gggcccaccaccagcacaacctgctggcccaggcgagcgtcaaaccataccacacaaatatccttggcatcggccctgaattccttctgcc

gctctgctacccggtgcttctgtccgaagcaggggttgctagggatcgctccgagtccgcaaacccttgtcgcgtggcggggcttgttcgag

cttgaagagc

Constructs encoding the identified heterologous FatB genes, such as CcFATB1b from pSZ2760 in Table 6, were transformed into Strain A, and selected for the ability to grow on sucrose. Transformations, cell culture, lipid production and fatty acid analysis were all carried out as previously described. After cultivating on sucrose under low nitrogen conditions to accumulate oil, fatty acid profiles were determined by FAME-GC. The top performer from each transformation, as judged by the ability to produce the highest level of midchain fatty acids, is shown in Table 4

TABLE 6

Alteration of Fatty Acid Profiles in S3150 upon Expression

of Heterologous FatB Thioesterases

FA profile of top performer

from each transformation

(%; primary lipid in Strain A background)

Species
Gene Name
SZ Plasmid
Strain
C8:0
C10:0
C12:0

Cinnamomum camphora

CcFATB1b
pSZ2760
A; T526; D1670-13
0
0
1

Cinnamomum camphora

CcFATB4
pSZ2756
A; T525; D1666-31
0
1
33

Cinnomomum camphora

CcFATB3
pSZ2755
A; T525; D1665-4
0
0
0

Cuphea hyssopifolia

ChsFATB1
pSZ2778
A; T535; D1689-30
0
0
0

Cuphea hyssopifolia

ChsFATB2
pSZ2796
A; T537; D1700-46
0
0
0

Cuphea hyssopifolia

ChsFATB2b
pSZ2792
A; T537; D1696-9
0
0
0

Cuphea hyssopifolia

ChsFATB3
pSZ2797
A; T537; D1701-48
0
0
8

Cuphea hyssopifolia

ChsFATB3b
pSZ2795
A; T537; D1699-1
0
0
7

Cuphea PSR23
CuPSR23FATB3
pSZ2793
A; T537; D1697-13
0
1
0

Cuphea wrightii

CwFATB3
pSZ2751
A; T525; D1661-22
0
2
17

Cuphea wrightii

CwFATB4a
pSZ2752
A; T525; D1662-30
0
0
0

Cuphea wrightii

CwFATB4b
pSZ2753
A; T525; D1663-29
0
0
0

Cuphea wrightii

CwFATB5
pSZ2754
A; T525; D1664-39
0
0
0

Cuphea heterophylla

ChtFATB1a
pSZ2757
A; T525; D1667-19
0
0
5

Cuphea heterophylla

ChtFATB1b
pSZ2773
A; T535; D1685-29
0
0
2

Cuphea heterophylla

ChtFATB2b
pSZ2780
A; T535; D1691-8
0
0
0

Cuphea heterophylla

ChtFATB2a
pSZ2774
A; T537; D1702-24
0
0
0

Cuphea heterophylla

ChtFATB2c
pSZ2758
A; T525; D1668-22
0
0
3

Cuphea heterophylla

ChtFATB2d
pSZ2759
A; T526; D1669-19
0
0
4

Cuphea heterophylla

ChtFATB2e
pSZ2775
A; T535; D1686-23
0
1
2

Cuphea heterophylla

ChtFATB2f
pSZ2777
A; T535; D1688-33
0
0
0

Cuphea heterophylla

ChtFATB2g
pSZ2794
A; T537; D1698-19
0
0
0

Cuphea heterophylla

ChtFATB3a
pSZ2776
A; T535; D1687-23
0
0
0

Cuphea heterophylla

ChtFATB3b
pSZ2779
A; T535; D1690-31
0
0
0

Cuphea viscosissima

CvisFATB1
pSZ2810
A; T540; D1711-30
0
1
0

Cuphea viscosissima

CvisFATB2
pSZ2817
A; T547; D1718-1
0
0
0

Cuphea viscosissima

CvisFATB3
pSZ2791
A; T537; D1695-1
0
0
0

A (parent strain):
0
0
0

FA profile of top performer

from each transformation

(%; primary lipid in Strain A background)

Species
Gene Name
C14:0
C16:0
C18:0
C18:1
C18:2
C18:3α

Cinnamomum camphora

CcFATB1b
15
26
2
46
9
1

Cinnamomum camphora

CcFATB4
4
7
2
41
10
1

Cinnomomum camphora

CcFATB3
3
44
3
41
8
0

Cuphea hyssopifolia

ChsFATB1
2
22
4
63
8
1

Cuphea hyssopifolia

ChsFATB2
6
53
3
32
6
0

Cuphea hyssopifolia

ChsFATB2b
5
26
2
56
9
1

Cuphea hyssopifolia

ChsFATB3
34
27
2
24
5
1

Cuphea hyssopifolia

ChsFATB3b
29
27
1
28
6
1

Cuphea PSR23
CuPSR23FATB3
2
24
3
61
8
1

Cuphea wrightii

CwFATB3
9
19
2
41
8
1

Cuphea wrightii

CwFATB4a
4
48
3
36
7
1

Cuphea wrightii

CwFATB4b
5
52
3
32
6
1

Cuphea wrightii

CwFATB5
3
27
3
57
7
1

Cuphea heterophylla

ChtFATB1a
18
27
2
39
7
1

Cuphea heterophylla

ChtFATB1b
7
27
3
53
8
1

Cuphea heterophylla

ChtFATB2b
2
25
3
61
8
1

Cuphea heterophylla

ChtFATB2a
2
27
3
59
6
0

Cuphea heterophylla

ChtFATB2c
2
23
3
58
7
1

Cuphea heterophylla

ChtFATB2d
4
23
3
54
9
1

Cuphea heterophylla

ChtFATB2e
3
24
3
57
8
1

Cuphea heterophylla

ChtFATB2f
2
28
3
57
8
1

Cuphea heterophylla

ChtFATB2g
2
22
3
62
9
1

Cuphea heterophylla

ChtFATB3a
5
47
4
37
7
1

Cuphea heterophylla

ChtFATB3b
6
49
5
32
7
0

Cuphea viscosissima

CvisFATB1
2
24
3
60
8
0

Cuphea viscosissima

CvisFATB2
4
51
2
36
6
0

Cuphea viscosissima

CvisFATB3
8
28
2
52
8
1

2
28
3
58
7
0

Many of the acyl-ACP FatB thioesterases were found to exhibit midchain activity when expressed in Prototheca moriformis. For example, expression of CcFATB1b causes an increase in myristate levels from 2% of total fatty acids in the parent, Strain A, to ˜15% in the DI670-13 primary transformant. Other examples include CcFATB4, which exhibits an increase in laurate levels from 0% in Strain A to ˜33%, and ChsFATB3, which exhibits an increase in myristate levels to ˜34%. Although some of the acyl-ACP thioesterases did not exhibit dramatic effects on midchain levels in the current incarnation, efforts will likely develop to optimize some of these constructs.

Sequences of the Heterologous Acyl-ACP Thioesterases Identified and Transformed into P. moriformis (UTEX 1435)

A complete listing of relevant sequences for the transforming constructs, such as the deduced amino acid sequence of the encoded acyl-ACP thioesterase, the native CDS coding sequence, the Prototheca moriformis codon-optimized coding sequence, and the nature of the sequence variants examined, is provided as SEQ ID NOS: 1-78.

EXAMPLE 3
Discovery and Cloning of Additional FATB genes

Additional FATB genes were obtained from seeds as described above. The species and number of FatB genes identified were:

Novel FatB

Accession
Thioesterase

Species
Number
Genes

Cuphea calcarata

534665
1

Cuphea painteri

288248
1

Cuphea hookeriana

534896
1

Cuphea avigera var.
Ames 17868
1

pulcherrima

Cuphea paucipetala

534877
1

Cuphea procumbens

534881
3

Cuphea ignea

534773
1

The thioesterases that clustered with acyl-ACP FatB thioesterases, which are involved in biosynthesis of C8-C16 fatty acids, were pursued. The native, putative plastid-targeting transit peptide sequence is indicated by underlining.

Construction of Transforming Vectors Expressing Acyl-ACP FatB Thioesterases. The nine putative Acyl-ACP FatB Thioesterases from the species Cuphea calcarata, Cuphea painter, Cuphea hookeriana, Cuphea avigera var. pulcherrima, Cuphea paucipetala, Cuphea procumbens, and Cuphea ignea were synthesized in a codon-optimized form to reflect UTEX 1435 codon usage. In contrast to the previous example, the new Acyl-ACP FatB thioesterases were synthesized with a modified transit peptide from Chlorella protothecoides (Cp) in place of the native transit peptide. The modified transit peptide derived from the CpSAD1 gene,

“CpSAD1tp_trimmed”, was synthesized as an in-frame, N-terminal fusion to the FatB acyl-ACP thioesterases in place of the native transit peptide; the resulting sequences are listed below. The novel FatB genes were cloned into Prototheca moriformis as described above. Constructs encoding heterologous FatB genes were transformed into strain S6165 (a descendant of S3150/Strain A) and selected for the ability to grow on sucrose. Transformations, cell culture, lipid production and fatty acid analysis were all carried out as previously described. The results for the nine novel FatB acyl-ACP thioesterases are displayed in the table immediately below.

FA profile of top performer from each transformation (%; primary lipid)

Species
Gene Name
SZ Plasmid
Strain
C8:0
C30:0
C12:0
C14:0
C16:0
C18:0
C18:1
C18:2
C18:3α

Cuphea colcarata

CcalcFATB1
pSZ3764
S6165; T778;
0
1
12
18
29
2
29
5
1

D2508-26

Cuphea painteri

CpaiFATB1
pSZ3838
S6165; T841;
8
17
1
2
18
2
43
6
1

D2796-22

Cuphea

ChookFATB4
pSZ3837
S6165; T788;
0
9
0
2
32
2
54
7
1

hookeriana

D2552-18

Cuphea ovigera

CaFATB1
pSZ4084
S6165; T841;
22
9
0
2
15
2
42
6
1

var. pulcherrima

D2800-7

Cuphea

CpauFATB1
pSZ3762
S6165; T778;
0
9
1
3
28
2
47
7
1

paucipetala

D2506-46

Cuphea

CprocFATB1
pSZ3929
S6165; T814;
0
5
1
3
30
2
50
7
1

procumbens

D2675-3

Cuphea

CprocFATB2
pSZ3839
S6165; T788;
0
9
0
2
32
3
55
6
1

procumbens

D2553-2

Cuphea

CprocFATB3
pSZ3763
S6165; T778;
0
3
1
2
28
3
54
6
1

procumbens

D2507-29

Cuphea ignea

CigneaFATB1
pSZ3930
S6165; T814;
0
3
1
4
24
2
51
8
1

D2676-34

S6165 (parent
0
0
0
2
29
3
58
6
1

strain):

Of particular note are: CpaiFATB1, which exhibits 17% C10:0 and 8% C8:0 fatty acid levels; CpauFATB1, which exhibits 9% C10:0 and 1% C12:0 fatty acid levels; CigneaFATB1, which exhibits 8% C10:0 and 1% C12:0 fatty acid levels; CcalcFATB1, which exhibits 18% C14:0 and 12% C12:0 levels; and CaFATB1, which exhibits 22% C8:0 and 9% C10:0 fatty acid levels.

CaFATB1, which exhibits high C8:0 and C10:0 levels, is of particular interest. CaFATBI arose from two separate contigs that were assembled from the Cupha avigera var. pulcherrima transcriptome, S17_Cavig_trinity_7406 and S17_Cavig_trinity_7407. Although the two partial contigs exhibit only 17 nucleotides of overlap, we were able to assemble a putative full length transcript encoding CaFATB1 from the two contigs and then subsequently confirm the existence of the full-length transcript by direct reverse transcription PCR analysis using seed RNA and primer pairs targeting the full-length CaFATB1 thioesterase cDNA. Tjellstrom et al. (2013) discloses the expression of a newly identified fatty acyl-ACP thioesterase from Cuphea pulcherrima that they named “CpuFATB3” (Genbank accession number KC675178). The coding sequence of CpuFATB3 is 100% identical to the CaFATB1 gene we identified and contains one nucleotide difference in the RNA sequence outside the predicted coding region. Tjellstrom et al. (2013) showed that CpuFATB3 produces an average of 4.8% C8:0 when expressed in Arabidopsis, and further requires deletion of two acyl-ACP synthetases, AAE15/16, to produce an average of 9.2% C8:0 with a maximum level of ˜12% C8.0. The CaFATB1 gene we identified was codon-optimized for expression in UTEX1435 and generated as a CpSAD1tp-trimmed transit peptide fusion before introduction into 56165. The CpSAD1tp_trimmed:CaFATB1 gene produces an average C8:0 level of 14% and a maximum level of 22% C8:0 without requiring the deletion of endogenous acyl-ACP synthetases.

TABLE 7

Amino Acid Sequences of Additional Novel FatB

Acyl-ACP Thioesterases. In the appended sequence

listings, the native, putative plastid-targeting

transit peptide sequence is underlined:

FatB
Sequence ID NO:

CcalcFATB1 (Cuphea calcarata FATB1)
SEQ ID NO: 168

ChookFATB4 (Cuphea hookeriana FATB4)
SEQ ID NO: 169

CaFATB1 (Cuphea avigera var. pulcherrima FATB1)
SEQ ID NO: 170

CpauFATB1 (Cuphea paucipetala FATB1)
SEQ ID NO: 171

CprocFATBl (Cuphea procumbens FATB1)

SEQ ID NO: 172

CprocFATB2 (Cuphea procumbens FATB2)

SEQ ID NO: 173

CprocFATB3 (Cuphea procumbens FATB3)

SEQ ID NO: 174

CigneaFATB1 (Cuphea ignea FATB1)

SEQ ID NO: 175

CcalcFATB1 (Cuphea calcarata FATB1)

SEQ ID NO: 176

ChookFATB4 (Cuphea hookeriana FATB4)

SEQ ID NO: 177

CaFATB1 (Cuphea avigera var. pulcherrima FATB1)

SEQ ID NO: 178

CpauFATB1 (Cuphea paucipetala FATB1)

SEQ ID NO: 179

CprocFATB1 (Cuphea procumbens FATB1)

SEQ ID NO: 180

CprocFATB2 (Cuphea procumbens FATB2)

SEQ ID NO: 181

CprocFATB3 (Cuphea procumbens FATB3)

SEQ ID NO: 182

CigneaFATB1 (Cuphea ignea FATB1)

SEQ ID NO: 183

EXAMPLE 4
FATB Consensus Sequences: Discovery, Cloning and Fatty Acid Profiles

In the course of testing several new putative midchain FatB thioesterases in UTEX1435, S3150 (Strain A above), we identified several thioesterases with increased C10:0 and C16:0 activity above the background midchain levels found in the strain. We reasoned that a consensus sequence could be obtained for an idealized C10:0 thioesterase and C16:0 thioesterase from aligning the best-performing C10:0 and C16:0 thioesterases. A consensus C10:0 specific thioesterase sequence was generated using the C. palustris FatB1 (CpFATB1), C. PSR23 FatB3 (CuPSR23FATB3), C. viscosissima FatB1 (CvisFATB1), C. glossostoma FatB1 (CgFATB1), and C. carthagenensis FatB2 (CcrFATB2) sequences as inputs resulting in a C10:0 specific consensus sequence termed JcFATB1/SzFATB1. A consensus C16:0 specific thioesterase sequence was generated using the C. heterophylla FatB3a (ChtFATB3a), C. carthagenensis FatB1 (CcrFATB1), C. viscosissima FatB2 (CvisFATB2), C. hookeriana FatB1 (ChFATB1; AAC48990), C. hyssopifolia FatB2 (ChsFATB2), C. calophylla FatB2 (CcalFATB2; ABB71581), C. hookeriana FatB1-1 (ChFATB1-1; AAC72882), C. lanceolata FatB1 (CIFATB1; CAC19933), and C. wrightii FatB4a (CwFATB4a) sequences as inputs resulting in a C16:0 specific consensus sequence termed JcFATB2/SzFATB2. The resulting consensus sequences were synthesized, cloned into a vector identical to that used to test other FatB thioesterases, and introduced into 53150 as described above. The consensus amino acid sequences are given as SEQ ID NOs. 106 and 107; the nucleic acid sequences were based on these amino acid sequences using codon optimization for Prototheca moriformis. The transformants were selected, cultivated and the oil was extracted and analyzed by FAME-GC-FID. The fatty acid profiles obtained are given in the table below.

FA profile of top performer from each transformation (%;

Gene
SZ
primary lipid)

Species
Name
Plasmid
Strain
C8:0
C10:0
C12:0
C14:0
C16:0
C18:0
C18:1
C18:2
C18:3α

Consensus
JcFATB1
pSZ3187
S3150; T617;
0
2
0
2
26
3
57
8
1

Sequence 1

D1930-18

Consensus
JcFATB2
pSZ3100
S3150; 1600;
0
0
0
6
54
3
29
6
0

Sequence 2

D1872-17

S3150
0
0
0
2
28
3
58
7
0

(parent

strain):

EXAMPLE 5
Clade Analysis

Various novel FATB thioesterases were clustered according to a neighbor joining algorithm. These were found to form twelve clades as listed in Table 1a. Putative function was assigned based on expression in Prototheca as described above.

The described embodiments of the invention are intended to be merely exemplary and numerous variations and modifications will be apparent to those skilled in the art. All such variations and modifications are intended to be within the scope of the present invention.

Sequence Listing

SEQ ID NO 1:

Cinnamomum camphora (Cc) FATB1b variant M25L, M322R, ΔT367-D368 amino

acid sequence

MATTSLASAFCSMKAVMLARDGRGLKPRSSDLQLRAGNAQTSLKMINGTKFSYTESLKKLPDWSMLFAVI

TTIFSAAEKQWTNLEWKPKPNPPQLLDDHFGPHGLVFRRTFAIRSYEVGPDRSTSIVAVMNHLQEAALNHA

KSVGILGDGFGTTLEMSKRDLIWVVKRTHVAVERYPAWGDTVEVECWVGASGNNGRRHDFLVRDCKTG

EILTRCTSLSVMMNTRTRRLSKIPEEVRGEIGPAFIDNVAVKDEEIKKPQKLNDSTADYIQGGLTPRWNDLDI

NQHVNNIKYVDWILETVPDSIFESHHISSFTIEYRRECTRDSVLQSLITVSGGSSEAGLVCEHLLQLEGGSEV

LRAKTEWRPKLSFRGISVIPAESSV*

SEQ ID NO 2:

Cinnamomum camphora (Cc) FATB1b variant M25L, M322R, ΔT367-D368 coding

DNA sequence

TTAGCTTCTGCTTTCTGCTCGATGAAAGCTGTAATGTTGGCTCGTGATGGCAGGGGCTTGAAACCCAGG

AGCAGTGATTTGCAGCTGAGGGCGGGAAATGCACAAACCTCTTTGAAGATGATCAATGGGACCAAGTT

CAGTTACACAGAGAGCTTGAAAAAGTTGCCTGACTGGAGCATGCTCTTTGCAGTGATCACGACCATCT

TTTCGGCTGCTGAGAAGCAGTGGACCAATCTAGAGTGGAAGCCGAAGCCGAATCCACCCCAGTTGCTT

GATGACCATTTTGGGCCGCATGGGTTAGTTTTCAGGCGCACCTTTGCCATCAGATCGTATGAGGTGGG

ACCTGACCGCTCCACATCTATAGTGGCTGTTATGAATCACTTGCAGGAGGCTGCACTTAATCATGCGA

AGAGTGTGGGAATTCTAGGAGATGGATTCGGTACGACGCTAGAGATGAGTAAGAGAGATCTGATATG

GGTTGTGAAACGCACGCATGTTGCTGTGGAACGGTACCCTGCTTGGGGTGATACTGTTGAAGTAGAGT

GCTGGGTTGGTGCATCGGGAAATAATGGCAGGCGCCATGATTTCCTTGTCCGGGACTGCAAAACAGGC

GAAATTCTTACAAGATGTACCAGTCTTTCGGTGATGATGAATACAAGGACAAGGAGGTTGTCCAAAAT

CCCTGAAGAAGTTAGAGGGGAGATAGGGCCTGCATTCATTGATAATGTGGCTGTCAAGGACGAGGAA

ATTAAGAAACCACAGAAGCTCAATGACAGCACTGCAGATTACATCCAAGGAGGATTGACTCCTCGATG

GAATGATTTGGATATCAATCAGCACGTTAACAACATCAAATACGTTGACTGGATTCTTGAGACTGTCC

CAGACTCAATCTTTGAGAGTCATCATATTTCCAGCTTCACTATTGAATACAGGAGAGAGTGCACGAGG

GATAGCGTGCTGCAGTCCCTGACCACTGTCTCCGGTGGCTCGTCGGAAGCTGGGTTAGTGTGCGAGCA

CTTGCTCCAGCTTGAAGGTGGGTCTGAGGTATTGAGGGCAAAAACAGAGTGGAGGCCTAAGCTTAGTT

TCAGAGGGATTAGTGTGATACCCGCAGAATCGAGTGTCTAA

SEQ ID NO 3:

Cinnamomum camphora (Cc) FATB1b variant M25L, M322R, ΔT367-D368 coding

DNA sequence codon optimized for Prototheca moriformis

TTAGCTTCTGCTTTCTGCTCGATGAAAGCTGTAATGTTGGCTCGTGATGGCAGGGGCTTGAAACCCAGG

AGCAGTGATTTGCAGCTGAGGGCGGGAAATGCACAAACCTCTTTGAAGATGATCAATGGGACCAAGTT

CAGTTACACAGAGAGCTTGAAAAAGTTGCCTGACTGGAGCATGCTCTTTGCAGTGATCACGACCATCT

TTTCGGCTGCTGAGAAGCAGTGGACCAATCTAGAGTGGAAGCCGAAGCCGAATCCACCCCAGTTGCTT

GATGACCATTTTGGGCCGCATGGGTTAGTTTTCAGGCGCACCTTTGCCATCAGATCGTATGAGGTGGG

ACCTGACCGCTCCACATCTATAGTGGCTGTTATGAATCACTTGCAGGAGGCTGCACTTAATCATGCGA

AGAGTGTGGGAATTCTAGGAGATGGATTCGGTACGACGCTAGAGATGAGTAAGAGAGATCTGATATG

GGTTGTGAAACGCACGCATGTTGCTGTGGAACGGTACCCTGCTTGGGGTGATACTGTTGAAGTAGAGT

GCTGGGTTGGTGCATCGGGAAATAATGGCAGGCGCCATGATTTCCTTGTCCGGGACTGCAAAACAGGC

GAAATTCTTACAAGATGTACCAGTCTTTCGGTGATGATGAATACAAGGACAAGGAGGTTGTCCAAAAT

CCCTGAAGAAGTTAGAGGGGAGATAGGGCCTGCATTCATTGATAATGTGGCTGTCAAGGACGAGGAA

ATTAAGAAACCACAGAAGCTCAATGACAGCACTGCAGATTACATCCAAGGAGGATTGACTCCTCGATG

GAATGATTTGGATATCAATCAGCACGTTAACAACATCAAATACGTTGACTGGATTCTTGAGACTGTCC

CAGACTCAATCTTTGAGAGTCATCATATTTCCAGCTTCACTATTGAATACAGGAGAGAGTGCACGAGG

GATAGCGTGCTGCAGTCCCTGACCACTGTCTCCGGTGGCTCGTCGGAAGCTGGGTTAGTGTGCGAGCA

CTTGCTCCAGCTTGAAGGTGGGTCTGAGGTATTGAGGGCAAAAACAGAGTGGAGGCCTAAGCTTAGTT

TCAGAGGGATTAGTGTGATACCCGCAGAATCGAGTGTCTAA

SEQ ID NO:4

Cinnamomum camphora (Cc) FATB4 amino acid sequence

MVITSLASAYFSMKAVMLAPDGRG1KPRSSGLQVRAGNERNSCKVINGTKVKDTEGLKGCSTLQGQSML

DDHFGLHGLVFRRTFAIRCYEVGPDRSTSIMAVMNHLQEAARNHAESLGLLGDGFGETLEMSKRDLIWVV

RRTHVAVERYPAWGDTVEVEAWVGASGNTGMRRDFLVRDCKTGHILTRCTSVSVMMNMRTRRLSKIPQE

VRAEIDPLFIEKVAVKEGEIKKLQKLNDSTADYIQGGWTPRWNDLDVNQHVNNIIYVGWIFKSVPDSISENH

HLSSITLEYRRECTRGNKLQSLTTVCGGSSEAGIICEHLLQLEDGSEVLRARTEWRPKHTDSFQGISERFPQQ

EPHK

SEQ ID NO: 5

Cinnamomum camphora (Cc) FATB4 coding DNA sequence

ATGGTCACCACCTCTTTAGCTTCCGCTTACTTCTCGATGAAAGCTGTAATGTTGGCTCCTGACGGCAGG

GGCATAAAGCCCAGGAGCAGTGGT'TTGCAGGTGAGGGCGGGAAATGAACGAAACTCTTGCAAGGTGA

TCAATGGGACCAAGGTCAAAGACACGGAGGGCTTGAAAGGGTGCAGCACGTTGCAAGGCCAGAGCAT

GCTTGATGACCATTTTGGTCTGCATGGGCTAGTTTTCAGGCGCACCTTTGCAATCAGATGCTATGAGGT

TGGACCTGACCGCTCCACATCCATAATGGCTGTTATGAATCACTTGCAGGAAGCTGCACGTAATCATG

CGGAGAGTCTGGGACTTCTAGGAGATGGATTCGGTGAGACACTGGAGATGAGTAAGAGAGATCTGAT

ATGGGTTGTGAGACGCACGCATGTTGCTGTGGAACGGTACCCTGCTTGGGGCGATACTGTTGAAGTCG

AGGCCTGGGTGGGTGCATCAGGTAACACTGGCATGCGCCGCGATTTCCTTGTCCGCGACTGCAAAACT

GGCCACATTCTTACAAGATGTACCAGTGTTTCAGTGATGATGAATATGAGGACAAGGAGATTGTCCAA

AATTCCCCAAGAAG'TTAGAGCGGAGATTGACCCTCTTTTCATTGAAAAGGTTGCTGTCAAGGAAGGGG

AAATTAAAAAATTACAGAAGTTGAATGATAGCACTGCAGATTACATTCAAGGGGGTTGGACTCCTCGA

TGGAATGATTTGGATGTCAATCAGCACGTGAACAATATCATATACGTTGGCTGGATTTTTAAGAGCGT

CCCAGACTCTATCTCTGAGAATCATCATCMCTAGCATCACTCTCGAATACAGGAGAGAGTGCACAA

GGGGCAACAAGCTGCAGTCCCTGACCACTGTTTGTGGTGGCTCGTCGGAAGCTGGGATCATATGTGAG

CACCTACTCCAGCTTGAGGATGGGTCTGAGGTTTTGAGGGCAAGAACAGAGTGGAGGCCCAAGCACA

CCGATAGTTTCCAAGGCATTAGTGAGAGATTCCCGCAGCAAGAACCGCATAAGTAA

SEQ ID NO: 6

Cinnamomum camphora (Cc) FATB4 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGACCACCTCCCtGGCCTCCGCCTACTTCTCCATGAAGGCCGTGATGCTGGCCCCCGACGGCCGC

GGCATCAAGCCCCGCTCCTCCGGCCTGCAGGTGCGCGCCGGCAACGAGCGCAACTCCTGCAAGGTGAT

CAACGGCACCAAGGTGAAGGACACCGAGGGCCTGAAGGGCTGCTCCACCCTGCAGGGCCAGTCCATG

CTGGACGACCACTTCGGCCTGCACGGCCTGGTGTTCCGCCGCACCTTCGCCATCCGCTGCTACGAGGTG

GGCCCCGACCGCTCCACCTCCATCATGGCCGTGATGAACCACCTGCAGGAGGCCGCCCGCAACCACGC

CGAGTCCCTGGGCCTGCTGGGCGACGGCTTCGGCGAGACCCTGGAGATGTCCAAGCGCGACCTGATCT

GGGTGGTGCGCCGCACCCACGTGGCCGTGGAGCGCTACCCCGCCTGGGGCGACACCGTGGAGGTGGA

GGCCTGGGTGGGCGCCTCCGGCAACACCGGCATGCGCCGCGACTTCCTGGTGCGCGACTGCAAGACCG

GCCACATCCTGACCCGCTGCACCTCCGTGTCCGTGATGATGAACATGCGCACCCGCCGCCTGTCCAAG

ATCCCCCAGGAGGTGCGCGCCGAGATCGACCCCCTGTTCATCGAGAAGGTGGCCGTGAAGGAGGGCG

AGATCAAGAAGCTGCAGAAGCTGAACGACTCCACCGCCGACTACATCCAGGGCGGCTGGACCCCCCG

CTGGAACGACCTGGACGTGAACCAGCACGTGAACAACATCATCTACGTGGGCTGGATCTTCAAGTCCG

TGCCCGACTCCATCTCCGAGAACCACCACCTGTCCTCCATCACCCTGGAGTACCGCCGCGAGTGCACC

CGCGGCAACAAGCTGCAGTCCCTGACCACCGTGTGCGGCGGCTCCTCCGAGGCCGGCATCATCTGCGA

GCACCTGCTGCAGCTGGAGGACGGCTCCGAGGTGCTGCGCGCCCGCACCGAGTGGCGCCCCAAGCAC

ACCGACTCCTTCCAGGGCATCTCCGAGCGCTTCCCCCAGCAGGAGCCCCACAAGTGA

SEQ ID NO: 7

Cinnamomum camphora (Cc) FATB3 amino acid sequence

MVATAAASAFFPVGAPATSSATSAKASMMPDNLDARGIKPKPASSSGLQVKANAHASPKINGSKVSTDTL

KGEDTLTSSPAPRTFINQLPDWSMFLAAITTIFLAAEKQWTNLDWKPRRPDMLADPFGIGRFMQDGLIFRQH

FAIRSYEIGADRTASIETLMNHLQETALNHVRSAGLLGDGFGATPEMSRRDLIWVVTRMQVLVDRYPAWG

DIVEVETWVGASGKNGMRRDWLVRDSQTGEILTRATSVWVMNINKRTRRLSKLPEEVRGEIGPYFIEDVAII

EEDNRKLQKLNENTADNVRRGLTPRWSDLDVNQHVNNVKYIGWILESAPGSILESHELSCMTLEYRRECG

KDSVLQSMTAVSGGGSAAGGSPESSVECDHLLQLESGPEVVRGRTEWRPKSANNSRSILEMPAESL

SEQ ID NO: 8

Cinnamomum camphora (Cc) FATB3 coding DNA sequence

ATGGTTGCCACCGCTGCTGCTTCTGCTTTCTTCCCGGTCGGTGCTCCGGCTACGTCATCTGCAACTTCAG

CCAAAGCGTCGATGATGCCTGATAATTTGGATGCCAGAGGCATCAAACCGAAGCCGGCTTCGTCCAGC

GGCTTGCAGGTTAAGGCAAATGCCCATGCCTCTCCCAAGATTAATGGTTCCAAGGTGAGCACGGATAC

CTTGAAGGGGGAAGACACCTTAACTTCCTCGCCCGCCCCACGGACCTTTATCAACCAATTGCCTGACT

GGAGCATGTTCCTTGCTGCCATCACAACTATTTTCTTGGCTGCCGAGAAGCAGTGGACGAATCTCGACT

GGAAGCCCAGAAGACCCGACATGCTTGCTGACCCGTTTGGCATCGGGAGGTTTATGCAGGATGGGCTG

ATTTTCAGGCAGCACTTTGCAATCAGATCTTATGAGATTGGGGCTGATAGAACGGCGTCTATAGAGAC

TTTAATGAATCACTTGCAGGAGACTGCACTTAATCATGTGAGGAGTGCTGGACTCCTAGGTGATGGAT

TTGGTGCGACACCTGAGATGAGTAGAAGAGATCTGATATGGGTTGTAACACGTATGCAGGTTCTTGTG

GACCGCTACCCTGCTTGGGGTGATATTGTTGAAGTAGAGACCTGGGTTGGTGCATCTGGAAAAAATGG

TATGCGCCGTGATTGGCTTGTTCGGGACAGCCAAACTGGTGAAATTCTCACACGAGCTACCAGTGTTT

GGGTGATGATGAATAAACGGACAAGGCGATTGTCCAAACTTCCTGAAGAAGTTAGAGGGGAAATAGG

GCCTTATTTTATAGAAGATGTTGCTATCATAGAGGAGGACAACAGGAAACTACAGAAGCTCAATGAAA

ACACTGCTGATAATGTTCGAAGGGGTTTGACTCCTCGCTGGAGTGATCTGGATGTTAATCAGCATGTG

AACAATGTCAAATACATTGG'TTGGATTCTTGAGAGTGCACCAGGATCCATCTTGGAGAGTCATGAGCT

TTCCTGCATGACCCTTGAATACAGGAGAGAATGTGGGAAGGACAGTGTGCTGCAGTCAATGACTGCTG

TCTCTGGTGGAGGCAGTGCAGCAGGTGGCTCACCAGAATCTAGCGTTGAGTGTGACCACTTGCTCCAG

CTAGAGAGTGGGCCTGAAGTTGTGAGGGGAAGAACCGAGTGGAGGCCCAAGAGTGCTAATAACTCGA

GGAGCATCCTGGAGATGCCGGCCGAGAGC

SEQ ID NO: 9

Cinnamomum camphora (Cc) FATB4 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCACCGCCGCCGCCTCCGCCTTCTTCCCCGTGGGCGCCCCCGCCACCTCCTCCGCCACCTCC

GCCAAGGCCTCCATGATGCCCGACAACCTGGACGCCCGCGGCATCAAGCCCAAGCCCGCCTCCTCCTC

CGGCCTGCAGGTGAAGGCCAACGCCCACGCCTCCCCCAAGATCAACGGCTCCAAGGTGTCCACCGACA

CCCTGAAGGGCGAGGACACCCTGACCTCCTCCCCCGCCCCCCGCACCTTCATCAACCAGCTGCCCGAC

TGGTCCATGTTCCTGGCCGCCATCACCACCATCTTCCTGGCCGCCGAGAAGCAGTGGACCAACCTGGA

CTGGAAGCCCCGCCGCCCCGACATGCTGGCCGACCCCTTCGGCATCGGCCGCTTCATGCAGGACGGCC

TGATCTTCCGCCAGCACTTCGCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAG

ACCCTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGCGCTCCGCCGGCCTGCTGGGCGACGG

CTTCGGCGCCACCCCCGAGATGTCCCGCCGCGACCTGATCTGGGTGGTGACCCGCATGCAGGTGCTGG

TGGACCGCTACCCCGCCTGGGGCGACATCGTGGAGGTGGAGACCTGGGTGGGCGCCTCCGGCAAGAA

CGGCATGCGCCGCGACTGGCTGGTGCGCGACTCCCAGACCGGCGAGATCCTGACCCGCGCCACCTCCG

TGTGGGTGATGATGAACAAGCGCACCCGCCGCCTGTCCAAGCTGCCCGAGGAGGTGCGCGGCGAGAT

CGGCCCCTACTTCATCGAGGACGTGGCCATCATCGAGGAGGACAACCGCAAGCTGCAGAAGCTGAAC

GAGAACACCGCCGACAACGTGCGCCGCGGCCTGACCCCCCGCTGGTCCGACCTGGACGTGAACCAGC

ACGTGAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCGCCCCCGGCTCCATCCTGGAGTCCCAC

GAGCTGTCCTGCATGACCCTGGAGTACCGCCGCGAGTGCGGCAAGGACTCCGTGCTGCAGTCCATGAC

CGCCGTGTCCGGCGGCGGCTCCGCCGCCGGCGGCTCCCCCGAGTCCTCCGTGGAGTGCGACCACCTGC

TGCAGCTGGAGTCCGGCCCCGAGGTGGTGCGCGGCCGCACCGAGTGGCGCCCCAAGTCCGCCAACAA

CTCCCGCTCCATCCTGGAGATGCCCGCCGAGTCCCTGTGA

SEQ ID NO: 10

Cuphea hyssopifolia (Chs) FATB I amino acid sequence

MVATNAAAFSAYTFFLTSPTHGYSSKRLADTQNGYPGTSLKSKSTPPPAAAAARNGALPLLASICKCPKKA

DGSMQLDSSLVFGFQFYIRSYEVGADQTVSIQTVLNYLQEAAINHVQSAGYFGDSFGATPEMTKRNLIWVI

TKMQVLVDRYPAWGDVVQVDTWTCSSGKNSMQRDWFVRDLKTGDIITRASSVWVLMNRLTRKLSKIPE

AVLEEAKLFVMNTAPTVDDNRKLPKLDGSSADYVLSGLTPRWSDLDMNQHVNNVKYIAWILESVPQSIPE

THKLSAITVEYRRECGKNSVLQSLTNVSGDGITCGNSIIECHHLLQLETGPEILLARTEWISKEPGFRGAPIQA

EKVYNNK*

SEQ ID NO: 11

Cuphea hyssopifolia (Chs) FATB1 coding DNA sequence

ATGGTTGCCACTAATGCTGCTGCCTTTTCTGCTTATACTTTCTTCCTTACTTCACCAACTCATGGTTACT

CTTCCAAACGTCTCGCCGATACTCAAAATGGTTATCCGGGTACCTCCTTGAAATCGAAATCCACTCCTC

CACCAGCTGCTGCTGCTGCTCGTAACGGTGCATTGCCACTGCTGGCCTCCATCTGCAAATGCCCCAAAA

AGGCTGATGGGAGTATGCAACTAGACAGCTCCTTGGTCTTCGGGTTTCAATTTTACATTAGATCATATG

AAGTGGGTGCGGATCAAACCGTGTCAATACAGACAGTACTCAATTACTTACAGGAGGCAGCCATCAAT

CATGTTCAGAGTGCTGGCTATTTTGGTGATAGTTTTGGCGCCACCCCGGAAATGACCAAGAGGAACCT

CATCTGGGTTATCACTAAGATGCAGGTTTTGGTGGATCGCTATCCCGCTTGGGGCGATGTTGTTCAAGT

TGATACATGGACCTGTAGTTCTGGTAAAAACAGCATGCAGCGTGATTGGTTCGTACGGGATCTCAAAA

CTGGAGATATTATAACAAGAGCCTCGAGCGTGTGGGTGCTGATGAATAGACTCACCAGAAAATTATCA

AAAATTCCTGAAGCAGTTCTGGAAGAAGCAAAACTTTTTGTGATGAACACTGCCCCCACCGTAGATGA

CAACAGGAAGCTACCAAAGCTGGATGGCAGCAGTGCTGATTATGTCCTCTCTGGCTTAACTCCTAGAT

GGAGCGACTTAGATATGAACCAGCATGTCAACAATGTGAAGTACATAGCCTGGATCCTTGAGAGTGTC

CCTCAGAGCATACCGGAGACACACAAGCTGTCAGCGATAACCGTGGAGTACAGGAGAGAATGTGGCA

AGAACAGCGTCCTCCAGTCTCTGACCAACGTCTCCGGGGATGGAATCACATGTGGAAACAGTATTATC

GAGTGCCACCATTTGCTTCAACTTGAGACTGGCCCAGAGATTCTACTAGCGCGGACGGAGTGGATATC

CAAGGAACCTGGGTTCAGGGGAGCTCCAATCCAGGCAGAGAAAGTCTACAACAACAAATAA

SEQ ID NO: 12

Cuphea hyssopifolia (Chs) FATB1 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCACCAACGCCGCCGCCTTCTCCGCCTACACCTTCTTCCTGACCTCCCCCACCCACGGCTAC

TCCTCCAAGCGCCTGGCCGACACCCAGAACGGCTACCCCGGCACCTCCCTGAAGTCCAAGTCCACCCC

CCCCCCCGCCGCCGCCGCCGCCCGCAACGGCGCCCTGCCCCTGCTGGCCTCCATCTGCAAGTGCCCCA

AGAAGGCCGACGGCTCCATGCAGCTGGACTCCTCCCTGGTGTTCGGCTTCCAGTTCTACATCCGCTCCT

ACGAGGTGGGCGCCGACCAGACCGTGTCCATCCAGACCGTGCTGAACTACCTGCAGGAGGCCGCCATC

AACCACGTGCAGTCCGCCGGCTACTTCGGCGACTCMCGGCGCCACCCCCGAGATGACCAAGCGCAA

CCTGATCTGGGTGATCACCAAGATGCAGGTGCTGGTGGACCGCTACCCCGCCTGGGGCGACGTGGTGC

AGGTGGACACCTGGACCTGCTCCTCCGGCAAGAACTCCATGCAGCGCGACTGGTTCGTGCGCGACCTG

AAGACCGGCGACATCATCACCCGCGCCTCCTCCGTGTGGGTGCTGATGAACCGCCTGACCCGCAAGCT

GTCCAAGATCCCCGAGGCCGTGCTGGAGGAGGCCAAGCTGTTCGTGATGAACACCGCCCCCACCGTGG

ACGACAACCGCAAGCTGCCCAAGCTGGACGGCTCCTCCGCCGACTACGTGCTGTCCGGCCTGACCCCC

CGCTGGTCCGACCTGGACATGAACCAGCACGTGAACAACGTGAAGTACATCGCCTGGATCCTGGAGTC

CGTGCCCCAGTCCATCCCCGAGACCCACAAGCTGTCCGCCATCACCGTGGAGTACCGCCGCGAGTGCG

GCAAGAACTCCGTGCTGCAGTCCCTGACCAACGTGTCCGGCGACGGCATCACCTGCGGCAACTCCATC

ATCGAGTGCCACCACCTGCTGCAGCTGGAGACCGGCCCCGAGATCCTGCTGGCCCGCACCGAGTGGAT

CTCCAAGGAGCCCGGCTTCCGCGGCGCCCCCATCCAGGCCGAGAAGGTGTACAACAACAAGTGA

SEQ ID NO: 13

Cuphea hyssopifolia (Chs) FATB2 amino acid sequence

MVATAASSAFFPVPSPDASSRPGKLGNGSSSLSPLKPKLMANGGLQVKANASAPPKINGSSVGLKSGSLKT

QEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGLVFRQN

FSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTLEMYKRDLIWVVAKMQVMVNRYPTW

GDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMNINQKTRRLSKIPDEVRHEIEPHFVDSAP

VIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRREC

GRESVLESLTAVDPSGKGSGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGPIASGETSPGDSS*

SEQ ID NO: 14

Cuphea hyssopifolia (Chs) FATB2 coding DNA sequence

ATGGTGGCTACCGCTGCAAGTTCAGCATTCTTCCCTGTGCCGTCCCCCGACGCCTCCTCTAGACCTGGA

AAGCTCGGCAATGGGTCATCGAGCTTGAGCCCCCTCAAGCCCAAATTGATGGCCAATGGCGGGTTGCA

GGTTAAGGCAAACGCCAGTGCCCCTCCTAAGATCAATGGTTCTTCGGTCGGTCTAAAGTCCGGCAGTC

TCAAGACTCAGGAAGACACTCCTTCGGCGCCTCCTCCCCGGACTTTTATTAACCAGCTGCCTGATTGGA

GTATGCTTCTTGCTGCAATCACTACTGTCTTCTTGGCAGCAGAGAAGCAGTGGATGATGCTTGATTGGA

AACCCAAGAGGCCTGACATGCTTGTGGACCCGTTCGGATTGGGAAGGATTGTTCAAGATGGGCTTGTG

TTCAGGCAGAATTTTTCGATTAGGTCCTATGAAATAGGCGCTGATCGCACTGCGTCTATAGAGACGGT

GATGAACCACTTGCAGGAAACAGCTCTCAATCATGTTAAGAGTGCTGGGCTTCTTAATGACGGCTTTG

GTCGTACTCTTGAGATGTATAAAAGGGACCTTATTTGGGTTGTTGCAAAAATGCAGGTCATGGTTAAC

CGCTATCCTACTTGGGGCGACACGGTTGAAGTGAATACTTGGGTTGCCAAGTCAGGGAAAAATGGTAT

GCGTCGTGATTGGCTCATAAGTGATTGCAATACAGGAGAAATTCTTACTAGAGCATCAAGTGTGTGGG

TCATGATGAATCAAAAGACAAGAAGATTGTCAAAAATTCCAGATGAGGTTCGACATGAGATAGAGCC

TCATTTCGTGGACTCTGCTCCCGTCATTGAAGATGATGACCGGAAACTTCCCAAGCTGGATGAGAAGA

CTGCTGACTCCATCCGCAAGGGTCTAACTCCGAAGTGGAATGACTTGGATGTCAATCAGCACGTCAAC

AACGTGAAGTACATTGGGTGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTATG

TTCCCTTACCCTGGAATATAGGCGGGAATGCGGAAGGGAGAGCGTGCTGGAGTCCCTCACTGCTGTGG

ACCCCTCTGGAAAGGGCTCTGGGTCTCAGTTCCAGCACCTTCTGCGGCTTGAGGATGGAGGTGAGATT

GTGAAGGGGAGAACTGAGTGGCGACCCAAGACTGCAGGAATCAATGGGCCAATAGCATCCGGGGAGA

CCTCACCTGGAGACTCTTCTTAG

SEQ ID NO: 15

Cuphea hyssopifolia (Chs) FATB2 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCCCCGACGCCTCCTCCCGCCCCGGC

AAGCTGGGCAACGGCTCCTCCTCCCTGTCCCCCCTGAAGCCCAAGCTGATGGCCAACGGCGGCCTGCA

GGTGAAGGCCAACGCCTCCGCCCCCCCAAGATCAACGGCTCCTCCGTGGGCCTGAAGTCCGGCTCCC

TGAAGACCCAGGAGGACACCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACTGG

TCCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGACTG

GAAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCCTGGGCCGCATCGTGCAGGACGGCCTGG

TGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC

GTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGTCCGCCGGCCTGCTGAACGACGGCTT

CGGCCGCACCCTGGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGGTG

AACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAACG

GCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCGTG

TGGGTGATGATGAACCAGAAGACCCGCCGCCTGTCCAAGATCCCCGACGAGGTGCGCCACGAGATCG

AGCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACGACGACCGCAAGCTGCCCAAGCTGGACGAG

AAGACCGCCGACTCCATCCGCAAGGGCCTGACCCCCAAGTGGAACGACCTGGACGTGAACCAGCACG

TGAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGA

GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCG

CCGTGGACCCCTCCGGCAAGGGCTCCGGCTCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGC

GAGATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGACCGCCGGCATCAACGGCCCCATCGCCTCCG

GCGAGACCTCCCCCGGCGACTCCTCCTGA

SEQ ID NO: 16

Cuphea hyssopifolia (Chs) FATB2b + a.a. 248-259 variant amino acid

sequence

MVATAASSAFFPVPSPDASSRPGKLGNGSSSLSPLKPKLMANGGLQVKANASAPPKINGSSVGLKSGSLKT

QEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGLVFRQN

FSIRSYEIGADRTASIETVMNELQETALNHVKSAGLLNDGFGRTLEMYKRDLIWVVAKMQVMVNRYPTW

GDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSKSQIMLPLHYCSVWVMMNQKTRRLSKIPDEV

RHEIEPHFVDSAPVIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQE

LCSLTLEYRRECGRESVLESLTAVDPSGKGSGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGPIASGETSP

GDSS*

SEQ ID NO: 17

Cuphea hyssopifolia (Chs) FATB2b + a.a. 248-259 variant coding DNA

sequence

ATGGTGGCTACCGCTGCAAGTTCAGCATTCTTCCCTGTGCCGTCCCCCGACGCCTCCTCTAGACCTGGA

AAGCTCGGCAATGGGTCATCGAGCTTGAGCCCCCTCAAGCCCAAATTGATGGCCAATGGCGGGTTGCA

GGTTAAGGCAAACGCCAGTGCCCCTCCTAAGATCAATGGTTCTTCGGTCGGTCTAAAGTCCGGCAGTC

TCAAGACTCAGGAAGACACTCCTTCGGCGCCTCCTCCCCGGACTTTTATTAACCAGCTGCCTGATTGGA

GTATGCTTCTTGCTGCAATCACTACTGTCTTCTTGGCAGCAGAGAAGCAGTGGATGATGCTTGATTGGA

AACCCAAGAGGCCTGACATGCTTGTGGACCCGTTCGGATTGGGAAGGATTGTTCAAGATGGGCTTGTG

TTCAGGCAGAATTTTTCGATTAGGTCCTATGAAATAGGCGCTGATCGCACTGCGTCTATAGAGACGGT

GATGAACCACTTGCAGGAAACAGCTCTCAATCATGTTAAGAGTGCTGGGCTTCTTAATGACGGCTTTG

GTCGTACTCTTGAGATGTATAAAAGGGACCTTATTTGGGTTGTTGCAAAAATGCAGGTCATGGTTAAC

CGCTATCCTACTTGGGGCGACACGGTTGAAGTGAATACTTGGGTTGCCAAGTCAGGGAAAAATGGTAT

GCGTCGTGATTGGCTCATAAGTGATTGCAATACAGGAGAAATTCTTACTAGAGCATCAAGTAAAAGCC

AAATTATGTTACCCTTACATTATTGCAGTGTGTGGGTCATGATGAATCAAAAGACAAGAAGATTGTCA

AAAATTCCAGATGAGGTTCGACATGAGATAGAGCCTCATTTCGTGGACTCTGCTCCCGTCATTGAAGA

TGATGACCGGAAACTTCCCAAGCTGGATGAGAAGACTGCTGACTCCATCCGCAAGGGTCTAACTCCGA

AGTGGAATGACTTGGATGTCAATCAGCACGTCAACAACGTGAAGTACATTGGGTGGATTCTTGAGAGT

ACTCCACCAGAAGTTCTGGAGACCCAGGAGTTATGTTCCCTTACCCTGGAATATAGGCGGGAATGCGG

AAGGGAGAGCGTGCTGGAGTCCCTCACTGCTGTGGACCCCTCTGGAAAGGGCTCTGGGTCTCAGTTCC

AGCACCTTCTGCGGCTTGAGGATGGAGGTGAGATTGTGAAGGGGAGAACTGAGTGGCGACCCAAGAC

TGCAGGAATCAATGGGCCAATAGCATCCGGGGAGACCTCACCTGGAGACTCTTCTTAG

SEQ ID NO: 18

Cuphea hyssopifolia (Chs) FATB2b + a.a. 248-259 variant coding DNA

sequence codon optimized for Prototheca moriformis

ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCCCCGACGCCTCCTCCCGCCCCGGC

AAGCTGGGCAACGGCTCCTCCTCCCTGTCCCCCCTGAAGCCCAAGCTGATGGCCAACGGCGGCCTGCA

GGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGGGCCTGAAGTCCGGCTCCC

TGAAGACCCAGGAGGACACCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACTGG

TCCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGACTG

GAAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCCTGGGCCGCATCGTGCAGGACGGCCTGG

TGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC

GTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGTCCGCCGGCCTGCTGAACGACGGCTT

CGGCCGCACCCTGGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGGTG

AACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAACG

GCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCAAG

TCCCAGATCATGCTGCCCCTGCACTACTGCTCCGTGTGGGTGATGATGAACCAGAAGACCCGCCGCCT

GTCCAAGATCCCCGACGAGGTGCGCCACGAGATCGAGCCCCACTTCGTGGACTCCGCCCCCGTGATCG

AGGACGACGACCGCAAGCTGCCCAAGCTGGACGAGAAGACCGCCGACTCCATCCGCAAGGGCCTGAC

CCCCAAGTGGAACGACCTGGACGTGAACCAGCACGTGAACAACGTGAAGTACATCGGCTGGATCCTG

GAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGAGCTGTGCTCCCTGACCCTGGAGTACCGCCGCGA

GTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCGCCGTGGACCCCTCCGGCAAGGGCTCCGGCTCCC

AGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGCGAGATCGTGAAGGGCCGCACCGAGTGGCGCCC

CAAGACCGCCGGCATCAACGGCCCCATCGCCTCCGGCGAGACCTCCCCCGGCGACTCCTCCTGA

SEQ ID NO: 19

Cuphea hyssopifolia (Chs) FATB3 amino acid sequence

MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSLKSGSL

DTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQDGAVF

RQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHVEVNRYPTW

GDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHFVDSAP

VIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYRRECG

RDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS*

SEQ ID NO: 20

Cuphea hyssopifolia (Chs) FATB3 coding DNA sequence

ATGGTGGCTGCCGAAGCAAGTTCTGCACTCTTCTCCGTTCGAACCCCGGGAACCTCCCCTAAACCCGG

GAAGTTCGGGAATTGGCCAACGAGCTTGAGCGTCCCCTTCAAGTCCAAATCAAACCACAATGGCGGCT

TTCAGGTTAAGGCAAACGCCAGTGCCCGTCCTAAGGCTAACGGTTCTGCAGTAAGTCTAAAGTCTGGC

AGCCTCGACACTCAGGAGGACACTTCATCGTCGTCCTCTCCTCCTCGGACTTTCATTAACCAGTTGCCC

GACTGGAGTATGCTGCTGTCCGCGATCACGACCGTCTTCGTGGCGGCTGAGAAGCAGTGGACGATGCT

TGATCGGAAATCTAAGAGGCCCGACATGCTCATGGACCCGTTTGGGGTTGACAGGGTTGTTCAGGATG

GGGCTGTGTTCAGACAGAGTTTTTCGATTAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATA

GAGACGCTGATGAACATCTTCCAGGAAACATCTCTCAATCATTGTAAGAGTATCGGTCTTCTCAATGA

CGGCTTTGGTCGTACTCCTGAGATGTGTAAGAGGGACCTCATTTGGGTGGTTACAAAAATGCACGTCG

AGGTTAATCGCTATCCTACTTGGGGTGATACTATCGAGGTCAATACTTGGGTCTCCGAGTCGGGGAAA

ACCGGTATGGGTCGTGATTGGCTGATAAGTGATTGTCATACAGGAGAAATTCTAATAAGAGCAACGAG

CATGTGTGCTATGATGAATCAAAAGACGAGAAGATTCTCAAAATTTCCATATGAGGTTCGACAGGAGT

TGGCGCCTCATTTTGTGGACTCTGCTCCTGTCATTGAAGACTATCAAAAATTGCACAAGCTTGATGTGA

AGACGGGTGATTCCATTTGCAATGGCCTAACTCCAAGGTGGAATGACTTGGATGTCAATCAGCACGTT

AACAATGTGAAGTACATTGGGTGGATTCTCGAGAGTGTTCCAACGGAAGTTTTCGAGACCCAGGAGCT

ATGTGGCCTCACCCTTGAGTATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCCGTGACCGCTA

TGGATCCATCAAAAGAGGGAGACAGATCTCTGTACCAGCACCTTCTTCGGCTTGAGGATGGGGCTGAT

ATCGCGAAGGGCAGAACCAAGTGGCGGCCGAAGAATGCAGGAACCAATGGGGCAATATCAACAGGA

AAGACTTCAAATGGAAACTCGATCTCTTAG

SEQ ID NO: 21

Cuphea hyssopifolia (Chs) FATB3 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCGCCGAGGCCTCCTCCGCCCTGTTCTCCGTGCGCACCCCCGGCACCTCCCCCAAGCCCGGC

AAGTTCGGCAACTGGCCCACCTCCCTGTCCGTGCCCTTCAAGTCCAAGTCCAACCACAACGGCGGCTT

CCAGGTGAAGGCCAACGCCTCCGCCCGCCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGGCT

CCCTGGACACCCAGGAGGACACCTCCTCCTCCTCCTCCCCCCCCCGCACCTTCATCAACCAGCTGCCCG

ACTGGTCCATGCTGCTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTG

GACCGCAAGTCCAAGCGCCCCGACATGCTGATGGACCCCTTCGGCGTGGACCGCGTGGTGCAGGACG

GCGCCGTGTTCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCG

AGACCCTGATGAACATCTTCCAGGAGACCTCCCTGAACCACTGCAAGTCCATCGGCCTGCTGAACGAC

GGCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATGCACGTGGA

GGTGAACCGCTACCCCACCTGGGGCGACACCATCGAGGTGAACACCTGGGTGTCCGAGTCCGGCAAG

ACCGGCATGGGCCGCGACTGGCTGATCTCCGACTGCCACACCGGCGAGATCCTGATCCGCGCCACCTC

CATGTGCGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGTTCCCCTACGAGGTGCGCCAGGAGC

TGGCCCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACTACCAGAAGCTGCACAAGCTGGACGTG

AAGACCGGCGACTCCATCTGCAACGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGT

GAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCGTGCCCACCGAGGTGTTCGAGACCCAGGAG

CTGTGCGGCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGC

CATGGACCCCTCCAAGGAGGGCGACCGCTCCCTGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCCG

ACATCGCCAAGGGCCGCACCAAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCGG

CAAGACCTCCAACGGCAACTCCATCTCCTGA

SEQ ID NO: 22

Cuphea hyssopifolia (Chs) FATB3b (V204I, C239F, E243D, M251V variant)

amino acid sequence

MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSLKSGSL

DTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQDGAVF

RQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTICMHIEVNRYPTW

GDTIEVNTWVSESGKTGMGRDWLISDFHTGDILIRATSVCAMMNQKTRRFSKFPYEVRQELAPHFVDSAPV

IEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYRRECGR

DSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS*

SEQ ID NO: 23

Cuphea hyssopifolia (Chs) FATB3b (V204I, C239F, E243D, M251V variant)

coding DNA sequence

ATGGTGGCTGCCGAAGCAAGTTCTGCACTCTTCTCCGTTCGAACCCCGGGAACCTCCCCTAAACCCGG

GAAGTTCGGGAATTGGCCAACGAGCTTGAGCGTCCCCTTCAAGTCCAAATCAAACCACAATGGCGGCT

TTCAGGTTAAGGCAAACGCCAGTGCCCGTCCTAAGGCTAACGGTTCTGCAGTAAGTCTAAAGTCTGGC

AGCCTCGACACTCAGGAGGACACTTCATCGTCGTCCTCTCCTCCTCGGACTTTCATTAACCAGTTGCCC

GACTGGAGTATGCTGCTGTCCGCGATCACGACCGTCTTCGTGGCGGCTGAGAAGCAGTGGACGATGCT

TGATCGGAAATCTAAGAGGCCCGACATGCTCATGGACCCGTTTGGGGTTGACAGGGTTGTTCAGGATG

GGGCTGTGTTCAGACAGAGTTTTTCGATTAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATA

GAGACGCTGATGAACATMCCAGGAAACATCTCTCAATCATTGTAAGAGTATCGGTCTTCTCAATGA

CGGCTTTGGTCGTACTCCTGAGATGTGTAAGAGGGACCTCATTTGGGTGGTTACAAAAATGCACATCG

AGGTTAATCGCTATCCTACTTGGGGTGATACTATCGAGGTCAATACTTGGGTCTCCGAGTCGGGGAAA

ACCGGTATGGGTCGTGATTGGCTGATAAGTGATTTTCATACAGGAGACATTCTAATAAGAGCAACGAG

CGTGTGTGCTATGATGAATCAAAAGACGAGAAGATTCTCAAAATTTCCATATGAGGTTCGACAGGAGT

TAGCGCCTCATTTTGTGGACTCTGCTCCAGTCATTGAAGACTATCAAAAATTGCACAAGCTTGATGTGA

AGACGGGTGATTCCATTTGCAATGGCCTAACTCCAAGGTGGAATGACTTGGATGTCAATCAGCACGTT

AACAATGTGAAGTACATTGGGTGGATTCTCGAGAGTGTTCCAACGGAAGTTTTCGAGACCCAGGAGCT

ATGTGGCCTCACCCTTGAGTATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCCGTGACCGCTA

TGGATCCCTCAAAAGAGGGAGACAGATCTCTGTACCAGCACCTTCTTCGGCTTGAGGATGGGGCTGAT

ATCGCGAAGGGCAGAACCAAGTGGCGGCCGAAGAATGCAGGAACCAATGGGGCAATATCAACAGGA

AAGACTTCAAATGGAAACTCGATCTCTTAG

SEQ ID NO: 24

Cuphea hyssopifolia (Chs) FATB3b (V204I, C239F, E243D, M251V variant)

coding DNA sequence codon optimized for Prototheca moriformis

ATGGTGGCCGCCGAGGCCTCCTCCGCCCTGTTCTCCGTGCGCACCCCCGGCACCTCCCCCAAGCCCGGC

AAGTTCGGCAACTGGCCCACCTCCCTGTCCGTGCCCTTCAAGTCCAAGTCCAACCACAACGGCGGCTT

CCAGGTGAAGGCCAACGCCTCCGCCCGCCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGGCT

CCCTGGACACCCAGGAGGACACCTCCTCCTCCTCCTCCCCCCCCCGCACCTTCATCAACCAGCTGCCCG

ACTGGTCCATGCTGCTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTG

GACCGCAAGTCCAAGCGCCCCGACATGCTGATGGACCCCTTCGGCGTGGACCGCGTGGTGCAGGACG

GCGCCGTGTTCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCG

AGACCCTGATGAACATCTTCCAGGAGACCTCCCTGAACCACTGCAAGTCCATCGGCCTGCTGAACGAC

GGCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATGCACATCGA

GGTGAACCGCTACCCCACCTGGGGCGACACCATCGAGGTGAACACCTGGGTGTCCGAGTCCGGCAAG

ACCGGCATGGGCCGCGACTGGCTGATCTCCGACTTCCACACCGGCGACATCCTGATCCGCGCCACCTC

CGTGTGCGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGTTCCCCTACGAGGTGCGCCAGGAGC

TGGCCCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACTACCAGAAGCTGCACAAGCTGGACGTG

AAGACCGGCGACTCCATCTGCAACGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGT

GAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCGTGCCCACCGAGGTGTTCGAGACCCAGGAG

CTGTGCGGCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGC

CATGGACCCCTCCAAGGAGGGCGACCGCTCCCTGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCCG

ACATCGCCAAGGGCCGCACCAAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCGG

CAAGACCTCCAACGGCAACTCCATCTCCTGA

SEQ ID NO: 25

Cuphea PSR23 (Cu) FATB3 amino acid sequence

MVVAAATSAFFPVPAPGTSPKPGKSGNWPSSLSPTFKPKSIPNAGFQVKANASAHPKANGSAVNLKSGSLN

TQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKCIVRDGLVSRQ

SFLIRSYEIGADRTASIETLMNFILQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPTWG

DTVEINTWFSQSGKIGMASDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE

DNDQKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGM

DSVLESVTAVDPSENGGRSQYKHLLRLEDGTDIVKSRTEWRPKNAGTNGAISTSTAKTSNGNSVS*

SEQ ID NO: 26

Cuphea PSR23 (Cu) FATB3 coding DNA sequence

ATGGTOGTGGCTGCAGCAACTTCTGCATTCTTCCCCGTTCCAGCCCCGGGAACCTCCCCTAAACCCGGG

AAGTCCGGCAACTGGCCATCGAGCTTGAGCCCTACCTTCAAGCCCAAGTCAATCCCCAATGCCGGATT

TCAGGTTAAGGCAAATGCCAGTGCCCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCA

GCCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCCCGGGCTTTCCTTAACCAGTTGCCTGATT

GGAGTATGCTTCTGACTGCAATCACGACCGTCTTCGTGGCGGCAGAGAAGCAGTGGACTATGCTTGAT

AGGAAATCTAAGAGGCCTGACATGCTCGTGGACTCGGTTGGGTTGAAGTGTATTGTTCGGGATGGGCT

CGTGTCCAGACAGAGTTTTTTGATTAGATCTTATGAAATAGGCGCTGATCGAACAGCCTCTATAGAGA

CGCTGATGAACCACTTGCAGGAAACATCTATCAATCATTGTAAGAGTTTGGGTCTTCTCAATGACGGCT

TTGGTCGTACTCCTGGGATGTGTAAAAACGACCTCATTTGGGTGCTTACAAAAATGCAGATCATGGTG

AATCGCTACCCAACTTGGGGCGATACTGTTGAGATCAATACCTGGTTCTCTCAGTCGGGGAAAATCGG

TATGGCTAGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGTGT

GGGCTATGATGAATCAAAAGACGAGAAGATTCTCAAGACTTCCATACGAGGTTCGCCAGGAGTTAAC

GCCTCATTTTGTGGACTCTCCTCATGTCATTGAAGACAATGATCAGAAATTGCATAAGTTTGATGTGAA

GACTGGTGATTCCATTCGCAAGGGTCTAACTCCGAGGTGGAACGACTTGGATGTGAATCAGCACGTAA

GCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAATAGAAGTTTTGGAGACACAGGAGCTA

TGCTCTCTCACCGTAGAATATAGGCGGGAATGCGGAATGGACAGTGTGCTGGAGTCCGTGACTGCTGT

GGATCCCTCAGAAAATGGAGGCCGGTCTCAGTACAAGCACCTTCTGCGGCTTGAGGATGGGACTGATA

TCGTGAAGAGCAGAACTGAGTGGCGACCGAAGAATGCAGGAACTAACGGGGCGATATCAACATCAAC

AGCAAAGACTTCAAATGGAAACTCGGTCTCTTAG

SEQ ID NO: 27

Cuphea PSR23 (Cu) FATB3 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGTGGCCGCCGCCACCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCTCCCCCAAGCCCGGC

AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCACCTTCAAGCCCAAGTCCATCCCCAACGCCGGCTTC

CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC

CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG

GTCCATGCTGCTGACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGGACC

GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGTGCATCGTGCGCGACGGCCTG

GTGTCCCGCCAGTCCTTCCTGATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC

CTGATGAACCACCTGCAGGAGACCTCCATCAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTT

CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA

ACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCAGTCCGGCAAGATCGGC

ATGGCCTCCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG

GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC

CCCACTTCGTGGACTCCCCCCACGTGATCGAGGACAACGACCAGAAGCTGCACAAGTTCGACGTGAAG

ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGTC

CAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCATCGAGGTGCTGGAGACCCAGGAGCTGT

GCTCCCTGACCGTGGAGTACCGCCGCGAGTGCGGCATGGACTCCGTGCTGGAGTCCGTGACCGCCGTG

GACCCCTCCGAGAACGGCGGCCGCTCCCAGTACAAGCACCTGCTGCGCCTGGAGGACGGCACCGACA

TCGTGAAGTCCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCTCCACC

GCCAAGACCTCCAACGGCAACTCCGTGTCCTGA

SEQ ID NO: 28

Cuphea wrightii (Cw) FATB3 amino acid sequence

MVVAAAASSAFFPVPAPRTTPKPGKFGNWPSSLSPPFKPKSNPNGRFQVKANVSPHPKANGSAVSLKSGSL

NTLEDPPSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQFTRLDRKSKRPDMLVDWFGSETIVQDGLVFRER

FSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTSEMCIRDLIWVLTKMQIVVNRYPTWGD

TVEINSWFSQSGKEGMGRDWLISDCNTGEILVRATSAWAMMNQKTRRFSKLPCEVRQEIAPHFVDAPPVIE

DNDRKLHKFDVKTGDSICKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYRRECGR

ESVVESVISMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNRAIST*

SEQ ID NO: 29

Cuphca wrightii (Cw) FATB3 coding DNA sequence

ATGGTGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGTTCCAGCACCTAGAACCACGCCTAAACCC

GGGAAGTTCGGCAATTGGCCATCGAGCTTGAGCCCGCCCTTCAAGCCCAAGTCAAACCCCAATGGTAG

ATTTCAGGTTAAGGCAAATGTCAGTCCTCATCCTAAGGCTAACGGTTCTGCAGTAAGTCTAAAGTCTG

GCAGCCTCAACACTCTGGAGGACCCTCCGTCGTCCCCTCCTCCTCGGACTTTCCTTAACCAGTTGCCTG

ATTGGAGTAGGCTTCGGACTGCAATCACGACCGTCTTCGTGGCGGCAGAGAAGCAGTTCACTAGGCTC

GATCGAAAATCTAAGAGGCCTGACATGCTAGTGGACTGGTTTGGGTCAGAGACTATTGTTCAGGATGG

GCTCGTGTTCAGAGAGAGATTTTCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATAG

AGACGCTGATGAACCACTTGCAGGACACATCTCTGAATCATTGTAAGAGTGTGGGTCTTCTCAATGAC

GGCTTTGGTCGTACCTCGGAGATGTGTACAAGAGACCTCATTTGGGTGCTTACAAAAATGCAGATCGT

GGTGAATCGCTATCCAACTTGGGGCGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCGGGGAAAA

TCGGTATGGGTCGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTGTAAGAGCAACGAGC

GCTTGGGCCATGATGAATCAAAAGACGAGAAGATTCTCAAAACTTCCATGCGAGGTTCGCCAGGAGAT

AGCGCCTCATTTTGTGGACGCTCCTCCTGTCATTGAAGACAATGATCGGAAATTGCATAAGTTTGATGT

GAAGACTGGTGATTCCATTTGCAAGGGTCTAACTCCGGGGTGGAATGACTTGGATGTCAATCAGCACG

TAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCTACAGAAGTTTTGGAGACCCAGGAG

CTATGCTCTCTCACCCTTGAATATAGGCGGGAATGTGGAAGGGAAAGTGTGGTAGAGTCCGTGACCTC

TATGAATCCCTCAAAAGTTGGAGACCGGTCTCAGTACCAACACCTTCTGCGGCTTGAGGATGGGGCTG

ATATCATGAAGGGCAGAACTGAGTGGAGACCAAAGAATGCAGGAACCAACCGGGCGATATCAACATG

A

SEQ ID NO: 30

Cuphea wrightii (Cw) FATB3 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCCCCCGCACCACCCCCAAGCCC

GGCAAGTTCGGCAACTGGCCCTCCTCCCTGTCCCCCCCCTTCAAGCCCAAGTCCAACCCCAACGGCCG

CTTCCAGGTGAAGGCCAACGTGTCCCCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCG

GCTCCCTGAACACCCTGGAGGACCCCCCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCCG

ACTGGTCCCGCCTGCGCACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTTCACCCGCCTG

GACCGCAAGTCCAAGCGCCCCGACATGCTGGTGGACTGGTTCGGCTCCGAGACCATCGTGCAGGACGG

CCTGGTGTTCCGCGAGCGCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGA

GACCCTGATGAACCACCTGCAGGACACCTCCCTGAACCACTGCAAGTCCGTGGGCCTGCTGAACGACG

GCTTCGGCCGCACCTCCGAGATGTGCACCCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCGTG

GTGAACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGAT

CGGCATGGGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGGTGCGCGCCACCTCCG

CCTGGGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGCTGCCCTGCGAGGTGCGCCAGGAGATC

GCCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGT

GAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCGGCTGGAACGACCTGGACGTGAACCAGCAC

GTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCACCGAGGTGCTGGAGACCCAGGA

GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGGTGGAGTCCGTGACCT

CCATGAACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCC

GACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACCGCGCCATCTCCACCT

GA

SEQ ID NO: 31

Cuphea wrightii (Cw) FATB4a amino acid sequence

MVATAASSAFFPVPSADTSSSRPGKLGSGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKSGGFKTQ

EDSPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGLVFRQNF

SIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSNDGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWG

DTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHFVDSAPV

VEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECG

RESVLESLTAVDPSAEGYASRFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGDFF*

SEQ ID NO: 32

Cuphea wrightii (Cw)FATB4a coding DNA sequence

TTGGTGGCTACCGCTGCAAGTTCTGCATTTTTCCCCGTGCCATCCGCCGACACCTCCTCCTCGAGACCC

GGAAAGCTCGGCAGTGGACCATCGAGCTTGAGCCCCCTCAAGCCCAAATCGATCCCCAATGGCGGCTT

GCAGGTTAAGGCAAACGCCAGTGCCCCTCCTAAGATCAATGGTTCCTCGGTCGGTCTAAAGTCGGGCG

GTTTCAAGACTCAGGAAGACTCTCCTTCGGCCCCTCCTCCGCGGACTTTTATCAACCAGTTGCCTGATT

GGAGTATGCTTCTTGCTGCAATCACTACTGTCTTCTTGGCTGCAGAGAAGCAGTGGATGATGCTTGATT

GGAAACCTAAGAGGCCTGACATGCTCGTGGACCCGTTCGGATTGGGAAGTATTGTTCAGGATGGGCTT

GTGTTCAGGCAGAATTTTTCAATTAGGTCCTACGAAATAGGCGCCGATCGAACTGCGTCTATAGAGAC

GGTGATGAACCATTTGCAGGAAACAGCTCTCAATCATGTCAAGATTGCTGGGC'TTTCTAATGACGGCT

TTGGTCGTACTCCTGAGATGTATAAAAGAGACCTTATTTGGGTTGTTGCAAAAATGCAGGTCATGGTTA

ACCGCTATCCTACTTGGGGTGACACGGTTGAAGTGAATACTTGGGTTGCCAAGTCAGGGAAAAATGGT

ATGCGTCGTGACTGGCTCATAAGTGATTGCAATACTGGAGAGATTCTTACAAGAGCATCAAGCGTGTG

GGTCATGATGAATCAAAAGACAAGAAGATTGTCAAAAATTCCAGATGAGGTTCGAAATGAGATAGAG

CCTCATTTTGTGGACTCTGCTCCCGTCGTTGAAGATGATGATCGGAAACTTCCCAAGCTGGATGAGAAC

ACTGCTGACTCCATCCGCAAGGGTCTAACTCCGAGGTGGAATGACTTGGATGTCAATCAGCACGTCAA

CAACGTGAAGTACATCGGATGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTAT

GCTCCCTGACCCTGGAATACAGGCGGGAATGTGGAAGGGAGAGCGTGCTGGAGTCCCTCACTGCTGTC

GACCCGTCTGCAGAGGGCTATGCGTCCCGGTTTCAGCACCTTCTGCGGCTTGAGGATGGAGGTGAGAT

CGTGAAGGCGAGAACTGAGTGGCGACCCAAGAATGCTGGAATCAATGGGGTGGTACCATCCGAGGAG

TCCTCACCTGGAGACTTCTTTTAG

SEQ ID NO: 33

Cuphea wrightii (Cw) FATB4a coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCGCCGACACCTCCTCCTCCCGCCCC

GGCAAGCTGGGCTCCGGCCCCTCCTCCCTGTCCCCCCTGAAGCCCAAGTCCATCCCCAACGGCGGCCT

GCAGGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGGGCCTGAAGTCCGGCG

GCTTCAAGACCCAGGAGGACTCCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACT

GGTCCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGAC

TGGAAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCCTGGGCTCCATCGTGCAGGACGGCCT

GGTGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGA

CCGTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGATCGCCGGCCTGTCCAACGACGG

CTTCGGCCGCACCCCCGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGG

TGAACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAA

CGGCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCG

TGTGGGTGATGATGAACCAGAAGACCCGCCGCCTGTCCAAGATCCCCGACGAGGTGCGCAACGAGAT

CGAGCCCCACTTCGTGGACTCCGCCCCCGTGGTGGAGGACGACGACCGCAAGCTGCCCAAGCTGGACG

AGAACACCGCCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCA

CGTGAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGG

AGCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACC

GCCGTGGACCCCTCCGCCGAGGGCTACGCCTCCCGCTTCCAGCACCTGCTGCGCCTGGAGGACGGCGG

CGAGATCGTGAAGGCCCGCACCGAGTGGCGCCCCAAGAACGCCGGCATCAACGGCGTGGTGCCCTCC

GAGGAGTCCTCCCCCGGCGACTTCTTCTGA

SEQ ID NO: 34

Cuphea wrightii (Cw) FATB4b amino acid sequence

MVATAASSAFFPVPSADTSSSRPGICLGNGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKSGSFKTQ

EDAPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGLVFRQNF

SIRSYEIGADRIASIETVMNFILQETALNHVKIAGLSSDGFGRTPAMSKRDLIWVVAKMQVMVNRYPAWGD

TVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHFVDSAPVV

EDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPAEVLETQELCSLTLEYRRECGR

ESVLESLTAVDPSGEGDGSKFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGGDFF*

SEQ ID NO: 35

Cuphea wrightii (Cw) FATB4b coding DNA sequence

TTGGTGGCTACCGCTGCAAGTTCTGCATTTTTCCCCGTACCATCCGCCGACACCTCCTCATCGAGACCC

GGAAAGCTCGGCAATGGGCCATCGAGCTTGAGCCCCCTCAAGCCGAAATCGATCCCCAATGGCGGGTT

GCAGGTTAAGGCAAACGCCAGTGCCCCTCCTAAGATCAATGGTTCCTCGGTCGGTCTGAAGTCGGGCA

GTTTCAAGACTCAGGAAGACGCTCCTTCGGCCCCTCCTCCTCGGACTTTTATCAACCAGTTGCCTGATT

GGAGTATGCTTCTTGCTGCAATCACTACTGTCTTCTTGGCTGCAGAGAAGCAGTGGATGATGCTTGATT

GGAAACCTAAGAGGCCTGACATGCTTGTCGACCCGTTCGGATTGGGAAGTATTGTTCAGGATGGGCTT

GTTTTCAGGCAGAATTTCTCGATTAGGTCCTACGAAATAGGCGCTGATCGCACTGCGTCTATAGAGAC

GGTGATGAACCATTTGCAGGAAACAGCTCTCAATCATGTTAAGATTGCTGGGCTTTCTAGTGATGGCTT

TGGTCGTACTCCTGCGATGTCTAAACGGGACCTCATTTGGGTTGTTGCGAAAATGCAGGTCATGGTTAA

CCGCTACCCTGCTTGGGGTGACACGGTTGAAGTGAATACTTGGGTTGCCAAGTCAGGGAAAAATGGTA

TGCGTCGTGACTGGCTCATAAGTGATTGCAACACTGGAGAGATTCTTACAAGAGCATCAAGCGTGTGG

GTCATGATGAATCAAAAGACAAGAAGATTGTCAAAAATTCCAGATGAGGTTCGAAATGAGATAGAGC

CTCATTTTGTGGACTCTGCGCCCGTCGTTGAAGACGATGACCGGAAACTTCCCAAGCTGGATGAGAAC

ACTGCTGACTCCATCCGCAAGGGTCTAACTCCGAGGTGGAATGACTTGGATGTCAATCAGCACGTCAA

CAACGTGAAGTACATTGGGTGGATTCTTGAGAGTACTCCAGCAGAAGTTCTGGAGACCCAGGAATTAT

GTTCCCTGACCCTGGAATACAGGCGGGAATGTGGAAGGGAGAGCGTGCTGGAGTCCCTCACTGCTGTA

GATCCGTCTGGAGAGGGCGATGGGTCCAAGTTCCAGCACCTTCTGCGGCTTGAGGATGGAGGTGAGAT

CGTGAAGGCGAGAACTGAGTGGCGACCAAAGAATGCTGGAATCAATGGGGTGGTACCATCCGAGGAG

TCCTCACCTGGTGGAGACTTCTTTTAA

SEQ ID NO: 36

Cuphea wrightii (Cw) FATB4b coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCGCCGACACCTCCTCCTCCCGCCCC

GGCAAGCTGGGCAACGGCCCCTCCTCCCTGTCCCCCCTGAAGCCCAAGTCCATCCCCAACGGCGGCCT

GCAGGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGGGCCTGAAGTCCGGCT

CCTTCAAGACCCAGGAGGACGCCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGAC

TGGTCCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGA

CTGGAAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCCTGGGCTCCATCGTGCAGGACGGCC

TGGTGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAG

ACCGTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGATCGCCGGCCTGTCCTCCGACGG

CTTCGGCCGCACCCCCGCCATGTCCAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGG

TGAACCGCTACCCCGCCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAA

CGGCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCG

TGTGGGTGATGATGAACCAGAAGACCCGCCGCCTGTCCAAGATCCCCGACGAGGTGCGCAACGAGAT

CGAGCCCCACTTCGTGGACTCCGCCCCCGTGGTGGAGGACGACGACCGCAAGCTGCCCAAGCTGGACG

AGAACACCGCCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCA

CGTGAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCGCCGAGGTGCTGGAGACCCAG

GAGCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGAC

CGCCGTGGACCCCTCCGGCGAGGGCGACGGCTCCAAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCG

GCGAGATCGTGAAGGCCCGCACCGAGTGGCGCCCCAAGAACGCCGGCATCAACGGCGTGGTGCCCTC

CGAGGAGTCCTCCCCCGGCGGCGACTTCTTCTGA

SEQ ID NO: 37

Cuphea wrightii (Cw) FATB5 amino acid sequence

MVAAAASSAFFSVPTPGIPPKPGKFGNVVPSSLSVPFKPDNGGFHVKANASAHPKANGSAVNLKSGSLETPP

RSFINQLPDLSVLLSKITTVFGAAEKQWKRPGMLVEPFGVDRIFQDGVFFRQSFSIRSYEIGVDRTASIETLM

NIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNTWVSESGKNGMGRD

WLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDQKLQKLDVKIGDSIRDG

LTPRWNDLDVNQHVNNVKYIGWILKSVPIEVFETQELCGVTLEYRRECGRDSVLESVTAMDPAKEGDRCV

YQHLLRLEDGADITIGRTEWRPKNAGANGAMSSGKTSNGNCLIEGRGWQPFRVVRLIF*

SEQ ID NO: 38

Cuphea wrightii (Cw) FATB5 coding DNA sequence

ATGGTGGCTGCCGCAGCAAGTTCTGCATTCTTCTCTGTTCCAACCCCGGGAACGCCCCCTAAACCCGGG

AAGTTCGGTAACTGGCCATCGAGCTTGAGCGTCCCCTTCAAGCCCGACAATGGTGGCTTTCATGTCAA

GGCAAACGCCAGTGCCCATCCTAAGGCTAATGGTTCTGCGGTAAATCTAAAGTCTGGCAGCCTCGAGA

CTCCTCCTCGGAGTTTCATTAACCAGCTGCCGGACTTGAGTGTGCTTCTGTCCAAAATCACGACTGTCT

TCGGGGCGGCTGAGAAGCAGTGGAAGAGGCCCGGCATGCTCGTGGAACCGTTTGGGGTTGACAGGAT

TTTTCAGGATGGTGTTTTTTTCAGACAGAGTTTTTCTATCAGGTCTTACGAAATAGGCGTTGATCGAAC

AGCCTCGATAGAGACACTGATGAACATCTTCCAGGAAACATCTTTGAATCATTGCAAGAGTATCGGTC

TTCTCAACGATGGCTTTGGTCGTACTCCTGAGATGTGTAAGAGGGACCTCATTTGGGTGGTTACGAAA

ATTCAGGTCGAGGTGAATCGCTATCCTACTTGGGGTGACACTATCGAAGTCAATACTTGGGTCTCGGA

GTCGGGGAAAAACGGTATGGGTCGGGATTGGCTGATAAGTGATTGCCGTACTGGAGAGATTCTTATAA

GAGCAACGAGCGTGTGGGCGATGATGAATCAAAACACGAGAAGATTGTCAAAATTTCCATATGAGGT

TCGACAGGAGATAGCGCCTCATTTTGTGGACTCTGCTCCTGTCATTGAAGACGATCAAAAGTTGCAGA

AGCTTGATGTGAAGACAGGTGATTCCATTCGCGATGGTCTAACTCCGAGATGGAATGACTTGGATGTC

AATCAACACGTTAACAATGTGAAGTACATTGGATGGATTCTCAAGAGTGTTCCAATAGAAGTTTTCGA

GACACAGGAGCTATGCGGCGTCACACTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAG

TCAGTGACCGCTATGGATCCAGCAAAAGAGGGAGACCGGTGTGTGTACCAGCACCTTCTTCGGCTTGA

GGATGGAGCTGATATCACTATAGGCAGAACCGAGTGGCGGCCGAAGAATGCAGGAGCCAATGGTGCA

ATGTCATCAGGAAAGACTTCAAATGGAAACTGTCTCATAGAAGGAAGGGGTTGGCAACCTTTCCGAGT

TGTGCGTTTAATTTTCTGA

SEQ ID NO: 39

Cuphea wrightii (Cw) FATB5 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCTCCGTGCCCACCCCCGGCACCCCCCCCAAGCCCGGC

AAGTTCGGCAACTGGCCCTCCTCCCTGTCCGTGCCCTTCAAGCCCGACAACGGCGGCTTCCACGTGAA

GGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTCCCTGGAGA

CCCCCCCCCGCTCCTTCATCAACCAGCTGCCCGACCTGTCCGTGCTGCTGTCCAAGATCACCACCGTGT

TCGGCGCCGCCGAGAAGCAGTGGAAGCGCCCCGGCATGCTGGTGGAGCCCTTCGGCGTGGACCGCAT

CTTCCAGGACGGCGTGTTCTTCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGTGGACCGCAC

CGCCTCCATCGAGACCCTGATGAACATCTTCCAGGAGACCTCCCTGAACCACTGCAAGTCCATCGGCC

TGCTGAACGACGGCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAG

ATCCAGGTGGAGGTGAACCGCTACCCCACCTGGGGCGACACCATCGAGGTGAACACCTGGGTGTCCG

AGTCCGGCAAGAACGGCATGGGCCGCGACTGGCTGATCTCCGACTGCCGCACCGGCGAGATCCTGATC

CGCGCCACCTCCGTGTGGGCCATGATGAACCAGAACACCCGCCGCCTGTCCAAGTTCCCCTACGAGGT

GCGCCAGGAGATCGCCCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACGACCAGAAGCTGCAGA

AGCTGGACGTGAAGACCGGCGACTCCATCCGCGACGGCCTGACCCCCCGCTGGAACGACCTGGACGT

GAACCAGCACGTGAACAACGTGAAGTACATCGGCTGGATCCTGAAGTCCGTGCCCATCGAGGTGTTCG

AGACCCAGGAGCTGTGCGGCGTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGA

GTCCGTGACCGCCATGGACCCCGCCAAGGAGGGCGACCGCTGCGTGTACCAGCACCTGCTGCGCCTGG

AGGACGGCGCCGACATCACCATCGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCGCCAACGGCGC

CATGTCCTCCGGCAAGACCTCCAACGGCAACTGCCTGATCGAGGGCCGCGGCTGGCAGCCCTTCCGCG

TGGTGCGCCTGATCTTCTGA

SEQ ID NO: 40

Cuphea heterophylla (Cht) FATBla amino acid sequence

MVAAAASSAFFSVPTPGTSTKPGNFGNWPSSLSVPFKPESNHNGGFRVKANASAHPKANGSAVNLKSGSLE

TQEDTSSSSPPPRTFIKQLPDWGMLLSKITTVFGAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSFSIRSYEI

GADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNTWV

SESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDDKKLHKL

DVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSVLESVTA

MDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGAISTGKTSNENSVS*

SEQ ID NO: 41

Cuphea heterophylla (Cht) FATBla coding DNA sequence

ATGGTGGCTGCCGCAGCAAGTTCTGCATTCTTCTCCGTTCCAACCCCGGGAACCTCCACTAAACCCGGG

AACTTCGGCAATTGGCCATCGAGCTTGAGCGTCCCCTTCAAGCCCGAATCAAACCACAATGGTGGCTT

TCGGGTCAAGGCAAACGCCAGTGCTCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCA

GCCTCGAGACTCAGGAGGACACTTCATCGTCGTCCCCTCCTCCTCGGACTTTTATTAAGCAGTTGCCCG

ACTGGGGTATGCTTCTGTCCAAAATCACGACTGTCTTCGGGGCGGCTGAGAGGCAGTGGAAGAGGCCC

GGCATGCTTGTGGAACCGTTTGGGGTTGACAGGATTTTTCAGGATGGGGTTTTTTTCAGACAGAGTTTT

TCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCAATAGAGACGCTGATGAACATCTTCCA

GGAAACATCTCTGAATCATTGTAAGAGTATCGGTC'TTCTCAATGACGGCTTTGGTCGTACTCCTGAGAT

GTGTAAGAGGGACCTCATTTGGGTGGTTACGAAAATTCAGGTCGAGGTGAATCGCTATCCTACTTGGG

GTGATACTATTGAGGTCAATACTTGGGTCTCAGAGTCGGGGAAAAACGGTATGGGTCGTGATTGGCTG

ATAAGCGATTGCCGTACCGGAGAAATTCTTATAAGAGCAACGAGCGTGTGGGCTATGATGAATCGAA

AGACGAGAAGATTGTCAAAATTTCCATATGAGGTTCGACAGGAGATAGCGCCTCATTTTGTGGACTCT

GCTCCTGTCATTGAAGACGATAAAAAATTGCACAAGCTTGATGTTAAGACGGGTGATTCCATTCGCAA

GGGTCTAACTCCAAGGTGGAATGACTTGGATGTCAATCAGCACGTTAACAATGTGAAGTACATTGGGT

GGATTCTCAAGAGTGTTCCAGCAGAAGTTTTCGAGACCCAGGAGCTATGCGGAGTCACCCTTGAGTAC

AGGCGGGAATGTGGAAGGGACAGTGTGCTGGAGTCCGTGACCGCTATGGATACCGCAAAAGAGGGAG

ACCGGTCTCTGTACCAGCACCTTCTTCGGCTTGAGGATGGGGCTGATATCACCATAGGCAGAACCGAG

TGGCGGCCGAAGAATGCAGGAGCCAATGGGGCAATATCAACAGGAAAGACTTCAAATGAAAACTCTG

TCTCTTAG

SEQ ID NO: 42

Cuphea heterophylla (Cht) FATBla coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCTCCGTGCCCACCCCCGGCACCTCCACCAAGCCCGGC

AACTTCGGCAACTGGCCCTCCTCCCTGTCCGTGCCCTTCAAGCCCGAGTCCAACCACAACGGCGGCTTC

CGCGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC

CCTGGAGACCCAGGAGGACACCTCCTCCTCCTCCCCCCCCCCCCGCACCTTCATCAAGCAGCTGCCCG

ACTGGGGCATGCTGCTGTCCAAGATCACCACCGTGTTCGGCGCCGCCGAGCGCCAGTGGAAGCGCCCC

GGCATGCTGGTGGAGCCCTTCGGCGTGGACCGCATCTTCCAGGACGGCGTGTTCTTCCGCCAGTCCTTC

TCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACCCTGATGAACATCTTCCA

GGAGACCTCCCTGAACCACTGCAAGTCCATCGGCCTGCTGAACGACGGCTTCGGCCGCACCCCCGAGA

TGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATCCAGGTGGAGGTGAACCGCTACCCCACCTGG

GGCGACACCATCGAGGTGAACACCTGGGTGTCCGAGTCCGGCAAGAACGGCATGGGCCGCGACTGGC

TGATCTCCGACTGCCGCACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTGGGCCATGATGAACCGC

AAGACCCGCCGCCTGTCCAAGTTCCCCTACGAGGTGCGCCAGGAGATCGCCCCCCACTTCGTGGACTC

CGCCCCCGTGATCGAGGACGACAAGAAGCTGCACAAGCTGGACGTGAAGACCGGCGACTCCATCCGC

AAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGAACAACGTGAAGTACATCG

GCTGGATCCTGAAGTCCGTGCCCGCCGAGGTGTTCGAGACCCAGGAGCTGTGCGGCGTGACCCTGGAG

TACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGCCATGGACACCGCCAAGGAGG

GCGACCGCTCCCTGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCCGACATCACCATCGGCCGCACC

GAGTGGCGCCCCAAGAACGCCGGCGCCAACGGCGCCATCTCCACCGGCAAGACCTCCAACGAGAACT

CCGTGTCCTGA

SEQ ID NO: 43

Cuphea heterophylla (Cht) FATB1b (P16S, T20P, G94S, G105W, S293F, L305F

variant) amino acid sequence

MVAAAASSAFFSVPTSGTSPKPGNFGNWPSSLSVPFKPESSHNGGFQVKANASAHPKANGSAVNLKSGSLE

TQEDTSSSSPPPRTFIKQLPDWSMLLSKITTVFWAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSFSIRSYEI

GADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNTWV

SESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDDKKLHKL

DVKTGDFIRKGLTPRWNDFDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSVLESVTA

MDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGAISTGKTSNENSVS*

SEQ ID NO: 44

Cuphea heterophylla (Cht) FATB1b(P16S, T20P, G94S, G105W, S293F, L305F

variant) coding DNA sequence

ATGGTGGCTGCCGCAGCAAGTTCTGCATTCTTCTCCGTTCCAACCTCGGGAACCTCCCCTAAACCCGGG

AACTTCGGCAATTGGCCATCGAGCTTGAGCGTCCCCTTCAAGCCCGAATCAAGCCACAATGGTGGCTT

TCAGGTCAAGGCAAACGCCAGTGCCCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCA

GCCTCGAGACTCAGGAGGACACTTCATCGTCGTCCCCTCCTCCTCGGACTTTTATTAAGCAGTTGCCCG

ACTGGAGTATGCTTCTGTCCAAAATCACGACTGTCTTCTGGGCGGCTGAGAGGCAGTGGAAGAGGCCC

GGCATGCTTGTGGAACCGTTTGGGGTTGACAGGATTTTTCAGGATGGGGTTTTTTTCAGACAGAGTTTT

TCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCAATAGAGACGCTGATGAACATCTTCCA

GGAAACATCTCTGAATCATTGTAAGAGTATCGGTCTTCTCAATGACGGCTTTGGTCGTACTCCTGAGAT

GTGTAAGAGGGACCTCATTTGGGTGGTTACGAAAATTCAGGTCGAGGTGAATCGCTATCCTACTTGGG

GTGATACTATTGAGGTCAATACTTGGGTCTCAGAGTCGGGGAAAAACGGTATGGGTCGTGATTGGCTG

ATAAGCGATTGCCGTACCGGAGAAATTCTTATAAGAGCAACGAGCGTGTGGGCTATGATGAATCGAA

AGACGAGAAGATTGTCAAAATTTCCATATGAGGTTCGACAGGAGATAGCGCCTCATTTTGTGGACTCT

GCTCCTGTCATTGAAGACGATAAAAAATTGCACAAGCTTGATGTTAAGACGGGTGATTTCATTCGCAA

GGGTCTAACTCCAAGGTGGAATGACTTTGATGTCAATCAGCACGTTAACAATGTGAAGTACATTGGGT

GGATTCTCAAGAGTGTTCCAGCAGAAGTTTTCGAGACCCAGGAGCTATGCGGAGTCACCCTTGAGTAT

AGGCGGGAATGTGGAAGGGACAGTGTGCTGGAGTCCGTGACCGCTATGGATACCGCAAAAGAGGGAG

ACCGGTCTCTGTACCAGCACCTTCTTCGGCTTGAGGATGGGGCTGATATCACCATAGGCAGAACCGAG

TGGCGGCCGAAGAATGCAGGAGCCAATGGGGCAATATCAACAGGAAAGACTTCAAATGAAAACTCTG

TCTCTTAG

SEQ ID NO: 45

Cuphea heterophylla (Cht) FATBlb (P16S, T20P, G94S, G105W, S293F, L305F

variant) coding DNA sequence codon optimized for Prototheca moriformis

ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCTCCGTGCCCACCTCCGGCACCTCCCCCAAGCCCGGC

AACTTCGGCAACTGGCCCTCCTCCCTGTCCGTGCCCTTCAAGCCCGAGTCCTCCCACAACGGCGGCTTC

CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC

CCTGGAGACCCAGGAGGACACCTCCTCCTCCTCCCCCCCCCCCCGCACCTTCATCAAGCAGCTGCCCG

ACTGGTCCATGCTGCTGTCCAAGATCACCACCGTGTTCTGGGCCGCCGAGCGCCAGTGGAAGCGCCCC

GGCATGCTGGTGGAGCCCTTCGGCGTGGACCGCATCTTCCAGGACGGCGTGTTCTTCCGCCAGTCCTTC

TCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACCCTGATGAACATCTTCCA

GGAGACCTCCCTGAACCACTGCAAGTCCATCGGCCTGCTGAACGACGGCTTCGGCCGCACCCCCGAGA

TGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATCCAGGTGGAGGTGAACCGCTACCCCACCTGG

GGCGACACCATCGAGGTGAACACCTGGGTGTCCGAGTCCGGCAAGAACGGCATGGGCCGCGACTGGC

TGATCTCCGACTGCCGCACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTGGGCCATGATGAACCGC

AAGACCCGCCGCCTGTCCAAGTTCCCCTACGAGGTGCGCCAGGAGATCGCCCCCCACTTCGTGGACTC

CGCCCCCGTGATCGAGGACGACAAGAAGCTGCACAAGCTGGACGTGAAGACCGGCGACTTCATCCGC

AAGGGCCTGACCCCCCGCTGGAACGACTTCGACGTGAACCAGCACGTGAACAACGTGAAGTACATCG

GCTGGATCCTGAAGTCCGTGCCCGCCGAGGTGTTCGAGACCCAGGAGCTGTGCGGCGTGACCCTGGAG

TACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGCCATGGACACCGCCAAGGAGG

GCGACCGCTCCCTGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCCGACATCACCATCGGCCGCACC

GAGTGGCGCCCCAAGAACGCCGGCGCCAACGGCGCCATCTCCACCGGCAAGACCTCCAACGAGAACT

CCGTGTCCTGA

SEQ ID NO: 46

Cuphea heterophylla (Cht) FATB2b amino acid sequence

MVVAAAASSAFFPVPASGTSPKPGIUGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVSLKSGSL

NTQEGTSSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQLTMLDRKSKKPDIvIHVDWFGLEIIVQDGLVFRE

SFSIRSYEIGADRTASIETLMNELQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQ1MVNRYPTWG

DTVEINSWFSQSGKIGMGRNWLISDCNTGEILTRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVDAPPVIE

DNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKY1GWILESMPKEVLDTQELCSLTLEYRRECGR

DSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS*

SEQ ID NO: 47

Cuphea heterophylla (Cht) FATB2b coding DNA sequence

ATGGTGGTGGCTGCTGCAGCAAGCTCTGCATTCTTCCCTGTTCCGGCATCTGGAACCTCCCCTAAACCC

GGGAAGTTCGGGACTTGGCTATCGAGCTCGAGCCCTTCCTACAAGCCCAAGTCAAACCCCAGTGGTGG

ATTTCAGGTTAAGGCAAATGCCAGTGCTCATCCTAAGGCTAACGGTTCCGCAGTAAGTCTAAAGTCTG

GCAGCCTCAACACTCAGGAGGGCACTTCGTCGTCCCCTCCTCCTCGGACTTTCCTTAACCAGTTGCCTG

ATTGGAGTAGGCTTCGGACTGCAATCACGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC

GATCGAAAGTCTAAGAAGCCTGACATGCACGTGGACTGGTTTGGGTTGGAGATTATTGTTCAGGATGG

GCTCGTGTTCAGAGAGAGTTTTTCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATAG

AAACGTTGATGAACCATTTGCAGGACACATCTTTGAACCATTGTAAGAGTGTGGGTCTTCTCAATGAC

GGCTTTGGTCGTACCCCGGAGATGTGTAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCAT

GGTGAATCGCTATCCAACTTGGGGCGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA

TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC

ATTTGGGCCATGATGAATCAAAAGACGAGAAGATTCTCAAAACTTCCAAACGAGGTTCGCCAGGAGA

TAGCGCCTCATTTTGTGGACGCCCCTCCTGTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATG

TGAAGACTGGTGATTCCATTTGC'AAGGGTCTAACACCGGAGTGGAATGACTTGGATGTCAATCAGCAC

GTAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAAAAGAAGTTTTGGACACCCAGG

AGCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGATAGTGTGCTGGAGTCTGTGACC

GCTATGGATCCCTCAAAAGTTGGAGACCGATCTCAGTACCAGCACCTTCTGCGGCTTGAAGATGGGAC

TGATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCTATATCAACA

GGAAAGACTTCAAATGGAAACTCGGTCTCTTAG

SEQ ID NO: 48

Cuphea heterophylla (Cht) FATB2b coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCTCCGGCACCTCCCCCAAGCCC

GGCAAGTTCGGCACCTGGCTGTCCTCCTCCTCCCCCTCCTACAAGCCCAAGTCCAACCCCTCCGGCGGC

TTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGG

CTCCCTGAACACCCAGGAGGGCACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCCGA

CTGGTCCCGCCTGCGCACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCTGG

ACCGCAAGTCCAAGAAGCCCGACATGCACGTGGACTGGTTCGGCCTGGAGATCATCGTGCAGGACGG

CCTGGTGTTCCGCGAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGA

GACCCTGATGAACCACCTGCAGGACACCTCCCTGAACCACTGCAAGTCCGTGGGCCTGCTGAACGACG

GCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCATG

GTGAACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGAT

CGGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCA

TCTGGGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAGATC

GCCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGT

GAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCGAGTGGAACGACCTGGACGTGAACCAGCAC

GTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCAAGGAGGTGCTGGACACCCAGGA

GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCG

CCATGGACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCACC

GACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCG

GCAAGACCTCCAACGGCAACTCCGTGTCCTGA

SEQ ID NO: 49

Cuphea heterophylla (Cht) FATB2a (S17P, P21S, T28N, L30P, S33L, G76D,

S78P, G137W variant) amino acid sequence

MVVAAAASSAFFPVPAPGTTSKPGKFGNWPSSLSPSFKPKSNPNGGFQVKANASAHPKANGSAVSLKSGSL

NTKEDTPSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQLTMLDRKSKKPDMHVDWFGLEIIVQDWLVFRE

SFS1RSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVNRYPTWG

DTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVDAPPLIE

DNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYRRECGR

DSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS*

SEQ ID NO: 50

Cuphea heterophylla (Cht) FATB2a (S17P, P21S, T28N, L30P, S33L, G76D,

S78P, G137W variant) coding DNA sequence

ATGGTGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGTTCCAGCACCTGGAACCACGTCTAAACCC

GGGAAGTTCGGCAATTGGCCATCGAGCTTGAGCCCTTCCTTCAAGCCCAAGTCAAACCCCAATGGTGG

ATTTCAGGTTAAGGCAAATGCCAGCGCTCATCCTAAGGCTAACGGGTCTGCAGTAAGTCTAAAGTCTG

GCAGCCTCAACACTAAGGAGGACACTCCGTCGTCCCCTCCTCCTCGGACTTTCCTTAACCAGTTGCCTG

ATTGGAGTAGGCTTCGGACTGCAATCACGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC

GATCGAAAGTCTAAGAAGCCTGACATGCACGTGGACTGGTTTGGGTTGGAGATTATTGTTCAGGATTG

GCTCGTGTTCAGAGAGAGTTTTTCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATAG

AAACGTTGATGAACCATTTGCAGGACACATCTTTGAACCATTGTAAGAGTGTGGGTCTTCTCAATGAC

GGCTTTGGTCGTACCCCGGAGATGTGTAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCAT

GGTGAATCGCTATCCAACTTGGGGCGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA

TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC

ATTTGGGCCATGATGAATCAAAAGACGAGAAGATTCTCAAAACTTCCAAACGAGGTTCGCCAGGAGA

TAGCTCCTCATTTTGTGGACGCCCCTCCTCTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATG

TGAAGACTGGTGATTCCATTTGCAAGGGTCTAACACCGGAGTGGAATGACTTGGATGTCAATCAGCAC

GTAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAAAAGAAGTTTTGGACACCCAGG

AGCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCTGTGACC

GCTATGGATCCCTCAAAAGTTGGAGACCGATCTCAGTACCAGCACCTTCTGCGGCTTGAAGATGGGAC

TGATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCGATATCAACA

GGAAAGACTTCAAATGGAAACTCGGTCTCTTAG

SEQ ID NO: 51

Cuphea heterophylla (Cht) FATB2a (S17P, P21S, T28N, L30P, S33L, G76D,

S78P, G137W variant) coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCACCTCCAAGCCC

GGCAAGTTCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGCCCAAGTCCAACCCCAACGGCGG

CTTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCG

GCTCCCTGAACACCAAGGAGGACACCCCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCC

GACTGGTCCCGCCTGCGCACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCT

GGACCGCAAGTCCAAGAAGCCCGACATGCACGTGGACTGGTTCGGCCTGGAGATCATCGTGCAGGAC

TGGCTGGTGTTCCGCGAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATC

GAGACCCTGATGAACCACCTGCAGGACACCTCCCTGAACCACTGCAAGTCCGTGGGCCTGCTGAACGA

CGGCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCA

TGGTGAACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACTCCTGG'TTCTCCCAGTCCGGCAAG

ATCGGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTC

CATCTGGGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAG

ATCGCCCCCCACTTCGTGGACGCCCCCCCCCTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGA

CGTGAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCGAGTGGAACGACCTGGACGTGAACCAG

CACGTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCAAGGAGGTGCTGGACACCCA

GGAGCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGA

CCGCCATGGACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGC

ACCGACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCA

CCGGCAAGACCTCCAACGGCAACTCCGTGTCCTGA

SEQ ID NO: 52

Cuphea heterophylla (Cht) FATB2c (G76D, S78P variant) amino acid sequence

MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVSLKSGSL

NTKEDTPSSPPPRTFLNQLPDWNRLRTAITTVFVAAEKQLTMLDRKSKKPDMHVDWFGLEIIVQDGLVFRE

SFSIRSYEIGADRIASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLIKMQIMVNRYPTWG

DTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVDAPPVIE

DNDRKIHKFDVKTGDSICKGLIPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYRRECGR

DSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS*

SEQ ID NO: 53

Cuphea heterophylla (Cht) FATB2c (G76D, S78P variant) coding DNA sequence

ATGGTGGTGGCTGCTGCAGCAAGCTCTGCATTCTTCCCTGTTCCGGCATCTGGAACCTCCCCTAAACCC

GGGAAGTTCGGGACTTGGCTATCGAGCTCGAGCCCTTCCTACAAGCCCAAGTCAAACCCCAGTGGTGG

ATTTCAGGTTAAGGCAAATGCCAGTGCTCATCCTAAGGCTAACGGTTCCGCAGTAAGTCTAAAGTCTG

GCAGCCTCAACACTAAGGAGGACACTCCGTCGTCCCCTCCTCCTCGGACTTTCCTTAACCAGTTGCCTG

ATTGGAATAGGCTTCGGACTGCAATCACGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC

GATCGAAAGTCTAAGAAGCCTGACATGCACGTGGACTGGTTTGGGTTGGAGATTATTGTTCAGGATGG

GCTCGTGTTCAGAGAGAGTTTTTCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATAG

AAACGTTGATGAACCATTTGCAGGACACATCTTTGAACCATTGTAAGAGTGTGGGTMCTCAATGAC

GGCTTTGGTCGTACCCCGGAGATGTGTAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCAT

GGTGAATCGCTATCCAACTTGGGGCGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA

TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC

ATTTGGGCCATGATGAATCAAAAGACGAGAAGATTCTCAAAACTTCCAAACGAGGTTCGCCAGGAGA

TAGCGCCTCATTTTGTGGACGCCCCTCCTGTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATG

TGAAGACTGGTGATTCCATTTGCAAGGGTCTAACACCGGAGTGGAATGACTTGGATGTCAATCAGCAC

GTAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAAAAGAAGTTTTGGACACCCAGG

AGCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCTGTGACC

GCTATGGATCCCTCAAAAGTTGGGGACCGATCTCAGTACCAGCACCTTCTGCGGCTTGAAGATGGGAC

TGATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCTATATCAACA

GGAAAGACTTCAAATGGAAACTCGGTCTCTTAG

SEQ ID NO: 54

Cuphea heterophylla (Cht) FATB2c (G76D, S78P variant) coding DNA sequence

codon optimized for Prototheca moriformis

ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCTCCGGCACCTCCCCCAAGCCC

GGCAAGTTCGGCACCTGGCTGTCCTCCTCCTCCCCCTCCTACAAGCCCAAGTCCAACCCCTCCGGCGGC

TTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGG

CTCCCTGAACACCAAGGAGGACACCCCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCCG

ACTGGAACCGCCTGCGCACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCTG

GACCGCAAGTCCAAGAAGCCCGACATGCACGTGGACTGGTTCGGCCTGGAGATCATCGTGCAGGACG

GCCTGGTGTTCCGCGAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCG

AGACCCTGATGAACCACCTGCAGGACACCTCCCTGAACCACTGCAAGTCCGTGGGCCTGCTGAACGAC

GGCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCAT

GGTGAACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGA

TCGGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCC

ATCTGGGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAGAT

CGCCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACG

TGAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCGAGTGGAACGACCTGGACGTGAACCAGCA

CGTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCAAGGAGGTGCTGGACACCCAGG

AGCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACC

GCCATGGACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCAC

CGACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACC

GGCAAGACCTCCAACGGCAACTCCGTGTCCTGA

SEQ ID NO: 55

Cuphea heterophylla (Cht) FATB2d (S21P, T28N, L30P, S33L, G76D, R97L,

H124L, W127L, I132S, K258N, C303R, E309G, K334T, T386A variant)

amino acid sequence

MVVAAAASSAFFPVPAPGTTSKPGKFGNWPSSLSPSFKPKSNPNGGFQVKANASAHPKANGSAVSLKSGSL

NTQEDTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRICSKRPDMLVDLFGLESIVQDGLVFRES

YSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVNRYPTWG

DTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQNTRRFSKLPNEVRQEIAPHFVDAPPVIE

DNDRKLFfKIDVKTGDSIRKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYRRECGR

ESVLESVTAMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS*

SEQ ID NO: 56

Cuphea heterophylla (Cht) FATB2d (S21P, T28N, L30P, S33L, G76D, R97L,

H124L, W127L, I132S, K258N, C303R, E309G, K334T, T386A variant) coding

DNA sequence

ATGGTGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGTTCCAGCACCTGGAACCACGTCTAAACCC

GGGAAGTTCGGCAATTGGCCATCGAGCTTGAGCCCTTCCTTCAAGCCCAAGTCAAACCCCAATGGTGG

ATTTCAGGTTAAGGCAAATGCCAGTGCTCATCCTAAGGCTAACGGTTCTGCGGTAAGTCTAAAGTCTG

GCAGCCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGACATTCCTTAACCAGTTGCCTG

ATTGGAGTAGGCTTCTGACTGCAATCTCGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC

GATCGAAAATCTAAGAGGCCTGACATGCTCGTGGACTTGTTTGGGTTGGAGAGTATTGTTCAGGATGG

GCTCGTGTTCAGAGAGAGTTATTCGATCAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATAG

AAACGTTGATGAACCATTTGCAGGACACATCTTTGAACCATTGTAAGAGTGTGGGTCTTCTCAATGAC

GGCTTTGGTCGTACCCCGGAGATGTGTAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCAT

GGTGAATCGCTATCCAACTTGGGGCGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA

TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC

ATTTGGGCCATGATGAATCAAAATACGAGAAGATTCTCAAAACTTCCAAACGAGGTTCGCCAGGAGAT

AGCGCCTCATTTTGTTGACGCTCCTCCTGTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATGT

GAAGACTGGTGATTCCATTCGCAAGGGTCTAACTCCGGGGTGGAATGACTTGGATGTCAATCAGCACG

TAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAACAGAAGTTTTGGAGACCCAGGA

GCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGAAAGTGTGCTGGAGTCCGTGACCG

CTATGAATCCCTCAAAAGTTGGAGACCGGTCTCAGTACCAGCACCTTCTACGGCTTGAGGATGGGGCT

GATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCGATATCAACAG

GAAAGACTTCAAATGGAAACTCGGTCTCTTAG

SEQ ID NO: 57

Cuphea heterophylla (Cht) FATB2d (S21P, T28N, L30P, S33L, G76D, R97L,

H124L, W127L, I132S, K258N, C303R, E309G, K334T, T386A variant) coding

DNA sequence codon optimized for Prototheca moriformis

ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCACCTCCAAGCCC

GGCAAGTTCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGCCCAAGTCCAACCCCAACGGCGG

CTTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCG

GCTCCCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCCG

ACTGGTCCCGCCTGCTGACCGCCATCTCCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCTG

GACCGCAAGTCCAAGCGCCCCGACATGCTGGTGGACCTGTTCGGCCTGGAGTCCATCGTGCAGGACGG

CCTGGTGTTCCGCGAGTCCTACTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGA

GACCCTGATGAACCACCTGCAGGACACCTCCCTGAACCACTGCAAGTCCGTGGGCCTGCTGAACGACG

GCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCATG

GTGAACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGAT

CGGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCA

TCTGGGCCATGATGAACCAGAACACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAGATC

GCCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGT

GAAGACCGGCGACTCCATCCGCAAGGGCCTGACCCCCGGCTGGAACGACCTGGACGTGAACCAGCAC

GTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCACCGAGGTGCTGGAGACCCAGGA

GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCGTGACCG

CCATGAACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCC

GACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCG

GCAAGACCTCCAACGGCAACTCCGTGTCCTGA

SEQ ID NO: 58

Cuphea heterophylla (Cht) FATB2e (G76D, R97L, H124L, I132S, G152S, H165L,

T211N, K258N, C303R, E309G, K334T, T386A variant) amino acid sequence

MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVSLKSGSL

NTQEDTSSSPPPQTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQDGLVFRE

SYSIRSYEISADRTASIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNRYPNWG

DTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQNTRRFSKLPNEVRQEIAPHFVDAPPVIE

DNDRKLHKFDVKTGDSIRKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYRRECGR

DSVLESVTAMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS*

SEQ ID NO: 59

Cuphea heterophylla (Cht) FATB2e (G76D, R97L, H124L, I132S, G152S, H165L,

T211N, K258N, C303R, E309G, K334T, T386A variant) coding DNA sequence

ATGGTGGTGGCTGCTGCAGCAAGCTCTGCATTCTTCCCTUTTCCGGCATCTGGAACCTCCCCTAAACCC

GGGAAGTTCGGGACTTGGCTATCGAGCTCGAGCCCTTCCTACAAGCCCAAGTCAAACCCCAGTGGTGG

ATTTCAGGTTAAGGCAAATGCCAGTGCTCATCCTAAGGCTAACGGTTCTGCAGTAAGTCTAAAGTCTG

GCAGCCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCAGACATTCCTTAACCAGTTGCCTG

ATTGGAGTAGGCTTCTGACAGCAATCTCGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC

GATCGAAAATCTAAAAGGCCTGACATGCTCGTGGACTGGTTTGGGTTGGAGAGTATTGTTCAGGATGG

GCTCGTGTTCAGAGAGAGTTATTCGATCAGGTCTTACGAAATAAGCGCTGATCGAACAGCCTCTATAG

AGACGGTGATGAACCTCTTGCAGGAAACATCTCTCAATCATTGTAAGAGTATGGGTATTCTCAATGAC

GGCTTTGGTCGTACCCCGGAGATGTGCAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCTT

GGTGAATCGCTATCCAAATTGGGGTGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA

TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC

ATTTGGGCCATGATGAATCAAAATACGAGAAGATTCTCAAAACTTCCAAACGAGGTTCGCCAGGAGAT

AGCGCCTCATTTTGTTGACGCTCCTCCTGTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATGT

GAAGACTGGTGATTCCATTCGCAAGGGTCTAACTCCGGGGTGGAATGACTTGGATGTCAATCAGCACG

TAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAACAGAAGTTTTGGAGACCCAGGA

GCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCCGTGACCG

CTATGAATCCCTCAAAAGTTGGAGACCGGTCTCAGTACCAGCACCTTCTACGGCTTGAGGATGGGGCT

GATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCGATATCAACAG

GAAAGACTTCAAATGGAAACTCGGTCTCTTAG

SEQ ID NO: 60

Cuphea heterophylla (Cht) FATB2e (G76D, R97L, H124L, I132S, G152S, H165L,

T211N, K258N, C303R, E309G, K334T, T386A variant) coding DNA sequence

codon optimized for Prototheca moriformis

ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCTCCGGCACCTCCCCCAAGCCC

GGCAAGTTCGGCACCTGGCTGTCCTCCTCCTCCCCCTCCTACAAGCCCAAGTCCAACCCCTCCGGCGGC

TTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGG

CTCCCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCAGACCTTCCTGAACCAGCTGCCCGA

CTGGTCCCGCCTGCTGACCGCCATCTCCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCTGG

ACCGCAAGTCCAAGCGCCCCGACATGCTGGTGGACTGGTTCGGCCTGGAGTCCATCGTGCAGGACGGC

CTGGTGTTCCGCGAGTCCTACTCCATCCGCTCCTACGAGATCTCCGCCGACCGCACCGCCTCCATCGAG

ACCGTGATGAACCTGCTGCAGGAGACCTCCCTGAACCACTGCAAGTCCATGGGCATCCTGAACGACGG

CTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCCTGG

TGAACCGCTACCCCAACTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGATC

GGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCAT

CTGGGCCATGATGAACCAGAACACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAGATCG

CCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGTG

AAGACCGGCGACTCCATCCGCAAGGGCCTGACCCCCGGCTGGAACGACCTGGACGTGAACCAGCACG

TGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCACCGAGGTGCTGGAGACCCAGGAG

CTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGC

CATGAACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCGCCG

ACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCGG

CAAGACCTCCAACGGCAACTCCGTGTCCTGA

SEQ ID NO: 61

Cuphea heterophylla (Cht) FATB2f (R97L, H124L, I132S, G152S, H165L, T211N

variant) amino acid sequence

MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAFIPKANGSAVSLKSGSL

NTQEGTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQDGLVFRES

YSIRSYEISADRTASIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNRYPNWGD

TVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVDAPPVIED

NDRKLHKFDVKTGDSICKGLIPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYRRECGRD

SVLESVTAMDPSKyGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS*

SEQ ID NO: 62

Cuphea heterophylla (Cht) FATB2f (R97L, H124L, I132S, G152S, H165L, T211N

variant) coding DNA sequence

ATGGTGGTGGCTGCTGCAGCAAGCTCTGCATTCTTCCCTGTTCCGGCATCTGGAACCTCCCCTAAACCC

GGGAAGTTCGGGACTTGGCTATCGAGCTCGAGCCCTTCCTACAAGCCCAAGTCAAACCCCAGTGGTGG

ATTTCAGGTTAAAGCAAATGCCAGTGCTCATCCTAAGGCTAACGGTTCCGCAGTAAGTCTAAAGTCTG

GCAGCCTCAACACTCAGGAGGGCACTTCGTCGTCCCCTCCTCCTCGGACATTCCTTAACCAGTTGCCTG

ATTGGAGTAGGCTTCTGACTGCAATCTCGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC

GATCGAAAATCTAAGAGGCCTGACATGCTCGTGGACTGGTTTGGGTTGGAGAGTATTGTTCAGGATGG

GCTCGTGTTCAGAGAGAGTTATTCGATCAGGTCTTACGAAATAAGCGCTGATCGAACAGCCTCTATAG

AGACGGTGATGAACCTCTTGCAGGAAACATCTCTCAATCATTGTAAGAGTATGGGTATTCTCAATGAC

GGCTTTGGTCGTACCCCGGAGATGTGCAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCTT

GGTGAATCGCTATCCAAATTGGGGTGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA

TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC

ATTTGGGCCATGATGAATCAAAAGACGAGAAGATTCTCAAAACTTCCAAATGAGGTTCGCCAGGAGAT

AGCGCCTCATTTTGTGGACGCCCCTCCTGTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATGT

GAAGACTGGTGATTCCATTTGCAAGGGTCTAACACCGGAGTGGAACGACTTGGATGTCAATCAGCACG

TAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAAAAGAAGTTTTGGACACCCAGGA

GCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCTGTGACCG

CTATGGATCCCTCAAAAGTTGGAGACCGATCTCAGTACCAGCACCTTCTGCGGCTTGAAGATGGGACT

GATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCGATATCAACAG

GAAAGACTTCAAATGGAAACTCGGTCTCTTAG

SEQ ID NO: 63

Cuphea heterophylla (Cht) FATB2f (R97L, H124L, I132S, G152S, H165L, T211N

variant) coding DNA sequence codon optimized for Prototheca moriformis

ATGGTGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCTCCGGCACCTCCCCCAAGCCC

GGCAAGTTCGGCACCTGGCTGTCCTCCTCCTCCCCCTCCTACAAGCCCAAGTCCAACCCCTCCGGCGGC

TTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGG

CTCCCTGAACACCCAGGAGGGCACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCCGA

CTGGTCCCGCCTGCTGACCGCCATCTCCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCTGG

ACCGCAAGTCCAAGCGCCCCGACATGCTGGTGGACTGGTTCGGCCTGGAGTCCATCGTGCAGGACGGC

CTGGTGTTCCGCGAGTCCTACTCCATCCGCTCCTACGAGATCTCCGCCGACCGCACCGCCTCCATCGAG

ACCGTGATGAACCTGCTGCAGGAGACCTCCCTGAACCACTGCAAGTCCATGGGCATCCTGAACGACGG

CTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCCTGG

TGAACCGCTACCCCAACTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGATC

GGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCAT

CTGGGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAGATC

GCCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGT

GAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCGAGTGGAACGACCTGGACGTGAACCAGCAC

GTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCAAGGAGGTGCTGGACACCCAGGA

GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCG

CCATGGACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCACC

GACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCG

GCAAGACCTCCAACGGCAACTCCGTGTCCTGA

SEQ ID NO: 64

Cuphea heterophylla (Cht) FATB2g (A6T, A16V, S17P, G76D, R97L, H124L,

I132S, S143I, G152S, A157T, H165L, T211N, G414A variant) amino acid

sequence

MVVAATASSAFFPVPVPGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVSLKSGSL

NTQEDTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQDGLVFREI

YSIRSYEISADRTTSIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNRYPNWGD

TVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVDAPPVIED

NDRKLHKFDVKTGDSICKGLTFEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYRRECGRD

SVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGINGAISTGKTSNANSVS*

SEQ ID NO: 65

Cuphea heterophylla (Cht) FATB2g (A6T, A16V, S17P, G76D, R97L, H124L,

I132S, S143I, G152S, A157T, H165L, T211N, G414A variant) coding DNA

sequence

ATGGTGGTGGCTGCTACAGCAAGTTCTGCATTCTTCCCTGTTCCTGTACCTGGAACCTCCCCTAAACCC

GGAAAGTTCGGGACTTGGCTATCGAGCTCGAGCCCTTCCTACAAGCCCAAGTCAAACCCCAGTGGTGG

ATTTCAGGTTAAGGCAAATGCCAM'CiCTCATCCTAAGGCTAACGGTTCTGCAGTAAGTCTAAAGTCTG

GCAGCCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGACATTCCTTAACCAGTTGCCTG

ATTGGAGTAGGCTTCTGACTGCAATCTCGACCGTCTTCGTGGCGGCAGAGAAGCAGTTGACTATGCTC

GATCGAAAATCTAAGAGGCCTGACATGCTCGTGGACTGGTTTGGGTTGGAGAGTATTGTTCAGGATGG

GCTCGTGTTCAGAGAGATTTATTCGATCAGGTCTTACGAAATAAGCGCTGATCGAACAACCTCTATAG

AGACGGTGATGAACCTCTTGCAGGAAACATCTCTCAATCATTGTAAGAGTATGGGTATTCTCAATGAC

GGCTTTGGTCGTACCCCGGAGATGTGCAAAAGGGACCTCATTTGGGTGCTTACAAAAATGCAGATCTT

GGTGAATCGCTATCCAAATTGGGGTGATACTGTCGAGATCAATAGCTGGTTCTCCCAGTCCGGGAAAA

TCGGTATGGGTCGCAATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGC

ATTTGGGCCATGATGAATCAAAAGACGAGAAGATTCTCAAAACTTCCAAACGAGGTTCGCCAGGAGA

TAGCGCCTCATTTTGTGGACGCCCCTCCTGTCATTGAAGACAATGATCGAAAATTGCATAAGTTTGATG

TGAAGACTGGTGATTCCATTTGCAAGGGTCTAACACCGGAGTGGAATGACTTGGATGTCAATCAGCAC

GTAAGCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAAAAGAAGTTTTGGACACCCAGG

AGCTATGCTCTCTCACCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCTGTGACC

GCTATGGATCCCTCAAAAGTTGGAGACCGATCTCAGTACCAGCACCTTCTGCGGCTTGAAGATGGGAC

TGATATCATGAAGGGCAGAACTGAGTGGCGACCAAAGAATGCAGGAACCAACGGGGCGATATCAACA

GGAAAGACTTCAAATGCAAACTCGGTCTCTTAG

SEQ ID NO: 66

Cuphea heterophylla (Cht) FATB2g (A6T, A16V, S17P, G76D, R97L, H124L,

I132S, S143I, G152S, AI57T, H165L, T211N, G414A variant) coding DNA

sequence codon optimized for Prototheca moriformis

ATGGTGGTGGCCGCCACCGCCTCCTCCGCCTTCTTCCCCGTGCCCGTGCCCGGCACCTCCCCCAAGCCC

GGCAAGTTCGGCACCTGGCTGTCCTCCTCCTCCCCCTCCTACAAGCCCAAGTCCAACCCCTCCGGCGGC

TTCCAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGG

CTCCCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGAACCAGCTGCCCGA

CTGGTCCCGCCTGCTGACCGCCATCTCCACCGTGTTCGTGGCCGCCGAGAAGCAGCTGACCATGCTGG

ACCGCAAGTCCAAGCGCCCCGACATGCTGGTGGACTGGTTCGGCCTGGAGTCCATCGTGCAGGACGGC

CTGGTGTTCCGCGAGATCTACTCCATCCGCTCCTACGAGATCTCCGCCGACCGCACCACCTCCATCGAG

ACCGTGATGAACCTGCTGCAGGAGACCTCCCTGAACCACTGCAAGTCCATGGGCATCCTGAACGACGG

CTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGCTGACCAAGATGCAGATCCTGG

TGAACCGCTACCCCAACTGGGGCGACACCGTGGAGATCAACTCCTGGTTCTCCCAGTCCGGCAAGATC

GGCATGGGCCGCAACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCAT

CTGGGCCATGATGAACCAGAAGACCCGCCGCTTCTCCAAGCTGCCCAACGAGGTGCGCCAGGAGATC

GCCCCCCACTTCGTGGACGCCCCCCCCGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGT

GAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCGAGTGGAACGACCTGGACGTGAACCAGCAC

GTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCAAGGAGGTGCTGGACACCCAGGA

GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCG

CCATGGACCCCTCCAAGGTGGGCGACCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCACC

GACATCATGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCG

GCAAGACCTCCAACGCCAACTCCGTGTCCTGA

SEQ ID NO: 67

Cuphea heterophylla (Cht) FATB3aamino acid sequence

MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKEVANAGLQVKANASAPPKINGSSVSLKSCSLKTH

EDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGLVERQNF

SIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWG

DTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHFVDSAPV

IEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECG

RESVLESLTAVDPSGKGFGPQFQHLLRIEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS*

SEQ ID NO: 68

Cuphea heterophylla (Cht) FATB3a coding DNA sequence

ATGGTGGCCACCGCTGCAAGTTCTGCATTCTTCCCGGTGCCGTCCCCGGACACCTCCTCTAGACCGGGA

AAGCTCGGAAATGGGTCATCAAGCTTGAGGCCCCTCAAGCCCAAATTTGTTGCCAATGCTGGGCTGCA

GGTTAAGGCAAACGCCAGTGCCCCTCCTAAGATCAATGGTTCCTCGGTCAGTCTAAAGTCTTGCAGTCT

CAAGACTCATGAAGACACTCCTTCAGCTCCTCCTCCGCGGACTTTTATCAACCAGTTGCCTGATTGGAG

CATGCTTCTTGCTGCAATCACTACTGTCTTCTTGGCAGCAGAGAAGCAGTGGATGATGCTTGATTGGAA

ACCAAAGAGGCCTGACATGCTTGTGGACCCGTTCGGATTGGGAAGGATTGTTCAGGATGGGCTTGTGT

TCAGGCAGAATTTTTCGATTAGGTCCTATGAAATAGGCGCTGATCGCACTGCATCCATAGAGACGGTG

ATGAACCACTTGCAGGAAACGGCTCTCAATCATGTTAAGAGTGCGGGGCTTCTTAATGAAGGCTTTGG

TCGTACTCCTGAGATGTATAAAAGGGACCTTATTTGGGTTGTCGCGAAAATGCAGGTCATGGTTAACC

GCTATCCTACTTGGGGTGACACGGTTGAAGTGAATACTTGGGTTGCCAAGTCAGGGAAAAATGGTATG

CGTCGTGATTGGCTCATAAGTGATTGCAATACAGGAGAAATTCTTACAAGGGCATCAAGTGTGTGGGT

CATGATGAATCAAAAGACAAGAAAATTGTCAAAGATTCCAGATGAGGTTCGGCATGAGATAGAGCCT

CATTTTGTGGACTCTGCTCCCGTCATTGAAGACGATGACTGGAAACTTCCCAAGCTGGATGAGAAAAC

TGCTGACTCCATCCGCAAGGGTCTAACTCCGAAGTGGAATGACTTGGATGTCAATCAGCACGTCAACA

ACGTGAAGTACATTGGGTGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTATGT

TCCCTTACCCTGGAATACAGGCGGGAATGCGGAAGGGAGAGTGTGCTGGAGTCCCTCACTGCTGTGGA

CCCCTCTGGAAAGGGCTTTGGGCCCCAGTTTCAGCACCTTCTGAGGCTTGAGGATGGAGGTGAGATCG

TAAAGGGGAGAACTGAGTGGCGACCCAAGACTGCAGGTATCAATGGGACGATTGCATCTGGGGAGAC

CTCACCTGGAAACTCTTAG

SEQ ID NO: 69

Cuphea heterophylla (Cht) FATB3a coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCCCCGACACCTCCTCCCGCCCCGGC

AAGCTGGGCAACGGCTCCTCCTCCCTGCGCCCCCTGAAGCCCAAGTTCGTGGCCAACGCCGGCCTGCA

GGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGTCCCTGAAGTCCTGCTCCCT

GAAGACCCACGAGGACACCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACTGGT

CCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGACTGG

AAGCCCAAGCGCCCCGACATGCTGGTGGACCCMCGGCCTGGGCCGCATCGTGCAGGACGGCCTGGT

GTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACCG

TGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGTCCGCCGGCCTGCTGAACGAGGGCTTC

GGCCGCACCCCCGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGGTGA

ACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAACGG

CATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCGTGT

GGGTGATGATGAACCAGAAGACCCGCAAGCTGTCCAAGATCCCCGACGAGGTGCGCCACGAGATCGA

GCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACGACGACTGGAAGCTGCCCAAGCTGGACGAGA

AGACCGCCGACTCCATCCGCAAGGGCCTGACCCCCAAGTGGAACGACCTGGACGTGAACCAGCACGT

GAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGAG

CTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCGC

CGTGGACCCCTCCGGCAAGGGCTTCGGCCCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGCG

AGATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGACCGCCGGCATCAACGGCACCATCGCCTCCGG

CGAGACCTCCCCCGGCAACTCCTGA

SEQ ID NO: 70

Cuphea heterophylla (Cht) FATB3b (C67G, H72Q, L128F, N179I variant) amino

acid sequence

MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPK1NGSSVSLKSGSLKTQ

EDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGFGRIVQDGLVFRQNF

SIRSYEIGADRTASIETVMNHLQETALNTIVKSAGLLIEGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWGD

TVEVNTWVAKSGKNGIARRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHFVDSAPVI

EDDDWKLPKIDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECG

RESVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS*

SEQ ID NO: 71

Cuphea heterophylla (Cht) FATB3b (C67G, H72Q, L128F, N179I variant)

coding DNA sequence

ATGGTGGCCACCGCTGCAAGTTCTGCATTCTTCCCGGTGCCATCCCCGGACACCTCCTCTAGACCGGGA

AAGCTCGGAAATGGGTCATCAAGCTTGAGGCCCCTCAAGCCCAAATTTGTTGCCAATGCTGGGCTGCA

GGTTAAGGCAAACGCCAGTGCCCCTCCTAAGATCAATGGTTCCTCGGTCAGTCTAAAGTCTGGCAGTC

TCAAGACTCAGGAAGACACTCCTTCGGCTCCTCCTCCGCGGACTTTTATCAACCAGTTGCCTGATTGGA

GCATGCTTCTTGCTGCAATCACTACTGTCTTCTTGGCAGCAGAGAAGCAGTGGATGATGCTTGATTGGA

AACCAAAGAGGCCTGACATGCTTGTGGACCCGTTCGGATTTGGAAGGATTGTTCAGGATGGGCTTGTG

TTCAGGCAGAATTTTTCGATTAGGTCCTATGAAATAGGCGCTGATCGCACTGCATCTATAGAGACGGT

GATGAACCACTTGCAGGAAACGGCTCTCAATCATGTTAAGAGTGCGGGGCTTCTTATTGAAGGCTTTG

GTCGTACTCCTGAGATGTATAAAAGGGACCTTATTTGGGTTGTCGCGAAAATGCAGGTCATGGTTAAC

CGCTATCCTACTTGGGGTGACACGGTTGAAGTGAATACTTGGGTTGCCAAGTCAGGGAAAAATGGTAT

GCGTCGTGATTGGCTCATAAGTGATTGCAATACAGGAGAAATTCTTACTAGAGCATCAAGTGTGTGGG

TCATGATGAATCAAAAGACAAGAAAATTGTCAAAGATTCCAGATGAGGTTCGGCATGAGATAGAGCC

TCATTTTGTGGACTCTGCTCCCGTCATTGAAGACGATGACTGGAAACTTCCCAAGCTGGATGAGAAAA

CTGCTGACTCCATCCGCAAGGGTCTAACTCCGAAGTGGAATGACTTGGATGTCAATCAGCACGTCAAC

AACGTGAAGTACATTGGGTGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTATG

TTCCCTTACCCTGGAATACAGGCGGGAATGCGGAAGGGAGAGTGTGCTGGAGTCCCTCACTGCTGTGG

ACCCCTCTGGAAAGGGCTTTGGGCCCCAGTTTCAGCACCTTCTGAGGCTTGAGGATGGAGGTGAGATC

GTAAAGGGGAGAACTGAGTGGCGACCCAAGACTGCAGGTATCAATGGGACGATTGCATCTGGGGAGA

CCTCACCTGGAAACTCTTAG

SEQ ID NO: 72

Cuphea heterophylla (Cht) FATB3b (C67G, H72Q, L128F, N179I variant)

coding DNA sequence codon optimized for Prototheca moriformis

ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCCCCGACACCTCCTCCCGCCCCGGC

AAGCTGGGCAACGGCTCCTCCTCCCTGCGCCCCCTGAAGCCCAAGTTCGTGGCCAACGCCGGCCTGCA

GGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGTCCCTGAAGTCCGGCTCCC

TGAAGACCCAGGAGGACACCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACTGG

TCCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGACTG

GAAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCTTCGGCCGCATCGTGCAGGACGGCCTGG

TGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC

GTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGTCCGCCGGCCTGCTGATCGAGGGCTT

CGGCCGCACCCCEGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGGTG

AACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAACG

GCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCGTG

TGGGTGATGATGAACCAGAAGACCCGCAAGCTGTCCAAGATCCCCGACGAGGTGCGCCACGAGATCG

AGCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACGACGACTGGAAGCTGCCCAAGCTGGACGAG

AAGACCGCCGACTCCATCCGCAAGGGCCTGACCCCCAAGTGGAACGACCTGGACGTGAACCAGCACG

TGAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGA

GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCG

CCGTGGACCCCTCCGGCAAGGGCTTCGGCCCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGC

GAGATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGACCGCCGGCATCAACGGCACCATCGCCTCCG

GCGAGACCTCCCCCGGCAACTCCTGA

SEQ ID NO: 73

Cuphea viscosissima (Cvis) FATB1 amino acid sequence

MVAAAATSAFFPVPAPGTSPKPGKSGNWPSSLSPTFKPKSIPNGGFQVKANASAHPKANGSAVNLKSGSLN

TQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKSIVRDGLVSRHS

FSIRSYEIGADRTASIETLMNHLQETTINHCKSLGLHNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPTWGD

TVEINTWFSQSGKIGMASDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIED

NDQKLRKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGMD

SVLESVTAVDPSENGGRSQYKHLLRLEDGTDIVKSRTEWRPKNAGINGAISTSTAKTSNGNSVS

SEQ ID NO: 74

Cuphea viscosissima (Cvis) FATB1 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCGCCGCCGCCACCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCTCCCCCAAGCCCGGC

AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCACCTTCAAGCCCAAGTCCATCCCCAACGGCGGCTTC

CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC

CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG

GTCCATGCTGCTGACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGGACC

GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGTCCATCGTGCGCGACGGCCTG

GTGTCCCGCCACTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC

CTGATGAACCACCTGCAGGAGACCACCATCAACCACTGCAAGTCCCTGGGCCTGCACAACGACGGCTT

CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA

ACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCAGTCCGGCAAGATCGGC

ATGGCCTCCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG

GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC

CCCACTTCGTGGACTCCCCCCACGTGATCGAGGACAACGACCAGAAGCTGCGCAAGTTCGACGTGAAG

ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGTC

CAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCATCGAGGTGCTGGAGACCCAGGAGCTGT

GCTCCCTGACCGTGGAGTACCGCCGCGAGTGCGGCATGGACTCCGTGCTGGAGTCCGTGACCGCCGTG

GACCCCTCCGAGAACGGCGGCCGCTCCCAGTACAAGCACCTGCTGCGCCTGGAGGACGGCACCGACA

TCGTGAAGTCCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCTCCACC

GCCAAGACCTCCAACGGCAACTCCGTGTCCTGA

SEQ ID NO: 75

Cuphea viscosissima (Cvis) FATB2 amino acid sequence

MVATAASSAFFPVPSADTSSRPGKLGNGPSSFSPLKPKSIPNGGLQVKASASAPPKINGSSVGLKSGGLKTH

DDAPSAPPPRTFINQLPDWSMLLAAITTAFLAAEKQWMMLDRKPKRLDMLEDPFGLGRVVQDGLVFRQNF

SIRSYEIGADRTASIETVMNHLQETALNHVKTAGLSNDGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWG

DTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRREIEPHFVDSAPV

IEDDDRKLPKLDEKSADSIRKGLTPRWNDLDVNQHVNNAKYIGWILESTPPEVLETQELCSLTLEYRRECGR

ESVLESLTAVDPSGEGYGSQFQHLLRLEDGGEIVKGRTEWRPKNAGINGVVPSEESSPGDYS

SEQ ID NO: 76

Cuphea viscosissima (Cvis) FATB2 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCGCCGACACCTCCTCCCGCCCCGGC

AAGCTGGGCAACGGCCCCTCCTCCTTCTCCCCCCTGAAGCCCAAGTCCATCCCCAACGGCGGCCTGCA

GGTGAAGGCCTCCGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGGGCCTGAAGTCCGGCGGCC

TGAAGACCCACGACGACGCCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACTGG

TCCATGCTGCTGGCCGCCATCACCACCGCCTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGACCG

CAAGCCCAAGCGCCTGGACATGCTGGAGGACCCCTTCGGCCTGGGCCGCGTGGTGCAGGACGGCCTG

GTGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGAC

CGTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGACCGCCGGCCTGTCCAACGACGGC

TTCGGCCGCACCCCCGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGGT

GAACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAAC

GGCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCGT

GTGGGTGATGATGAACCAGAAGACCCGCAAGCTGTCCAAGATCCCCGACGAGGTGCGCCGCGAGATC

GAGCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACGACGACCGCAAGCTGCCCAAGCTGGACGA

GAAGTCCGCCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCAC

GTGAACAACGCCAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGG

AGCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACC

GCCGTGGACCCCTCCGGCGAGGGCTACGGCTCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGG

CGAGATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCATCAACGGCGTGGTGCCCTCC

GAGGAGTCCTCCCCCGGCGACTACTCCTGA

SEQ ID NO: 77

Cuphea viscosissima (Cvis) FATB3 amino acid sequence

MVAAAASSAFFSFPTPGTSPKPGKFGNWPSSLSIPFNPKSNHNGGIQVKANASAHPKANGSAVSLKAGSLET

QEDTSSPSPPPRTFISQLPDWSMLVSAITTVFVAAEKQWTMLDRKSKRPDVLVEPFVQDGVSFRQSFSIRSYE

IGVDRTASIETLMNIFQETSLNHCKSLGLLNDGFGRTPEMCKRDLIWVVTKMQIEVNRYPTWGDTIEVTTW

VSESGKNGMSRDWLISDCHSGEILIRATSVWAMMNQKTRRLSKIPDEVRQEIVPYFVDSAPVIEDDRKLHK

LDVKTGDSIRNGLTPRWNDFDVNQHVNNVKYIAWLLKSVPTEVFETQELCGLTLEYRRECRRDSVLESVT

AMDPSKEGDRSLYQHLLRLENGADIALGRTEWRPKNAGATGAVSTGKTSNGNSVS

SEQ ID NO: 78

Cuphea viscosissima (Cvis) FATB3 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCTCCTTCCCCACCCCCGGCACCTCCCCCAAGCCCGGC

AAGTTCGGCAACTGGCCCTCCTCCCTGTCCATCCCCTTVAACCCCAAGTCCAACCACAACGGCGGCATC

CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGGCCGGCTC

CCTGGAGACCCAGGAGGACACCTCCTCCCCCTCCCCCCCCCCCCGCACCTTCATCTCCCAGCTGCCCGA

CTGGTCCATGCTGGTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGG

ACCGCAAGTCCAAGCGCCCCGACGTGCTGGTGGAGCCCTTCGTGCAGGACGGCGTGTCCTTCCGCCAG

TCCTTCTCCATCCGCTCCTACGAGATCGGCGTGGACCGCACCGCCTCCATCGAGACCCTGATGAACATC

TTCCAGGAGACCTCCCTGAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTTCGGCCGCACCCC

CGAGATGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATGCAGATCGAGGTGAACCGCTACCCC

ACCTGGGGCGACACCATCGAGGTGACCACCTGGGTGTCCGAGTCCGGCAAGAACGGCATGTCCCGCG

ACTGGCTGATCTCCGACTGCCACTCCGGCGAGATCCTGATCCGCGCCACCTCCGTGTGGGCCATGATG

AACCAGAAGACCCGCCGCCTGTCCAAGATCCCCGACGAGGTGCGCCAGGAGATCGTGCCCTACTTCGT

GGACTCCGCCCCCGTGATCGAGGACGACCGCAAGCTGCACAAGCTGGACGTGAAGACCGGCGACTCC

ATCCGCAACGGCCTGACCCCCCGCTGGAACGACTTCGACGTGAACCAGCACGTGAACAACGTGAAGT

ACATCGCCTGGCTGCTGAAGTCCGTGCCCACCGAGGTGTTCGAGACCCAGGAGCTGTGCGGCCTGACC

CTGGAGTACCGCCGCGAGTGCCGCCGCGACTCCGTGCTGGAGTCCGTGACCGCCATGGACCCCTCCAA

GGAGGGCGACCGCTCCCTGTACCAGCACCTGCTGCGCCTGGAGAACGGCGCCGACATCGCCCTGGGCC

GCACCGAGTGGCGCCCCAAGAACGCCGGCGCCACCGGCGCCGTGTCCACCGGCAAGACCTCCAACGG

CAACTCCGTGTCCTGA

SEQ ID NO: 79

Cuphea calcarata (Ccalc) FATB1 amino acid sequence

MVAASASSAFFSVPTPGTSPKPGKFGNWPSSLSVPFKPRSNNSGGFQVKANASAHPKANGSAVSLKSGSLE

TQEDNSSSSRPPRTFIKQLPDWSMLLSAITTVFVAAEKQWTMFDRKSKRSDMLVDPFVVDRIVQDGVLFRQ

SFSFRSYEIGADRTASIETLIVINIFQETSLNECKSMGLLYEGFGRTPEMCKRDLIWVVTKIHIKVNRYPTWGD

TIEVITWVSESGKNGMGRDWLISDCHTGEILIRATSVWAMMNQTTRRLSKFPYELRQEIAPHFVDSDPVIED

NRRLLNFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFDTRELCGLTLEYRQECGRGS

VLESVTAMDPSKEGDRSLYQHLLRLEDGTDIVKGRTEWRPKNAGINGPVSTRKTTNGSSVS

SEQ ID NO: 80

Cuphea calcarata (Ccalc) FATB1 coding DNA sequence

ATGGTGGCTGCTTCAGCAAGTTCTGCATTCTTCTCCGTCCCAACCCCGGGAACCTCTCCTAAACCCGGG

AAGTTCGGCAATTGGCCATCGAGCTTGAGCGTCCCATTCAAGCCCAGATCAAACAACAGTGGCGGCTT

TCAGGTTAAGGCAAACGCCAGTGCTCATCCTAAGGCTAACGGTTCTGCAGTAAGTCTAAAGTCTGGGA

GCCTCGAGACTCAGGAGGACAATTCGTCGTCGTCTCGTCCTCCTCGGACTTCATTAAACAGTTGCCGG

ACTGGAGTATGCTTCTTTCCGCGATCACAACCGTCTTCGTGGCGGCTGAGAAGCAGTGGACGATGTTT

GATCGGAAATCTAAGAGGTCTGACATGCTCGTGGACCCGTTTGTGGTTGACAGGATTGTTCAGGATGG

GGTTCTGTTCAGACAGAGTTTTTCGATTAGGTCTTACGAAATAGGCGCTGATCGAACAGCCTCTATTGA

GACGCTGATGAACATCTTCCAGGAAACATCTCTCAATCATTGTAAGAGTATGGGTCTTCTCTATGAAG

GCTTTGGTCGTACTCCTGAGATGTGTAAGAGGGACCTCATTTGGGTGGTTACGAAAATACATATCAAG

GTGAATCGCTATCCGACTTGGGGTGATACTATCGAGGTCACTACTTGGGTCTCCGAGTCGGGCAAAAA

CGGTATGGGTCGCGATTGGCTGATAAGTGATTGCCATACAGGAGAAATTCTTATAAGAGCAACGAGTG

TGTGGGCTATGATGAATCAAACGACGAGAAGATTGTCGAAATTTCCATATGAGCTTCGACAGGAGATA

GCGCCACATT'TTGTGGACTCGGATCCTGTCATTGAAGACAATCGAAGATTGCTCAACTTTGATGTGAA

GACGGGTGATTCCATTCGCAAGGGTCTAACTCCAAGGTGGAATGACTTGGATGTCAATCAGCACGTTA

ACAATGTGAAGTACATTGGGTGGATTCTCGAGAGTGTTCCAACAGAAGTTTTCGATACCCGGGAGCTA

TGCGGCCTCACCCTTGAGTATAGGCAGGAATGCGGAAGAGGAAGTGTGCTGGAGTCCGTGACCGCTAT

GGATCCCTCAAAAGAGGGAGACCGGTCTCTGTACCAGCACCTTCTTCGGCTTGAGGATGGGACTGATA

TCGTGAAGGGCAGAACCGAGTGGCGGCCAAAGAATGCAGGAACCAATGGGCCAGTATCAACAAGAA

AGACTACAAATGGAAGCTCAGTCTCTTAG

SEQ ID NO: 81

Cuphea calcarata (Ccalc) FATB1 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCGCCTCCGCCTCCTCCGCCTTCTTCTCCGTGCCCACCCCCGGCACCTCCCCCAAGCCCGGC

AAGTTCGGCAACTGGCCCTCCTCCCTGTCCGTGCCCTTCAAGCCCCGCTCCAACAACTCCGGCGGCTTC

CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGGCTC

CCTGGAGACCCAGGAGGACAACTCCTCCTCCTCCCGCCCCCCCCGCACCTTCATCAAGCAGCTGCCCG

ACTGGTCCATGCTGCTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGTTC

GACCGCAAGTCCAAGCGCTCCGACATGCTGGTGGACCCCTTCGTGGTGGACCGCATCGTGCAGGACGG

CGTGCTGTTCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGA

GACCCTGATGAACATCTTCCAGGAGACCTCCCTGAACCACTGCAAGTCCATGGGCCTGCTGTACGAGG

GCTTCGGCCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATCCACATCAAG

GTGAACCGCTACCCCACCTGGGGCGACACCATCGAGGTGACCACCTGGGTGTCCGAGTCCGGCAAGA

ACGGCATGGGCCGCGACTGGCTGATCTCCGACTGCCACACCGGCGAGATCCTGATCCGCGCCACCTCC

GTGTGGGCCATGATGAACCAGACCACCCGCCGCCTGTCCAAGTTCCCCTACGAGCTGCGCCAGGAGAT

CGCCCCCCACTTCGTGGACTCCGACCCCGTGATCGAGGACAACCGCCGCCTGCTGAACTTCGACGTGA

AGACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGT

GAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCGTGCCCACCGAGGTGTTCGACACCCGCGAGC

TGTGCGGCCTGACCCTGGAGTACCGCCAGGAGTGCGGCCGCGGCTCCGTGCTGGAGTCCGTGACCGCC

ATGGACCCCTCCAAGGAGGGCGACCGCTCCCTGTACCAGCACCTGCTGCGCCTGGAGGACGGCACCGA

CATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCCCCGTGTCCACCCGC

AAGACCACCAACGGCTCCTCCGTGTCCTGA

SEQ ID NO: 82

Cuphea painteri (Cpai) FATB1 amino acid sequence

MVAAAATSAFFPVPAPGTSPNPRKFGSWPSSLSPSLPKSIPNGGFQVKANASAHPKANGSAVSLKSGSLNTQ

ENTSSSPPPRTFLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLVDLFGLESSVQDALVFRQSFSIRS

YEIGTDRTASIETLMNHLQETSLNHCKSTGILLDGFGRTLEMCKRELIWVVIKMQIQVNRYPAWGDTVEINT

RFSRLGKIGMGRDWLISDCNTGEILIRATSEYAMMNQKTRRLSKLPYEVHQEIAPLFVDSPPVIEDNDLKVH

KFEVKTGDSIQKGLSPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLESVT

AMDPSKVGGRSQYQHLLRLEDGTAIVNGITEWRPKNAGANGAISTGKTSNGNSVS

SEQ ID NO: 83

Cuphea painteri (Cpai) FATB1 coding DNA sequence

ATGGTGGCTGCTGCAGCAACTTCTGCATTCTTCCCTGTTCCAGCCCCGGGAACCTCCCCAAATCCCAGG

AAATTCGGAAGTTGGCCATCGAGCTTGAGCCCTTCCTTGCCCAAGTCAATCCCCAATGGCGGATTTCA

GGTAAAGGCAAATGCCAGTGCCCATCCGAAGGCTAACGGTTCTGCAGTTAGTCTAAAGTCTGGCAGCC

TCAACACTCAGGAGAACACTTCGTCGTCCCCTCCTCCTCGGACTTTCCrTCACCAGTTGCCTGATTGGA

GTAGGCTTCTGACTGCAATCACGACCGTGTTCGTGAAATCTAAGAGGCCTGACATGCATGATCGGAAA

TCTAAGAGGCCTGACATGCTGGTGGACTTGTTTGGGTTGGAAAGTAGTGTTCAGGATGCGCTCGTGTTC

AGACAGAGTTTTTCGATTAGGTCTTATGAAATAGGCACTGATCGAACAGCCTCTATAGAGACGCTGAT

GAACCACTTGCAGGAAACATCTCTCAATCATTGTAAAAGTACCGGTATTCTCCTTGACGGCTTCGGTCG

TACTCTTGAGATGTGTAAAAGGGAACTCATTTGGGTGGTAATAAAAATGCAAATTCAGGTGAATCGCT

ATCCAGCATGGGGCGATACTGTCGAGATCAATACCCGGTTCTCCCGGTTGGGGAAAATTGGTATGGGT

CGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTAATAAGAGCAACGAGCGAGTATGCCA

TGATGAATCAAAAGACGAGAAGACTCTCAAAACTTCCATACGAGGTTCACCAGGAGATAGCGCCTCTT

TTTGTCGACTCTCCTCCTGTGATTGAAGACAATGATCTGAAAGTGCATAAATTTGAAGTGAAGACTGGT

GATTCCATTCAAAAGGGTCTATCCCCGGGGTGGAATGACTTGGATGTCAATCAGCACGTAAGCAACGT

GAAGTACATTGGGTGGATTCTCGAGAGTATGCCAACAGAAGTTTTGGAGACCCAGGAGCTATGCTCTC

TCGCCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTGGAGTCCGTGACCGCAATGGATCCC

TCAAAAGTTGGAGGCCGTTCTCAGTACCAGCACCTTCTGCGGCTTGAGGATGGGACTGCTATCGTGAA

CGGCATAACTGAGTGGCGGCCGAAGAATGCAGGAGCTAATGGGGCGATATCAACGGGAAAGACTTCA

AATGGAAACTCGGTCTCTTAG

SEQ ID NO: 84

Cuphea painteri (Cpai) FATB1 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCGCCGCCGCCACCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCTCCCCCAACCCCCGC

AAGTTCGGCTCCTGGCCCTCCTCCCTGTCCCCCTCCCTGCCCAAGTCCATCCCCAACGGCGGCTTCCAG

GTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGGCTCCCT

GAACACCCAGGAGAACACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGCACCAGCTGCCCGACTGGTC

CCGCCTGCTGACCGCCATCACCACCGTGTTCGTGAAGTCCAAGCGCCCCGACATGCACGACCGCAAGT

CCAAGCGCCCCGACATGCTGGTGGACCTGTTCGGCCTGGAGTCCTCCGTGCAGGACGCCCTGGTGTTC

CGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCACCGACCGCACCGCCTCCATCGAGACCCTGATG

AACCACCTGCAGGAGACCTCCCTGAACCACTGCAAGTCCACCGGCATCCTGCTGGACGGCTTCGGCCG

CACCCTGGAGATGTGCAAGCGCGAGCTGATCTGGGTGGTGATCAAGATGCAGATCCAGGTGAACCGCT

ACCCCGCCTGGGGCGACACCGTGGAGATCAACACCCGCTTCTCCCGCCTGGGCAAGATCGGCATGGGC

CGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGAGTACGCCAT

GATGAACCAGAAGACCCGCCGCCTGTCCAAGCTGCCCTACGAGGTGCACCAGGAGATCGCCCCCCTGT

TCGTGGACTCCCCCCCCGTGATCGAGGACAACGACCTGAAGGTGCACAAGTTCGAGGTGAAGACCGG

CGACTCCATCCAGAAGGGCCTGTCCCCCGGCTGGAACGACCTGGACGTGAACCAGCACGTGTCCAACG

TGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCACCGAGGTGCTGGAGACCCAGGAGCTGTGCTCC

CTGGCCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGCCATGGACCC

CTCCAAGGTGGGCGGCCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCACCGCCATCGTGA

ACGGCATCACCGAGTGGCGCCCCAAGAACGCCGGCGCCAACGGCGCCATCTCCACCGGCAAGACCTC

CAACGGCAACTCCGTGTCCTGA

SEQ ID NO: 85

Cuphea hookeriana (Chook) FATB4 amino acid sequence

MVAAAATSAFFPVPAPGTSPNPRKFGSWPSSLSPSLPNSIPNGGFQVKANASAHPKANGSAVSLKSGSLNTQ

ENTSSSPPPRTFLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLVDLFGLESSVQDALVFRQRFSIR

SYEIGTDRTASMETLMNHLQETSLNHCKSTGILLDGFGRTLEMCKRELIWVVIKMQIQVNRYPAWGDTVEI

NTRFSRLGKIGMGRDWLISDCNTGEILIRATSEYAMMNQKTRRLSKLPYEVRQEIAPLFVDSPPVIEDNDLK

VHKFEVKTGDSIHKGLTPGWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGRESVLES

LTAMDPSGGGYGSQFQFILLRLEDGGEIVKGRTEWRPKNGVINGVVPTGESSPGDYS

SEQ ID NO: 86

Cuphea hookeriana (Chook) FATB4 coding DNA sequence

ATGGTGGCTGCTGCAGCAACTTCTGCATTCTTCCCTGTTCCAGCCCCGGGAACCTCCCCTAATCCCAGG

AAATTCGGAAGTTGGCCATCGAGCTTGAGCCCTTCCTTGCCCAACTCAATCCCCAATGGCGGATTTCAG

GTAAAGGCAAATGCCAGTGCCCATCCGAAGGCTAACGGTTCTGCAGTTAGTCTAAAGTCTGGCAGCCT

CAACACTCAGGAGAACACTTCGTCGTCCCCTCCTCCTCGGACTTTCCTTCACCAGTTGCCTGATTGGAG

TAGGCTTCTGACTGCAATCACGACCGTGTTCGTGAAATCTAAGAGGCCTGACATGCATGATCGGAAAT

CTAAGAGGCCTGACATGCTGGTGGACTTGTTTGGGTTGGAGAGTAGTGTTCAGGATGCGCTCGTGTTC

AGACAGAGATTTTCGATTAGGTCTTATGAAATAGGCACTGATCGAACAGCCTCTATGGAGACGCTGAT

GAACCACTTGCAGGAAACATCTCTCAATCATTGTAAAAGTACCGGTATTCTCCTTGACGGCTTCGGTCG

TACTCTTGAGATGTGTAAAAGGGAACTCATTTGGGTGGTAATAAAAATGCAGATTCAGGTGAATCGCT

ATCCAGCATGGGGCGATACTGTCGAGATCAATACCCGGTTCTCCCGGTTGGGGAAAATTGGTATGGGT

CGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGAGTATGCCAT

GATGAATCAAAAGACGAGAAGACTCTCAAAACTTCCATACGAGGTTCGCCAGGAGATAGCGCCTCTTT

TTGTCGACTCTCCTCCTGTGATTGAAGACAATGATCTGAAAGTGCATAAATTTGAAGTGAAGACTGGT

GATTCCATTCACAAGGGTCTAACTCCGGGGTGGAATGACTTGGATGTCAATCAGCACGTCAACAACGT

GAAGTACATCGGGTGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTATGTTCCC

TTACTCTGGAATACAGGCGGGAATGTGGAAGGGAGAGCGTGCTGGAGTCCCTCACTGCTATGGATCCC

TCTGGAGGGGGTTATGGGTCCCAGTTTCAGCACCTTCTGCGGCTTGAGGATGGAGGTGAGATCGTGAA

GGGGAGAACCGAGTGGCGACCCAAGAATGGTGTAATCAATGGGGTGGTACCAACCGGGGAGTCCTCA

CCTGGAGACTACTCTTAG

SEQ ID NO: 87

Cuphea hookeriana (Chook) FATB4 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCGCCGCCGCCACCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCTCCCCCAACCCCCGC

AAGTTCGGCTCCTGGCCCTCCTCCCTGTCCCCCTCCCTGCCCAACTCCATCCCCAACGGCGGCTTCCAG

GTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGGCTCCCT

GAACACCCAGGAGAACACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGCACCAGCTGCCCGACTGGTC

CCGCCTGCTGACCGCCATCACCACCGTGTTCGTGAAGTCCAAGCGCCCCGACATGCACGACCGCAAGT

CCAAGCGCCCCGACATGCTGGTGGACCTGTTCGGCCTGGAGTCCTCCGTGCAGGACGCCCTGGTGTTC

CGCCAGCGCTTCTCCATCCGCTCCTACGAGATCGGCACCGACCGCACCGCCTCCATGGAGACCCTGAT

GAACCACCTGCAGGAGACCTCCCTGAACCACTGCAAGTCCACCGGCATCCTGCTGGACGGCTTCGGCC

GCACCCTGGAGATGTGCAAGCGCGAGCTGATCTGGGTGGTGATCAAGATGCAGATCCAGGTGAACCG

CTACCCCGCCTGGGGCGACACCGTGGAGATCAACACCCGCTTCTCCCGCCTGGGCAAGATCGGCATGG

GCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGAGTACGCC

ATGATGAACCAGAAGACCCGCCGCCTGTCCAAGCTGCCCTACGAGGTGCGCCAGGAGATCGCCCCCCT

GTTCGTGGACTCCCCCCCCGTGATCGAGGACAACGACCTGAAGGTGCACAAGTTCGAGGTGAAGACCG

GCGACTCCATCCACAAGGGCCTGACCCCCGGCTGGAACGACCTGGACGTGAACCAGCACGTGAACAA

CGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGAGCTGTGCT

CCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCGCCATGGAC

CCCTCCGGCGGCGGCTACGGCTCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGCGAGATCGT

GAAGGGCCGCACCGAGTGGCGCCCCAAGAACGGCGTGATCAACGGCGTGGTGCCCACCGGCGAGTCC

TCCCCCGGCGACTACTCCTGA

SEQ ID NO: 88

Cuphea avigera var. pulcherrima (Ca) FATB1 amino acid sequence

MVAAAASSAFFSVPVPGTSPKPGKFRIWPSSLSPSFKPKPIPNGGLQVKANSRAHPKANGSAVSLKSGSLNT

QEDTSSSPPPRTFLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLMDSFGLESIVQEGLEFRQSFSIR

SYEIGTDRTASIETLMNYLQETSLNHCKSTGILLDGFGRTPEMCKRDLIWVVIKMKIKVNRYPAWGDTVEI

NTWFSRLGKIGKGRDWLISDCNTGEILIRATSAYATMNQKTRRLSKLPYEVHQEIAPLFVDSPPVIEDNDLK

LHKFEVKTGDSIHKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLES

VTAMDPTKVGGRSQYQHLLRLEDGTDIVKCRTEWRPKNPGANGAISTGKTSNGNSVS

SEQ ID NO: 89

Cuphea avigera var. pulcherrima (Ca) FATB1 coding DNA sequence

ATGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCTCTGTTCCAGTCCCGGGAACCTCTCCTAAACCCGGG

AAGTTCAGAATTTGGCCATCGAGCTTGAGCCCTTCCTTCAAGCCCAAGCCGATCCCCAATGGTGGATT

GCAGGTTAAGGCAAATTCCAGGGCACATCCGAAGGCTAACGGTTCTGCAGTTAGTCTAAAGTCTGGCA

GCCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGACTTTCCTTCACCAGTTGCCTGATT

GGAGTAGGCTTCTGACTGCAATCACGACCGTGTTCGTGAAATCTAAGAGGCCTGACATGCATGATCGG

AAATCTAAGAGGCCTGACATGCTGATGGACTCGTTTGGGTTGGAGAGTATTGTTCAAGAAGGGCTCGA

GTTCAGACAGAGTTTTTCGATTAGGTCTTATGAAATAGGCACTGATCGAACAGCCTCTATAGAGACGC

TGATGAACTACTTGCAGGAAACATCTCTCAATCATTGTAAGAGTACCGGTATTCTCCTTGACGGCTTTG

GTCGTACTCCTGAGATGTGTAAAAGGGACCTCATTTGGGTGGTAACAAAAATGAAGATCAAGGTGAAT

CGCTATCCAGCTTGGGGCGATACTGTCGAGATCAATACCTGGTTCTCCCGGTTGGGGAAAATCGGAAA

GGGTCGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGCGTAT

GCCACGATGAATCAAAAGACGAGAAGACTCTCAAAACTTCCATACGAGGTTCACCAGGAGATAGCGC

CTCTCTTTGTCGACTCTCCTCCTGTCATTGAAGACAATGATCTGAAATTGCATAAGTTTGAAGTGAAGA

CTGGTGATTCCATTCACAAGGGTCTAACTCCGGGGTGGAATGACTTGGATGTCAATCAGCACGTAAGC

AACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAACAGAAGTTTTGGAGACCCAGGAGCTATG

CTCTCTCGCCCTTGAATATAGGCGGGAATGCGGAAGGGACAGTGTGCTAGAGTCCGTGACAGCTATGG

ATCCCACAAAAGTTGGAGGCCGGTCTCAGTACCAGCACCTTCTGCGACTTGAGGATGGGACTGATATC

GTGAAGTGCAGAACTGAGTGGCGGCCGAAGAATCCAGGAGCTAATGGGGCAATATCAACGGGAAAGA

CTTCAAATGGAAACTCGGTCTCTTAG

SEQ ID NO: 90

Cuphea avigera var. pulcherrima (Ca) FATB1 coding DNA sequence codon

optimized for Prototheca moriformis

ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCTCCGTGCCCGTGCCCGGCACCTCCCCCAAGCCCGGC

AAGTTCCGCATCTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGCCCAAGCCCATCCCCAACGGCGGCCTG

CAGGTGAAGGCCAACTCCCGCGCCCACCCCAAGGCCAACGGCTCCGCCGTGTCCCTGAAGTCCGGCTC

CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCACCTTCCTGCACCAGCTGCCCGACTG

GTCCCGCCTGCTGACCGCCATCACCACCGTGTTCGTGAAGTCCAAGCGCCCCGACATGCACGACCGCA

AGTCCAAGCGCCCCGACATGCTGATGGACTCCTTCGGCCTGGAGTCCATCGTGCAGGAGGGCCTGGAG

TTCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCACCGACCGCACCGCCTCCATCGAGACCCTG

ATGAACTACCTGCAGGAGACCTCCCTGAACCACTGCAAGTCCACCGGCATCCTGCTGGACGGCTTCGG

CCGCACCCCCGAGATGTGCAAGCGCGACCTGATCTGGGTGGTGACCAAGATGAAGATCAAGGTGAAC

CGCTACCCCGCCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCGCCTGGGCAAGATCGGCAA

GGGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGCCTACG

CCACCATGAACCAGAAGACCCGCCGCCTGTCCAAGCTGCCCTACGAGGTGCACCAGGAGATCGCCCCC

CTGTTCGTGGACTCCCCCCCCGTGATCGAGGACAACGACCTGAAGCTGCACAAGTTCGAGGTGAAGAC

CGGCGACTCCATCCACAAGGGCCTGACCCCCGGCTGGAACGACCTGGACGTGAACCAGCACGTGTCCA

ACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCACCGAGGTGCTGGAGACCCAGGAGCTGTGC

TCCCTGGCCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCCGTGCTGGAGTCCGTGACCGCCATGGA

CCCCACCAAGGTGGGCGGCCGCTCCCAGTACCAGCACCTGCTGCGCCTGGAGGACGGCACCGACATCG

TGAAGTGCCGCACCGAGTGGCGCCCCAAGAACCCCGGCGCCAACGGCGCCATCTCCACCGGCAAGAC

CTCCAACGGCAACTCCGTGTCC

SEQ ID NO: 91

Cuphea paucipetala (Cpau) FATB1 amino acid sequence

MVAAAASSAFFPVPAPGTSPKPGKSGNWPSSLSPSIKPMSIPNGGFQVKANASAHPKANGSAVNLKSGSLN

TQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMRDRKSKRPDMLVDSVGLKSVVLDGLVSRQ

IFSIRSYEIGADRTASIETLMNTILQETSINTICKSLGLLNDGFGRTPGMCKNDLIWVLIKMQ1MVNRYPTWGD

TVEINTWFSHSGKIGMASDWLITDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHYVDSPHVIE

DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESIVIPIEVLETQELCSLTVEYRRECGM

DSVLESVTAMDPSEDEGRSQYKHLLRLEDGTDIVKGRTEWRPKNAGTNGAISTAKPSNGNSVS

SEQ ID NO: 92

Cuphea paucipetala (Cpau) FATB1 coding DNA sequence

ATGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGTTCCAGCCCCCGGAACCTCCCCTAAACCCGGG

AAGTCCGGCAACTGGCCATCAAGCTTGAGCCCTTCCATCAAGCCCATGTCAATCCCCAATGGCGGATT

TCAGGTTAAGGCAAATGCCAGTGCCCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCA

GCCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGGCTTTCCTTAACCAGTTGCCTGATT

GGAGTATGCTTCTGACTGCAATCACGACCGTCTTCGTGGCGGCAGAGAAGCAGTGGACTATGCGTGAT

CGGAAATCTAAGAGGCCTGACATGCTCGTGGACTCGGTTGGGTTGAAGAGTGTTGTTCTGGATGGGCT

CGTGTCCAGACAGATTMTCGATTAGGTCTTATGAAATAGGCGCTGATCGAACTGCCTCTATAGAGAC

GCTGATGAACCACTTGCAGGAAACATCTATCAATCATTGTAAGAGTTTGGGTCTTCTCAATGACGGCTT

TGGTCGTACTCCTGGGATGTGTAAAAATGACCTCATTTGGGTGCTTACAAAAATGCAGATCATGGTGA

ATCGCTACCCAACTTGGGGCGATACTGTTGAGATCAATACCTGGTTCTCCCATTCGGGGAAAATTGGT

ATGGCTAGCGATTGGCTAATAACTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGTGTG

GGCCATGATGAATCAAAAGACGAGAAGATTCTCAAGACTTCCATACGAGGTTCGCCAGGAGTTAACG

CCTCATTATGTGGACTCTCCTCATGTCATTGAAGATAATGATCGGAAATTGCATAAGTTTGATGTGAAG

ACTGGTGATTCCATTCGTAAGGGTCTAACTCCGAGGTGGAATGACTTGGATGTCAATCAGCACGTAAG

CAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAATAGAAGTTTTGGAGACCCAGGAGCTAT

GCTCTCTCACCGTTGAATATAGGCGGGAATGCGGAATGGACAGTGTGCTGGAGTCCGTGACTGCTATG

GATCCCTCAGAAGATGAAGGCCGGTCTCAGTACAAGCACCTTCTGCGGCTTGAGGATGGGACTGACAT

CGTGAAGGGCAGAACTGAGTGGCGACCGAAGAATGCAGGAACTAACGGGGCGATATCAACAGCAAA

GCCTTCAAATGGAAACTCGGTCTCTTAG

SEQ ID NO: 93

Cuphea paucipetala (Cpau) FATB1 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCTCCCCCAAGCCCGGC

AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCATCAAGCCCATGTCCATCCCCAACGGCGGCTTC

CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC

CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG

GTCCATGCTGCTGACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCGCGACC

GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGTCCGTGGTGCTGGACGGCCTG

GTGTCCCGCCAGATCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC

CTGATGAACCACCTGCAGGAGACCTCCATCAACCACTGCAAGTCCCTGC1C1CCTGCTGAACGACGGCTT

CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA

ACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCACTCCGGCAAGATCGGC

ATGGCCTCCGACTGGCTGATCACCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG

GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC

CCCACTACGTGGACTCCCCCCACGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGTGAAG

ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGTC

CAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCATCGAGGTGCTGGAGACCCAGGAGCTGT

GCTCCCTGACCGTGGAGTACCGCCGCGAGTGCGGCATGGACTCCGTGCTGGAGTCCGTGACCGCCATG

GACCCCTCCGAGGACGAGGGCCGCTCCCAGTACAAGCACCTGCTGCGCCTGGAGGACGGCACCGACA

TCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCGCCAA

GCCCTCCAACGGCAACTCCGTGTCCTGA

SEQ ID NO: 94

Cuphea procumbens (Cproc) FATB1 amino acid sequence

MVAAAASSAFFPAPAPGSSPKPGKSGNWPSSLSPSFKSKSIPYGRFQVKANASAHPKANGSAVNLKSGSLN

TQEDTSSSPPPRAFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQ

SFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPAWG

DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE

DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLEAQELCSLTVEYRRECGM

DSVLESVTAVDPSEDGGRSQYNHLLRLEDGTDVVKGRTEWRPKNAETNGAISPGNTSNGNSIS

SEQ ID NO: 95

Cuphea procumbens (Cproc) FATB1 coding DNA sequence

ATGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGCTCCAGCCCCGGGATCCTCACCTAAACCCGGG

AAGTCCGGTAATTGGCCATCGAGCTTGAGCCCTTCCTTCAAGTCCAAGTCAATCCCCTATGGCCGATTT

CAGGTTAAGGCAAATGCCAGTGCCCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCAG

CCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGGCTTTCCTTAACCAGTTGCCTGATTG

GAGTATGCTTCTGTCTGCAATCACGACTGTATTCGTGGCGGCAGAGAAGCAGTGGACTATGCTTGATC

GGAAATCTAAGAGGCCTGACATGCTTGTGGACTCGGTTGGGTTGAAGAATATTGTTCGGGATGGGCTC

GTGTCCAGACAGAGTTTTTTGATTAGATCTTATGAAATAGGCGCTGATCGAACAGCTTCTATAGAGAC

ACTGATGAACCACTTGCAGGAAACATCTATCAATCATTGTAAGAGTTTGGGTCTTCTCAATGACGGCTT

TGGTCGTACTCCTGGGATGTGTAAAAACGACCTCATTTGGGTGCTTACTAAAATGCAGATCATGGTGA

ATCGCTACCCAGCTTGGGGCGATACTGTTGAGATCAATACCTGGTTCTCCCAGTCGGGGAAAATCGGT

ATGGGTAGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGTGT

GGGCCATGATGAATCAAAAAACGAGAAGATTCTCAAGACTTCCATACGAGGTTCGCCAGGAGTTAAC

GCCTCATTTTGTGGACTCTCCTCATGTCATTGAAGACAATGATCGGAAATTGCATAAGTTCGATGTGAA

GACTGGTGATTCTATTCGCAAGGGTCTAACTCCGAGGTGGAATGACTTGGATGTCAATCAGCACGTGA

GCAACGTGAAGTACATTGGGTGGATTCTCGAGAGTATGCCAATAGAAGTTTTGGAGGCCCAGGAACTA

TGCTCTCTCACCGTTGAATATAGGCGGGAATGCGGAATGGACAGTGTGCTGGAGTCCGTGACTGCTGT

AGATCCCTCAGAAGATGGAGGCCGGTCTCAGTACAATCACCTTCTGCGGCTTGAGGATGGGACTGATG

TCGTGAAGGGCAGAACTGAGTGGCGACCGAAGAATGCAGAAACTAACGGGGCGATATCACCAGGAAA

CACTTCAAATGGAAACTCGATCTCCTAG

SEQ ID NO: 96

Cuphea procumbens (Cproc) FATB1 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGCCCCCGCCCCCGGCTCCTCCCCCAAGCCCGGC

AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGTCCAAGTCCATCCCCTACGGCCGCTTC

CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC

CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG

GTCCATGCTGCTGTCCGCCATCACCACCGTGTT'CGTGGCCGCCGAGAAGCAGTGGACCATGCTGGACC

GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGAACATCGTGCGCGACGGCCTG

GTGTCCCGCCAGTCCTTCCTGATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC

CTGATGAACCACCTGCAGGAGACCTCCATCAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTT

CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA

ACCGCTACCCCGCCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCAGTCCGGCAAGATCGGC

ATGGGCTCCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG

GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC

CCCACTTCGTGGACTCCCCCCACGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGTGAAG

ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGTC

CAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCATCGAGGTGCTGGAGGCCCAGGAGCTGT

GCTCCCTGACCGTGGAGTACCGCCGCGAGTGCGGCATGGACTCCGTGCTGGAGTCCGTGACCGCCGTG

GACCCCTCCGAGGACGGCGGCCGCTCCCAGTACAACCACCTGCTGCGCCTGGAGGACGGCACCGACGT

GGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGAGACCAACGGCGCCATCTCCCCCGGCAAC

ACCTCCAACGGCAACTCCATCTCCTGA

SEQ ID NO: 97

Cuphea procumbens (Cproc) FATB2 amino acid sequence

MVAAAASSAFFPAPAPGSSPIPGKSGNWPSSLSPSFKSKSIPYGRFQVKANASAHPKANGSAVNLKSGSLN

TQEDTSSSPPPRAFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQ

SFLIRSYEIGADRTASIETLMNELQETSINHICKSLGUNDGFGRTPGMCKNDLIWVLTKMQ1MVNRYPAWG

DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE

DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRQECGRE

SVLESLTAVDPSGKGFGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGAIASGETSPGDF

SEQ ID NO: 98

Cuphea procumbens (Cproc) FATB2 coding DNA sequence

ATGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGCTCCAGCCCCGGGATCCTCACCTAAACCCGGG

AAGTCCGGTAATTGGCCATCGAGCTTGAGCCCTTCCTTCAAGTCCAAGTCAATCCCCTATGGCCGATTT

CAGGTTAAGGCAAATGCCAGTGCCCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCAG

CCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGGCTTTCCTTAACCAGTTGCCTGATTG

GAGTATGCTTCTGTCTGCAATCACGACTGTATTCGTGGCGGCAGAGAAGCAGTGGACTATGCTTGATC

GGAAATCTAAGAGGCCTGACATGCTTGTGGACTCGGTTGGGTTGAAGAATATTGTTCGGGATGGGCTC

GTGTCCAGACAGAGTTTTTTGATTAGATCTTATGAAATAGGCGCTGATCGAACAGCTTCTATAGAGAC

ACTGATGAACCACTTGCAGGAAACATCTATCAATCATTGTAAGAGTTTGGGTCTTCTCAATGACGGCTT

TGGTCGTACTCCTGGGATGTGTAAAAACGACCTCATTTGGGTGC'TTACTAAAATGCAGATCATGGTGA

ATCGCTACCCAGCTTGGGGCGATACTGTTGAGATCAATACCTGGTTCTCCCAGTCGGGGAAAATCGGT

ATGGGTAGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGTGT

GGGCCATGATGAATCAAAAAACGAGAAGATTCTCAAGACTTCCATACGAGGTTCGCCAGGAGTTAAC

GCCTCATTTTGTGGACTCTCCTCATGTCATTGAAGACAATGATCGGAAATTGCATAAGTTCGATGTGAA

GACTGGTGATTCTATTCGCAAGGGTCTAACTCCGAGGTGGAATGACTTGGATGTCAATCAGCACGTCA

ACAACGTGAAGTACATCGGGTGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTA

TGTTCCCTTACCCTGGAATACAGGCAGGAATGCGGAAGGGAGAGCGTGCTGGAGTCCCTCACTGCTGT

GGACCCCTCTGGAAAGGGCTTTGGGTCCCAGTTCCAACACCTTCTGAGGCTTGAGGATGGAGGTGAGA

TCGTGAAGGGGAGAACTGAGTGGCGACCCAAGACTGCAGGTATCAATGGGGCGATAGCATCCGGGGA

GACCTCACCTGGAGACTTTTAG

SEQ ID NO: 99

Cuphea procumbens (Cproc) FATB2 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGCCCCCGCCCCCGGCTCCTCCCCCAAGCCCGGC

AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGTCCAAGTCCATCCCCTACGGCCGCTTC

CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC

CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG

GTCCATGCTGCTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGGACC

GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGAACATCGTGCGCGACGGCCTG

GTGTCCCGCCAGTCCTTCCTGATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC

CTGATGAACCACCTGCAGGAGACCTCCATCAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTT

CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA

ACCGCTACCCCGCCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCAGTCCGGCAAGATCGGC

ATGGGCTCCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG

GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC

CCCACTTCGTGGACTCCCCCCACGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGTGAAG

ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGA

ACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGAGCTG

TGCTCCCTGACCCTGGAGTACCGCCAGGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCGCCGT

GGACCCCTCCGGCAAGGGCTTCGGCTCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGCGAGA

TCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGACCGCCGGCATCAACGGCGCCATCGCCTCCGGCGA

GACCTCCCCCGGCGACTTCTGA

SEQ ID NO: 100

Cuphea procumbens (Cproc) FATB3 amino acid sequence

MVAAAASSAFFPAPAPGSSPKPGKSGNWPSSLSPSFKSKSIPYGRFQVKANASAHPKANGSAVNLKSGSLN

TQEDTSSSPPPRAFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQ

SFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLIKMQIMVNRYPAWG

DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE

DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGRE

SVLESLTAVDPSGEGGYGSQFQHLLRLEDGGEIVKGRTEWRPKNAGINGVLPTGE*

SEQ ID NO: 101

Cuphea procumbens (Cproc) FATB3 coding DNA sequence

ATGGTGGCTGCTGCAGCAAGTTCTGCATTCTTCCCTGCTCCAGCCCCGGGATCCTCACCTAAACCCGGG

AAGTCCGGTAATTGGCCATCGAGCTTGAGCCCTTCCTTCAAGTCCAAGTCAATCCCCTATGGCCGATTT

CAGGTTAAGGCAAATGCCAGTGCCCATCCTAAGGCTAACGGTTCTGCAGTAAATCTAAAGTCTGGCAG

CCTCAACACTCAGGAGGACACTTCGTCGTCCCCTCCTCCTCGGGCTTTCCTTAACCAGTTGCCTGATTG

GAGTATGCTTCTGTCTGCAATCACGACTGTATTCGTGGCGGCAGAGAAGCAGTGGACTATGCTTGATC

GGAAATCTAAGAGGCCTGACATGCTTGTGGACTCGGTTGGGTTGAAGAATATTGTTCGGGATGGGCTC

GTGTCCAGACAGAGTTTTTTGATTAGATCTTATGAAATAGGCGCTGATCGAACAGCTTCTATAGAGAC

ACTGATGAACCACTTGCAGGAAACATCTATCAATCATTGTAAGAGTTTGGGTCTTCTCAATGACGGCTT

TGGTCGTACTCCTGGGATGTGTAAAAACGACCTCATTTGGGTGCTTACTAAAATGCAGATCATGGTGA

ATCGCTACCCAGCTTGGGGCGATACTGTTGAGATCAATACCTGGTTCTCCCAGTCGGGGAAAATCGGT

ATGGGTAGCGATTGGCTAATAAGTGATTGCAACACAGGAGAAATTCTTATAAGAGCAACGAGCGTGT

GGGCCATGATGAATCAAAAAACGAGAAGATTCTCAAGACTTCCATACGAGGTTCGCCAGGAGTTAAC

GCCTCATTTTGTGGACTCTCCTCATGTCATTGAAGACAATGATCGGAAATTGCATAAGTTCGATGTGAA

GACTGGTGATTCTATTCGCAAGGGTCTAACTCCGAGGTGGAATGACTTGGATGTCAATCAGCACGTCA

ACAACGTGAAGTACATCGGGTGGATTCTTGAGAGTACTCCACCAGAAGTTCTGGAGACCCAGGAGTTA

TGTTCCCTTACCCTGGAATACAGGCGGGAATGTGGAAGGGAGAGCGTGCTGGAGTCCCTCACTGCTGT

GGACCCCTCTGGAGAGGGGGGCTATGGATCCCAGTTTCAGCACCTTCTGCGGCTTGAGGATGGAGGTG

AGATCGTGAAGGGGAGAACTGAGTGGCGACCCAAGAATGCTGGAATCAATGGGGTGTTACCAACCGG

GGAGTAG

SEQ ID NO: 102

Cuphea procumbens (Cproc) FATB3 coding DNA sequence codon optimized for

Prototheca moriformis

ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGCCCCCGCCCCCGGCTCCTCCCCCAAGCCCGGC

AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGTCCAAGTCCATCCCCTACGGCCGCTTC

CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGGCTC

CCTGAACACCCAGGAGGACACCTCCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG

GTCCATGCTGCTGTCCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGGACC

GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGAACATCGTGCGCGACGGCCTG

GTGTCCCGCCAGTCCTTCCTGATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC

CTGATGAACCACCTGCAGGAGACCTCCATCAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTT

CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA

ACCGCTACCCCGCCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCAGTCCGGCAAGATCGGC

ATGGGCTCCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG

GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC

CCCACTTCGTGGACTCCCCCCACGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGTGAAG

ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGA

ACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGAGCTG

TGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCGCCGT

GGACCCCTCCGGCGAGGGCGGCTACGGCTCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGCG

AGATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCATCAACGGCGTGCTGCCCACCGG

CGAGTGA

SEQ ID NO: 103

Cuphea ignea (Cignea) FATB1 amino acid sequence

PGTSRKTGKFGNWPSSLSPSFKPKSIPNGGFQVKANARAHPKANGSAVSLKSVSLNTQEDTSLSPPPRAFLN

QLPDWRMLRTALTTVFVAAEKQWTMLDRKSKRPDMLVDSFGLESIVQEGLVFRQSFSIRSYEIGIDRTASIE

TLMNHLQETSLNQCKSAGILHDGFGRTLEMCKRDLIWVVIKMQIKVNRYPAWGDTVEISTRFSRLGKIGM

GRDWLICDCNTGEILIRATSAYAMMNQKTRRLSKLPNEVRQEIAPLFVDSDPVIEENDMKLHKFEVKTGDSI

CKGLTPRWSDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLESVISMDPSKVGG

WSQYQHLLRLEDGADIVKGRTEWRPKNAGANGAISTGKT

SEQ ID NO: 104

Cuphea ignea (Cignea) FATB1 coding DNA sequence

CCGGGAACCTCACGTAAAACCGGGAAGTTCGGCAATTGGCCATCAAGCTTGAGCCCTTCCTTCAAGCC

CAAGTCAATCCCCAATGGCGGATTTCAGGTTAAGGCTAATGCCAGAGCCCATCCTAAGGCTAACGGTT

CTGCAGTAAGTCTAAAGTCTGTCAGCCTCAACACTCAGGAGGACACTTCGTTGTCCCCTCCTCCTCGTG

CTTTCCTTAACCAGTTGCCTGATTGGAGGATGCTTCGGACTGCACTCACGACCGTCTTTGTGGCGGCAG

AGAAGCAGTGGACTATGCTTGATCGGAAATCTAAGAGGCCTGACATGCTCGTGGACTCGTTTGGGTTG

GAGAGTATTGTTCAAGAAGGGCTCGTGTTCAGACAGAGCTTTTCGATTAGGTCTTATGAAATAGGCAT

TGATCGAACAGCCTCTATAGAGACGCTGATGAACCACTTCTCAGGAAACATCTCTCAATCAATGTAAGA

GTGCTGGTATTCTCCATGACGGCTTCGGTCGTACTCTTGAGATGTGTAAAAGGGACCTCATTTGGGTTG

TTACGAAAATGCAGATCAAGGTGAATCGCTATCCAGCTTGGGGCGATACTGTCGAGATCAGTACCCGG

TTCTCCCGGTTGGGGAAAATCGGTATGGGTCGCGATTGGCTAATATGTGATTGCAACACAGGAGAAAT

TCTTATAAGAGCAACGAGCGCGTATGCCATGATGAATCAAAAGACGAGAAGACTCTCAAAACTTCCA

AACGAGGTTCGCCAGGAGATAGCGCCTCTTTTTGTGGACTCTGATCCTGTCATTGAAGAAAATGATAT

GAAATTGCATAAGTTTGAAGTGAAGACTGGTGATTCCATTTGCAAGGGTCTAACTCCGAGGTGGAGTG

ACTTGGATGTCAATCAGCACGTAAGCAACGTGAAGTACATAGGGTGGATTCTCGAGAGTATGCCAACA

GAAGTTTTGGAGACACAGGAGCTATGCTCTCTCGCCCTTGAATATAGGCGGGAATGCGGAAGGGACA

GTGTGCTGGAGTCTGTGACCTCTATGGATCCCTCAAAAGTTGGAGGCTGGTCTCAGTACCAGCACCTTC

TGCGACTTGAGGATGGGGCGGATATCGTGAAGGGCAGAACTGAGTGGCGGCCGAAGAATGCAGGAGC

TAACGGGGCGATATCAACAGGAAAGACTTGA

SEQ ID NO: 105

Cuphea ignea (Cignea) FATB1 coding DNA sequence codon optimized for

Prototheca moriformis

CCCGGCACCTCCCGCAAGACCGGCAAGTTCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGCCC

AAGTCCATCCCCAACGGCGGCTTCCAGGTGAAGGCCAACGCCCGCGCCCACCCCAAGGCCAACGGCTC

CGCCGTGTCCCTGAAGTCCGTGTCCCTGAACACCCAGGAGGACACCTCCCTGTCCCCCCCCCCCCGCGC

CTTCCTGAACCAGCTGCCCGACTGGCGCATGCTGCGCACCGCCCTGACCACCGTGTTCGTGGCCGCCG

AGAAGCAGTGGACCATGCTGGACCGCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCTTCGGCCTG

GAGTCCATCGTGCAGGAGGGCCTGGTGTTCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCATC

GACCGCACCGCCTCCATCGAGACCCTGATGAACCACCTGCAGGAGACCTCCCTGAACCAGTGCAAGTC

CGCCGGCATCCTGCACGACGGCTTCGGCCGCACCCTGGAGATGTGCAAGCGCGACCTGATCTGGGTGG

TGACCAAGATGCAGATCAAGGTGAACCGCTACCCCGCCTGGGGCGACACCGTGGAGATCTCCACCCGC

TTCTCCCGCCTGGGCAAGATCGGCATGGGCCGCGACTGGCTGATCTGCGACTGCAACACCGGCGAGAT

CCTGATCCGCGCCACCTCCGCCTACGCCATGATGAACCAGAAGACCCGCCGCCTGTCCAAGCTGCCCA

ACGAGGTGCGCCAGGAGATCGCCCCCCTGTTCGTGGACTCCGACCCCGTGATCGAGGAGAACGACATG

AAGCTGCACAAGTTCGAGGTGAAGACCGGCGACTCCATCTGCAAGGGCCTGACCCCCCGCTGGTCCGA

CCTGGACGTGAACCAGCACGTGTCCAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCACCG

AGGTGCTGGAGACCCAGGAGCTGTGCTCCCTGGCCCTGGAGTACCGCCGCGAGTGCGGCCGCGACTCC

GTGCTGGAGTCCGTGACCTCCATGGACCCCTCCAAGGTGGGCGGCTGGTCCCAGTACCAGCACCTGCT

GCGCCTGGAGGACGGCGCCGACATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCGCC

AACGGCGCCATCTCCACCGGCAAGACCTGA

SEQ ID NO: 106

JcFatB1 consensus amino acid sequence

MVAAAASSAFFPVPAPGTSPKPGKSGNWPSSLSPSFKPKSEPNGGFQVKANASAHPKANGSAVNLKSGSLN

TQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKRIVQDGLVSRQ

SFSIRSYEIGADRIASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPTWG

DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE

DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGM

DSVLESVTAMDPSENGGRSQYKHLLRLEDGTDIVKGRTEWRPKNAGTNGAISTGKTSNGNSVS*

SEQ ID NO: 107

JcFatB1 consensus DNA sequence codon optimized for Prototheca

ATGGTGGCCGCCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCGCCCCCGGCACCTCCCCCAAGCCCGGC

AAGTCCGGCAACTGGCCCTCCTCCCTGTCCCCCTCCTTCAAGCCCAAGTCCATCCCCAACGGCGGCTTC

CAGGTGAAGGCCAACGCCTCCGCCCACCCCAAGGCCAACGGCTCCGCCGTGAACCTGAAGTCCGCTCTC

CCTGAACACCCAGGAGGACACCECCTCCTCCCCCCCCCCCCGCGCCTTCCTGAACCAGCTGCCCGACTG

GTCCATGCTGCTGACCGCCATCACCACCGTGTTCGTGGCCGCCGAGAAGCAGTGGACCATGCTGGACC

GCAAGTCCAAGCGCCCCGACATGCTGGTGGACTCCGTGGGCCTGAAGCGCATCGTGCAGGACGGCCTG

GTGTCCCGCCAGTCCTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC

CTGATGAACCACCTGCAGGAGACCTCCATCAACCACTGCAAGTCCCTGGGCCTGCTGAACGACGGCTT

CGGCCGCACCCCCGGCATGTGCAAGAACGACCTGATCTGGGTGCTGACCAAGATGCAGATCATGGTGA

ACCGCTACCCCACCTGGGGCGACACCGTGGAGATCAACACCTGGTTCTCCCAGTCCGGCAAGATCGGC

ATGGGCTCCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGATCCGCGCCACCTCCGTGTG

GGCCATGATGAACCAGAAGACCCGCCGCTTCTCCCGCCTGCCCTACGAGGTGCGCCAGGAGCTGACCC

CCCACTTCGTGGACTCCCCCCACGTGATCGAGGACAACGACCGCAAGCTGCACAAGTTCGACGTGAAG

ACCGGCGACTCCATCCGCAAGGGCCTGACCCCCCGCTGGAACGACCTGGACGTGAACCAGCACGTGTC

CAACGTGAAGTACATCGGCTGGATCCTGGAGTCCATGCCCATCGAGGTGCTGGAGACCCAGGAGCTGT

GCTCCCTGACCGTGGAGTACCGCCGCGAGTGCGGCATGGACTCCGTGCTGGAGTCCGTGACCGCCATG

GACCCCTCCGAGAACGGCGGCCGCTCCCAGTACAAGCACCTGCTGCGCCTGGAGGACGGCACCGACA

TCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGAACGCCGGCACCAACGGCGCCATCTCCACCGGCAA

GACCTCCAACGGCAACTCCGTGTCCTGA

SEQ ID NO: 108

JcFatB2 consensus amino acid sequence

MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLSPLKPKSVANGGLQVKANASAPPKINGSSVGLKSGSLKTQ

EDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGLVFRQNF

SIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWG

DTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPHFVDSAPV

IEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECG

RESVLESLTAVDPSGKGYGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGAIASGETSPGDSS*

SEQ ID NO: 109

JcFatB2 consensus DNA sequence codon optimized for Prototheca

ATGGTGGCCACCGCCGCCTCCTCCGCCTTCTTCCCCGTGCCCTCCCCCGACACCTCCTCCCGCCCCGGC

AAGCTGGGCAACGGCTCCTCCTCCCTGTCCCCCCTGAAGCCCAAGTCCGTGGCCAACGGCGGCCTGCA

GGTGAAGGCCAACGCCTCCGCCCCCCCCAAGATCAACGGCTCCTCCGTGGGCCTGAAGTCCGGCTCCC

TGAAGACCCAGGAGGACACCCCCTCCGCCCCCCCCCCCCGCACCTTCATCAACCAGCTGCCCGACTGG

TCCATGCTGCTGGCCGCCATCACCACCGTGTTCCTGGCCGCCGAGAAGCAGTGGATGATGCTGGACTG

GAAGCCCAAGCGCCCCGACATGCTGGTGGACCCCTTCGGCCTGGGCCGCATCGTGCAGGACGGCCTGG

TGTTCCGCCAGAACTTCTCCATCCGCTCCTACGAGATCGGCGCCGACCGCACCGCCTCCATCGAGACC

GTGATGAACCACCTGCAGGAGACCGCCCTGAACCACGTGAAGTCCGCCGGCCTGCTGAACGACGGCTT

CGGCCGCACCCCCGAGATGTACAAGCGCGACCTGATCTGGGTGGTGGCCAAGATGCAGGTGATGGTG

AACCGCTACCCCACCTGGGGCGACACCGTGGAGGTGAACACCTGGGTGGCCAAGTCCGGCAAGAACG

GCATGCGCCGCGACTGGCTGATCTCCGACTGCAACACCGGCGAGATCCTGACCCGCGCCTCCTCCGTG

TGGGTGATGATGAACCAGAAGACCCGCCGCCTGTCCAAGATCCCCGACGAGGTGCGCCACGAGATCG

AGCCCCACTTCGTGGACTCCGCCCCCGTGATCGAGGACGACGACCGCAAGCTGCCCAAGCTGGACGAG

AAGACCGCCGACTCCATCCGCAAGGGCCTGACCCCCAAGTGGAACGACCTGGACGTGAACCAGCACG

TGAACAACGTGAAGTACATCGGCTGGATCCTGGAGTCCACCCCCCCCGAGGTGCTGGAGACCCAGGA

GCTGTGCTCCCTGACCCTGGAGTACCGCCGCGAGTGCGGCCGCGAGTCCGTGCTGGAGTCCCTGACCG

CCGTGGACCCCTCCGGCAAGGGCTACGGCTCCCAGTTCCAGCACCTGCTGCGCCTGGAGGACGGCGGC

GAGATCGTGAAGGGCCGCACCGAGTGGCGCCCCAAGACCGCCGGCATCAACGGCGCCATCGCCTCCG

GCGAGACCTCCCCCGGCGACTCCTCCTGA

SEQ ID NO: 110

CuPSR23 FATB3 amino acid sequence

MVVAAATSAFFPVPAPGTSPKPGKSGNWPSSLSPTFKPKSIPNAGFQVKANASAHPKANGSAVNL

KSGSLNTQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKCIVRD

GLVSRQSFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLIKMQIMVNR

YPTWGDTVEINTWFSQSGKIGMASDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVD

SPHVIEDNDQKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYR

RECGMDSVLESVTAVDPSENGGRSQYKFILLRLEDGTDIVKSRTEWRPKNAGTNGAISTSTAKTSNGNSVS

SEQ ID NO: 111

CuPSR23 FATB3b amino acid sequence

MVVAAATSAFFPVPAPGTSPKPGKSGNWPSSLSPTFKPKSIPNAGFQVKANASAHPKANGSAVNL

KSGSLNTQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKSIVRDG

LVSRQSFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRY

PTWGDTVEINTWFSQSGKIGMASDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDS

PHVIEDNDQKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRR

ECGMDSVLESVTAVDPSENGGRSQYKHLLRLEDGTDIVKSRTEWRPKNAGTNGAISTSTAKTSNGNSAS

SEQ ID NO: 112

CwFATB3 amino acid sequence:

MVVAAAASSAFFPVPAPRTTPKPGKFGNWPSSLSPPFKPKSNPNGRFQVKANVSPHPKANGSAVSL

KSGSLNTLEDPPSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQFTRLDRKSKRPDMLVDWFGSETIVQDGL

VFRERFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTSEMCTRDLIWVLTKMQIVVNRYP

TWGDTVEINSWFSQSGKIGMGRDWLISDCNTGEILVRATSAWAMMNQKTRRFSKLPCEVRQEIAPHFVDA

PPVIEDNDRKLHKFDVKTGDSICKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYRR

ECGRESVVESVISMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNRAIST

SEQ ID NO: 113

CwFATB3a amino acid sequence:

MVVAAAASSAFFPVPAPRTTPKPGKFGNWPSSLSPPFKPKSNPNGRFQVKANVSPHPKANGSAVSL

KSGSLNTLEDPPSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQFTRLDRKSKRPDMLVDWFGSETIVQDGL

VFRERFSIRSYEIGADRTASIETLMNHILQDTSLNHCKSVGLLNDGFGRTSEMCIRDLIWVLTKMQIVVNRYP

TWGDTVEINSWFSQSGKIGMGRDWLISDCNTGEILVRATSAWAMMNQKTRRFSKLPCEVRQEIAPHFVDA

PPVIEDNDRKLHKFDVKTGDSICKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYRR

ECGRESVVESVISMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNRAIST

SEQ ID NO: 114

CwFATB3b amino acid sequence

MVVAAAASSAFFPVPAPRTTPKPGKFGNWPSSLSPPFKPKSNPNGRFQVKANVSPHPKANGSAVSL

KSGSLNTLEDLPSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQFTRLDRKSKRPDMLVDWFGSETIVQDGL

VFRERFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTSEMCTRDLIWVLTKMQIVVNRYP

TWGDTVEINSWFSQSGKIGMGRDWLISDCNTGEILVRATSAWAMMNQKTRRFSKLPCEVRQEIAPHFVDA

PPVIEDNDRKLHKFDVKTGDSICKGLTPGWNDLDVNQHVSNVKYIGWILEKFWRPRSYALSPLNIGGNVEG

KVW

SEQ ID NO: 115

CwFATB3c amino acid sequence

MVVAAAASSAFFPVPAPRTIPKPGKFGNWPSSLSPPFKPKSNPNGRFQVKANVSPHPKANGSAVSL

KSGSLNTLEDLPSSPPPRTFLNQLPDWSRLRTAITTVFVATEKQFTRLDRKSKRPDMLVDWFGSETIVQDGL

VFRERFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTSEMCTRDLIWVLTKMQIVVNRYP

TWGDTVEINSWFSQSGKIGMGRDWLISDCNTGEILVRATSAWAMMNQKTRRFSKLPCEVRQEIAPHFVDA

PPVIEDNDRKLHKFDVKTGDSICKGLTPGWNDLDVNQHVSNVKYIGWILEKFWRPRSYALSPLNIGGNVEG

KVW

SEQ ID NO: 116

CwFATB4a amino acid sequence

MVATAASSAFFPVPSADTSSSRPGKLGSGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKS

GGFKTQEDSPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSNDGFGRTPEMYKRDLIWVVAKMQVMVNR

YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHF

VDSAPVVEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSAEGYASRFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGDFF

SEQ ID NO: 117

CwFATB4a.1 amino acid sequence

MVATAASSAFFPVPSADTSSSRPGKLGSGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKS

GGFKTQEDSPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSNDGFGRTPEMYKRDLIWVVAKMQVMVNR

YPTWGDTVEVNTWVAKSGKNG1VIRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHF

VDSAPVVEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSAEGYASRFQHLLRLEDGGEIVKARTEWRPKNAGINWVVPSEESSPGDFF

SEQ ID NO: 118

CwFATB4a.2 amino acid sequence:

MVATAASSAFFPVPSADTSSSRPGKLGNGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKS

GSFKTQEDAPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSNDGFGRTPEMYKRDLIWVVAKMQVMVNR

YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHF

VDSAPVVEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSAEGYASRFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGDFF

SEQ ID NO: 119

CwFATB4a.3 amino acid sequence

MVATAASSAFFPVPSADTSSSRPGKLGSGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKS

GGFKTQEDSPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSNDGFGRTPEMYKRDLIWVVAKMQVMVNR

YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHF

VDSAPVVEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSAEGYVSRFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGDFF

SEQ ID NO: 120

CwFATB4b amino acid sequence

MVATAASSAFFPVPSADTSSSRPGKLGNGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKS

GSFKTQEDAPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKIAGLSSDGFGRTPAMSKRDLIWVVAKMQVMVNR

YPAWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHF

VDSAPVVEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPAEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSGEGDGSKFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGGDFF

SEQ ID NO: 121

CwFATB4b.1 amino acid sequence

MVATAASSAFFPVPSADTSSSRPGKLGSGPSSLSPLKPKSIPNGGLQVKANASAPPKINGSSVGLKS

GSFKTQEDAPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGSIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNELQETALNHVKIAGLSSDGFGRTPAMSKRDLIWVVAKMQVMVNR

YPAWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRNEIEPHF

VDSAPVVEDDDRKLPKLDENTADSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPAEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSGEGDGSKFQHLLRLEDGGEIVKARTEWRPKNAGINGVVPSEESSPGGDFF

SEQ ID NO: 122

CwFATB5 amino acid sequence

MVAAAASSAFFSVPTPGTPPKPGKFGNWPSSLSVPFKPDNGGFHVKANASAHPKANGSAVNLKSG

SLETPPRSFINQLPDLSVLLSKITTVFGAAEKQWKRPGMLVEPFGVDRIFQDGVFFRQSFSIRSYEIGVDRTAS

IETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNTWVSESGKNG

MGRDWLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDQKLQKLDVKTGDS

IRDGLTPRWNDLDVNQHVNNVKYIGWILKSVPIEVFETQELCGVTLEYRRECGRDSVLESVTAMDPAKEG

DRCVYQHLLRLEDGADITIGRTEWRPKNAGANGAMSSGKTSNGNCLIEGRGWQPFRVVRLIF

SEQ ID NO: 123

CwFATB5a amino acid sequence

MVAAAASSAFFSVPTPGTPPKPGKFGNWPSSLSVPFKPDNGGFHVKANASAHPKANGSAVNLKSG

SLETPPRSFINQLPDLSVLLSKITTVFGAAEKQWKRPGMLVEPFGVDRIFQDGFFFRQSFSIRSYEIGVDRTAS

IETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNTWVSESGKNG

MGRDWLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDQKLQKLDVKTGDS

IRDGLTPRWNDLDVNQHVNNVKYIGWILKSVPIEVFETQELCGVTLEYRRECGRDSVLESVTAMDPAKEG

DRCVYQHLLRLEDGADITIGRTEWRPKNAGANGAMSSGKTSNGNCLIEGRGWQPFRVVRLIF

SEQ ID NO: 124

CwFATB5b amino acid sequence

MVAAAASSAFFSVPTPGTPPKPGKFGNWPSSLSVPFKPDNGGFHVKANASAHPKANGSAVNLKSG

SLETPPRSFINQLPDLSVLLSKITTVFGAAEKQWKRPGMLVEPFGVDRIFQDGVFFRQSFSIRSYEIGVDRTAS

IETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNTWVSESGKNG

MGRDWLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDQKLQKLDVKTGDS

IRDGLTPRWNDLDVNQHVNNVKYIGWILKSVPIEVFETQELCGVTLEYRRECGRDSVLESVTAMDPAKEG

DRCVYQHLLWLEDGADITIGRTEWRPKNAGANGAMSSGKTSNGNCLIEGRGWQPFRVVRLIF

SEQ ID NO: 125

CwFATB5c amino acid sequence

MVAAAASSAFFSVPTPGTPPKPGKFGNWPSSLSVPFKPDNGGFHVKANASAHPKANGSAVNLKSG

SLETPPRSFINQLPDLSVLLSKITTVFGAAEKQWKRPGMLVEPFGVDRIFQDGVFFRQSFSIRSYEIGVDRTAS

IETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPIWGDTIEVNTWVSESGKNG

MGRDWLISDCRTGEILIRATSVWAMIVINQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDQKLQKLDVKTGDS

IRDGLTPRWNDLDVNQHVNNVKYIGWILKSVPIEVFETQELCGVTLEYRRECGRDSVLESVTAMDPAKEG

DRCVYQHLLRLEDGADITIGRTEWRPKNAGANGAMSSGKTSNGNCLIEGMGWQPFRVVRLIF

SEQ ID NO: 126

CwFATB5.1 amino acid sequence

MVAAAASSAFFSVPTPGTSPKPGKFRNWPSSLSVPFKPETNHNGGFHIKANASAHPKANGSALNLK

SGSLETQEDTSLSSPPRTFIKQLPDWSMLLSKITTVFGAAEKQLKRPGMLVEPFGVDRIFQDGVFFRQSFSIRS

YEIGADRTASIETLMNIFQETSLNIICKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEVNT

WVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDRKL

YKLNVKTGDSIRDGLTPRWNDLDVNQHVNNVKFIGWILKSVPTKVFETQELCGVTLEYRRECGKDSVLES

VTAMDPAKEGDRSVYQHLLRLEDGADITIGRTEWRPKNAGANEAISSGKTSNGNSAS

SEQ ID NO: 127

CwFATB5.1a amino acid sequence

MVAAAASSAFFSVPTPGTSPKPGKFRNWPLSLSVPFKPETNHNGGFHIKANASAHPKANGSALNL

KSGSLETQEDTSLSSPPRTFIKQLPDWSMLLSKITTVFGAAEKQLKRPGMLVEPFGVDRIFQDGVFFRQSFSI

RSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEV

NTWVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNQNTRRLSKFPYEVRQEIAPHFVDSAPVIEDDR

KLYKLNVKTGDSIRDGLTPRWNDLDVNQHVNNVKFIGWILKSVPTKVFETQELCGVTLEYRRECGKDSVL

ESVTAMDPAKEGDRSVYQHLLRLEDGADITIGRTEWRPKNAGANEAISSGKTSNGNSAS

SEQ ID NO: 128

CcFATB2b amino acid sequence

MVTTSLASAYFSMKAVMLAPDGRGIKPRSSGLQVRAGNERNSCKVINGTKVKDTEGLKGCSTLQ

GQSMLDDHFGLHGLVFRRTFAIRCYEVGPDRSTSIMAVMNHLQEAARNHAESLGLLGDGFGETLEMSKRD

LIWVVRRTHVAVERYPAWGDTVEVEAWVGASGNIGMRRDFLVRDCKTGHILTRCTSVSVMMNMRTRRL

SKIPQEVRAEIDPLFIEKVAVKEGEIKKLQKLNDSTADYIQGGWTPRWNDLDVNQHVNNIIYVGWIFKSVPD

SISENHHLSSITLEYRRECIRGNKLQSLTTVCGGSSEAGIICEHLLQLEDGSEVLRARTEWRPKHTDSFQGISE

RFPQQEPHIK

SEQ ID NO: 129

CcFATB3 amino acid sequence

MVATAAASAFFPVGAPATSSATSAKASMMPDNLDARGIKPKPASSSGLQVKANAHASPKINGSKV

STDTLKGEDTLTSSPAPRTFINQLPDWSMFLAAITTIFLAAEKQWTNLDWKPRRPDMLADPFGIGRFMQDG

LIFRQHFAIRSYEIGADRTASIETLMNHLQETALNHVRSAGLLGDGFGATPEMSRRDLIWVVTRMQVLVDR

YPAWGDIVEVETWVGASGKNGMRRDWLVRDSQTGEILTRATSVWVMMNKRTRRLSKLPEEVRGEIGPYF

IEDVAIIEEDNRKLQKLNENTADNVRRGLTPRWSDLDVNQHVNNVKYIGWILESAPGSILESHELSCMTLEY

RRECGKDSVLQSMTAVSGGGSAAGGSPESSVECDHLLQLESGPEVVRGRTEWRPKSANNSRSILEMPAESL

SEQ ID NO: 130

CcFATB3b amino acid sequence

MVATAAASAFFPVGAPATSSATSAKASMMPDNLDARGIKPKLASSSGLQVKANAHASPKINGSKV

STDTLKGEDTLTSSPAPRTFINQLPDWSMFLAAITTIFLAAEKQWTNLDWKPRRPDMLADPFGIGRFMQDG

LIFRQHFAIRSYEIGADRTASIETLIVINHLQETALNHVRSAGLLGDGFGATPEMSRRDLIWVVIRMQVLVDR

YPAWGDIVEVETWVGASGKNGMRRDWLVRDSQTGEILTRATSVWVMMNKRTRRLSKLPEEVRGEIGPYF

IEDVAIIEEDNRKLQKLNENTADNVRRGLTPRWSDLDVNQHVNNVKYIGWILESAPGSILESHELSCMTLEY

RRECGKDSVLQSMTAVSGGGSAAGGSPESSVECDHLLQLESGPEVVRGRTEWRPKSANNSRSILEMPAESL

SEQ ID NO: 131

CcFATB3c amino acid sequence

MVATAAASAFFPVGAPATSSATSAKASMMPDNLDARGIKPKPASSSGLQVKANAHASPKINGSKV

STDTLKGEDTLTSSPAPRTFINQLPDWSMFLAAITTIFLAAEKQWTNLDWKPRRPDMLADPFGIGRFMQDG

LIFRQHFAIRSYEIGADRTASIETLMNHLQETALNHVRSAGLLGDGFGATPEMSRRDLIWVVTRMQVLVDR

YPAWGDIVEVETWVGASGKNGMRRDWLVRDSQTGEILTRATSVWVMMNKRTRRLSKLPEEVRGEIGPYF

IEDVAIIEEDNRKLQKLNENTADNVRRGLTPRWSDLDVNQHVNNAKYIGWILESAPGSILESHELSCMTLEY

RRECGKDSVLQSMTAVSGGGSAAGGSPESSVECDHLLQLESGPEVVRGRTEWRPKSANNSRSILEMPAESL

SEQ ID NO: 132

ChtFATBla amino acid sequence

MVAAAASSAFFSVPTPGTSTKPGNFGNWPSSLSVPFKPESNHNGGFRVKANASAHPKANGSAVNL

KSGSLETQEDTSSSSPPPRTFIKQLPDWGMLLSKITTVFGAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSF

SIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIE

VNTWVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPVEVRQEIAPHFVDSAPVIEDD

KKLHKLDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSV

LESVTAMDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGAISTGKTSNENSVS

SEQ ID NO: 133

ChtFATB1a.1 amino acid sequence

MVAAAASSAFFSVPTPGTSPKPGNFGNWPSSLSVPFKPESNHNGGFRVKANASAHPKANGSAVNL

KSGSLETQEDTSSSSPPPRTFIKQLPDWGMLLSKITTVFGAAERQWKRPGMLVEPFGVDRIFQDGVFFRHSF

SIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIE

VNTWVSESGKNGMGRDWLIGDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDD

KKLHKLDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSV

LESVTAMDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGALSTGKTSNGNSVS

SEQ ID NO: 134

ChtFATB1a.2 amino acid sequence

MVAAAASSAFFSVPTPGTSPKPGNFGNWPSNLSVPFKPESNHNGGFRVKANASAHPKANGSAVNL

KSGSLETQEDTSSSSPPPRTFIKQLPDWGMLLSKITTVFGAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSF

SIRSYEIGADRTASIETLMNIFQETSLNECKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIE

VNTWVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDD

KKLHKLDVKTGDSIRKGLTPRWNDFDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSV

LESVTAMDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGAISTGKTSNENSVS

SEQ ID NO: 135

ChtFATB1a.3 amino acid sequence

MVAAAASSAFFSVPTPGTSPKPGNFGNWPSSLSVPFKPESNHNGGFRVKANASAHPKANGSAVNL

KSGSLETQEDTSSSSPPPRTFIKQLPDWGMLLSKITTVFGAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSF

SIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIE

VNTWVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDD

KKLHKLDVKTGDSIRKGLTPRWNDFDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSV

LESVTAMDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGVNGAISTGKTSNENSVS

SEQ ID NO: 136

ChtFATB1a.4 amino acid sequence

MVAAAASSAFFSVPTPGTSPKPGNFGNWPSSLSVPFKPESNHNGGFRVKANASAHPKANGSAVNL

KSGSLETQEDTSSSSPPPRTFIKQLPDWSMLLSKITTVFGAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSFS

IRSYEIGADRTASIETLMNIFQETSLNECKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIEV

NTWVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDDK

KLHKLDVKTGDSIRKGLTPRWNDFDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSVL

ESVTAMDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGAISTGKTSNENSVS

SEQ ID NO: 137

ChtFATB1b amino acid sequence

MVAAAASSAFFSVPTSGTSPKPGNFGNVVPSSLSVPFKPESSHNGGFQVKANASAHPKANGSAVNL

KSGSLETQEDTSSSSPPPRTFIKQLPDWSMLLSKITTVFWAAERQWKRPGMLVEPFGVDRIFQDGVFFRQSF

SIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKIQVEVNRYPTWGDTIE

VNTWVSESGKNGMGRDWLISDCRTGEILIRATSVWAMMNRKTRRLSKFPYEVRQEIAPHFVDSAPVIEDD

KKLHKLDVKTGDFIRKGLTPRWNDFDVNQHVNNVKYIGWILKSVPAEVFETQELCGVTLEYRRECGRDSV

LESVTAMDTAKEGDRSLYQHLLRLEDGADITIGRTEWRPKNAGANGAISTGKTSNENSVS

SEQ ID NO: 138

ChtFATB2b amino acid sequence

MVVAAAASSAFFPVPASGTSPKPGIUGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVS

LKSGSLNIQEGTSSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQLTMLQRKSKKPDMIFIVDWFGLEIIVQD

GLVFRESFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLIKMQIMVN

RYPTWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFV

DAPPVIEDNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEY

RRECGRDSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS

SEQ ID NO: 139

ChtFATB2a amino acid sequence

MVVAAAASSAFFPVPAPGTTSKPGKFGNWPSSLSPSFKPKSNPNGGFQVKANASAHPKANGSAVS

LKSGSLNTKEDTPSSPPPRTFLNQLPDWSRLRTAITTVFVAAEKQLTMLDRKSKKPDMHVDWFGLEIIVQD

WLVFRESFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVN

RYPTWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFV

DAPPLIEDNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEY

RRECGRDSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS

SEQ ID NO: 140

ChtFATB2c amino acid sequence

MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVS

LKSGSLNTKEDTPSSPPPRTFLNQLPDWNRLRTAITTVFVAAEKQLTMLDRKSKKPDMHVDWFGLEIIVQD

GLVFRESFSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVN

RYPTWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFV

DAPPVIEDNDRKLHKFDVKTGDSICKGLIPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEY

RRECGRDSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGINGAISTGKTSNGNSVS

SEQ ID NO: 141

ChtFATB2d amino acid sequence

MVVAAAASSAFFPVPAPGTTSKPGKFGNWPSSLSPSFKPKSNPNGGFQVKANASAHPKANGSAVS

LKSGSLNTQEDTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDLFGLESIVQDG

LVFRESYSIRSYEIGADRTASIETLMNHLQDTSLNHCKSVGLLNDGFGRTPEMCKRDLIWVLTKMQIMVNR

YPTWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQNTRRFSKLPNEVRQEIAPHFVD

APPVIEDNDRKLHKFDVKTGDSIRKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYR

RECGRESVLESVTAMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS

SEQ ID NO: 142

ChtFATB2e amino acid sequence

MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVS

LKSGSLNIQEDTSSSPPPQTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQD

GLVFRESYSIRSYEISADRTASIETVMNLLQETSLINITICKSMGILNDGFGRTPEMCKRDLIWVLIKMQILV

NRYPNWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQNTRRFSKLPNEVRQEIAPHFVD

APPVIEDNDRKLHKFDVKTGDSIRKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLTLEYR

RECGRDSVLESVTAMNPSKVGDRSQYQHLLRLEDGADIMKGRTEWRPKNAGINGAISTGKTSNGNSVS

SEQ ID NO: 143

ChtFATB2f amino acid sequence

MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVS

LKSGSLNTQEGTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQD

GLVFRESYSIRSYEISADRTASIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNR

YPNWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVD

APPVIEDNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYR

RECGRDSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGINGAISTGKTSNGNSVS

SEQ ID NO: 144

ChtFATB2g amino acid sequence

MVVAATASSAFFPVPVPGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVSL

KSGSLNTQEDTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQDG

LVFREIYSIRSYEISADRTTSIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNRYP

NWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQKTRRFSKLPNEVRQEIAPHFVDAP

PVIEDNDRKLHKFDVKTGDSICKGLTPEWNDLDVNQHVSNVKYIGWILESMPKEVLDTQELCSLTLEYRRE

CGRDSVLESVTAMDPSKVGDRSQYQHLLRLEDGTDIMKGRTEWRPKNAGTNGAISTGKTSNANSVS

SEQ ID NO: 145

ChtFATB2h amino acid sequence

MVVAAAASSAFFPVPASGTSPKPGKFGTWLSSSSPSYKPKSNPSGGFQVKANASAHPKANGSAVS

LKSGSLNTQEGTSSSPPPRTFLNQLPDWSRLLTAISTVFVAAEKQLTMLDRKSKRPDMLVDWFGLESIVQD

GLVFRESYSIRSYEISADRTASIETVMNLLQETSLNHCKSMGILNDGFGRTPEMCKRDLIWVLTKMQILVNR

YPNWGDTVEINSWFSQSGKIGMGRNWLISDCNTGEILIRATSIWAMMNQNTRRFSKLPNEVRQEIAPHFVD

APPVIEDNDRKLHKFDVKTGDSIRKGLTPGWNDLDVNQHVSNVKYIGWILESIPTEVLETQELCSLTLEYRR

ECGRESVLESVTAMNPSKVGDRSQYQUILLRLEDGADIMKGRTEWRPKNAGTNGAISTGKTSNGNSVS

SEQ ID NO: 146

ChtFATB3a amino acid sequence

MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS

CSLKTHEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNR

YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHETEPHF

VDSAPVIEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS

SEQ ID NO: 147

ChtFATB3b amino acid sequence

MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS

GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGFGRIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLIEGFGRTPEMYKRDLIWVVAKMQVMVNR

YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVIVIMNQKTRKLSKIPDEVRHEIEPHF

VDSAPVIEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS

SEQ ID NO: 148

ChtFATB3c amino acid sequence

MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS

CSLKTHEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNFILQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNR

YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHELEPHF

VDSAPVIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSEKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGAIAFGETSPGDS

SEQ ID NO: 149

ChtFATB3d amino acid sequence

MVATAASSAFFPVPSPDTSSRPCiKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS

CSLKTHEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL

VFRQNFSIRSYEIGADRTASIKTVMNHLQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNR

YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHF

VDSAPVIEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS

SEQ ID NO: 150

ChtFATB3e amino acid sequence

MVATAASSAFFPVPSPDTSSRPGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS

GSLKTHEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDWILVDPFGLGRIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNR

YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHF

VDSAPVIEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS

SEQ ID NO: 151

ChtFATB3f amino acid sequence

MVATAASSAFFPVPSPDTSSRLGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS

GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMPVDPFGLGRIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNFILQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNR

YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHF

VDSAPVIEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSEKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS

SEQ ID NO: 152

ChtFATB3g amino acid sequence

MVATAASSAFFPVPSPDTSSRAGKLGNGSSSLRPLKPKFVANAGLQVKANASAPPKINGSSVSLKS

GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNEGFGRTPEMYKRDLIWVVAKMQVMVNR

YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRKLSKIPDEVRHEIEPHF

VDSAPVIEDDDWKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGUSVLESLTAVDPSGKGFGPQFQHLLRLEDGGEIVKGRTEWRPKTAGINGTIASGETSPGNS

SEQ ID NO: 153

ChsFATB1 amino acid sequence

MVATNAAAFSAYTFFLTSPTHGYSSKRLADTQNGYPGTSLKSKSTPPPAAAAARNGALPLLASICK

CPKKADGSMQLDSSLVFGFQFYIRSYEVGADQTVSIQTVLNYLQEAAINHVQSAGYFGDSFGATPEMTKRN

LIWVITKMQVLVDRYPAWGDVVQVDTWTCSSGKNSMQRDWFVRDLKTGDIITRASSVWVLMNRLTRKL

SKIPEAVLEEAKLFVMNTAPTVDDNRKLPKIDGSSADYVLSGLTPRWSDLDMNQHVNNVKYIAWILESVP

QSIPETHKLSAITVEYRRECGKNSVLQSLTNVSGDGITCGNSIIECHFILLQLETGPEILLARTEWISKEPGF

RGAPIQAEKVYNNK

SEQ ID NO: 154

ChsFATB2 amino acid sequence

MVATAASSAFFPVPSPDASSRPGKLGNGSSSLSPLKPKLMANGGLQVKANASAPPKINGSSVGLKS

GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGEGRTLEMYKRDLIWVVAKMQVMVN

RYPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPH

FVDSAPVIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSGKGSGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGPIASGETSPGDSS

SEQ ID NO: 155

ChsFatB2b amino acid sequence

MVATAASSAFFPVPSPDASSRPGKLGNGSSSLSPLKPKLMANGGLQVKANASAPPKINGSSVGLKS

GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTLEMYKRDLIWVVAKMQVMVN

RYPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSKSQIMLPLHYCSVWVMNINQKTRRLS

KIPDEVRHEFEPHFVDSAPVIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPE

VLETQELCSLTLEYRRECGRESVLESLTAVDPSGKGSGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGPIA

SGETSPGDSS

SEQ ID NO: 156

ChsFatB2c amino acid sequence

MVATAASSAFFPVPSPDASSRPGKLGNGSSSLSPLKPKLMANGGLQVKANASAPPKINGSSVGLKS

GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMIVDPFGLGRIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTLEMYKRDLIWVVAKMQVMVN

RYPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPH

FVDSAPVIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSGKGSGSQFQHLMRLEDGGEIVKGRTEWRPKTAGINGPIASGETSPGDSS

SEQ ID NO: 157

ChsFatB2d amino acid sequence

MVATAASSAFFPVPSPDASSRPGKLGNGSSSLSPLKPKLMANGGLQVKANASAPPK1NGSSVGLKS

GSLKTQEDTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLVDPFGLGRIVQDGL

VFRQNFSIRSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTPEMYKRDLIWVVAKMQVMVNR

YPTWGDTVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPHF

VDSAPVIEDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLE

YRRECGRESVLESLTAVDPSGKGSGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGPIASGETSPGDSS

SEQ ID NO: 158

Chs FATB3 amino acid sequence

MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL

KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ

DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHVEVN

RYPTWGDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHF

VDSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEY

RRECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS

SEQ ID NO: 159

ChsFatb3b amino acid sequence

MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL

KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ

DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHIEVNR

YPTWGDTIEVNTWVSESGKTGMGRDWLISDFHTGDILIRATSVCAMMNQKTRRFSKFPYEVRQELAPHFV

DSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYR

RECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGINGAISTGKTSNGNSIS

SEQ ID NO: 160

ChsFatB3c amino acid sequence

MVAAEASSALFSVRTPUTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL

KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ

DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHVEVN

RYPTWGDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHF

VDSAPVIEDYQKLHKLDVKTGDSICNCLEMWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEY

RQECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGTDIAKGRTKWRPKNAGKTSNGNSIS

SEQ ID NO: 161

ChsFATB3d amino acid sequence

MVAAEASSALFSVRTPGTSPKPGKFGNWPSSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL

KSGSLDTQEDASSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRSDMLMDPFGVDRVVQ

DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVIKMHVEVN

RYPTWGDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHF

VDSAPVIEDYQKLFIKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEY

RRECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS

SEQ ID NO: 162

ChsFATB3e amino acid sequence

MVAAEASSALFSVRTPGTSPKPGKFGNWPSSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL

KSGSLDTQEDASSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRSDMLMDPFGVDRVVQ

DGVVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVIKMHVEVN

RYPTWGDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHF

VDSAPVIEDYQKLIEKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEY

RRECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGINGAISTGKTSNGNSIS

SEQ ID NO: 163

ChsFATB3f amino acid sequence

MVAAEASSALFSVRTPGTSPKPGKFGNWPSSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL

KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ

DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMTIVEVN

RYPTWGDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHF

VDSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEY

RRECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS

SEQ ID NO: 164

ChsFATB3g amino acid sequence

MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL

KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ

DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHIEVNR

YPTWGDTIEVNTWVSESGKTGMGRDWLISDFHTGDILIRATSVCAMMNQKTRRFSKFPYEVRQELAPHFV

DSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYR

QECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGTDIAKGRTKWRPKNAGKTSNGNSIS

SEQ ID NO: 165

ChsFATB3h amino acid sequence

MVAAEASSALFSVRTPGTSPKPGKFGNWPSSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL

KSGSLDTQEDASSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRSDMLMDPFGVDRVVQ

DGVVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVIKMHIEVNR

YPTWGDTIEVNTWVSESGKTGMGRDWLISDFHTGDILIRATSVCAMMNQKTRRFSKFPYEVRQELAPHFV

DSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYR

QECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGTDIAKGRTKWRPKNAGKTSNGNSIS

SEQ ID NO: 166

ChsFATB3i amino acid sequence

MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNHNGGFQVKANASARPKANGSAVSL

KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ

DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMTIVEVN

RYPTWGDTIEVNTWVSESGKTGMGRDWLISDCHTGEILIRATSMCAMMNQKTRRFSKFPYEVRQELAPHF

VDSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEY

RRECGGDSVLESVTAMDPSKEGDRSLYQHLLRLEDGADIAKGRTKWRPKNAGTNGAISTGKTSNGNSIS

SEQ ID NO: 167

ChsFATB3j amino acid sequence

MVAAEASSALFSVRTPGTSPKPGKFGNWPTSLSVPFKSKSNIINGGFQVKANASARPKANGSAVSL

KSGSLDTQEDTSSSSSPPRTFINQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLMDPFGVDRVVQ

DGAVFRQSFSIRSYEIGADRTASIETLMNIFQETSLNHCKSIGLLNDGFGRTPEMCKRDLIWVVTKMHIEVNR

YPTWGDTIEVNTWVSESGKTGMGRDWLISDFHTGDILIRATSVCAMMNQKTRRFSKFPYEVRQELAPHFV

DSAPVIEDYQKLHKLDVKTGDSICNGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFETQELCGLTLEYR

QECGRDSVLESVTAMDPSKEGDRSLYQHLLRLEDGTDIAKGRTKWRPKNAGKTSNGNSIS

SEQ ID NO: 168

CcalcFATB1 (Cuphea calcarata FATB1)

MVAAAATSAFFPVPAPGTSPNPRKFGSWPSSLSPSLPKSIPNGGFQVKANASAFIPKANGSAVSLKSGSLNTQ

ENTSSSPPPRTFLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLVDLFGLESSVQDALVFRQSFSIRS

YEIGTDRTASIETLMNHLQETSLNECKSTGILLDGFGRTLEMCKRELIWVVIKMQIQVNRYPAWGDTVEINT

RFSRLGKIGMGRDWLISDCNTGEILIRATSEYAMMNQKTRRLSKLPYEVHQEIAPLFVDSPPVIEDNDLKVH

KFEVKTGDSIQKGLSPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLESVT

AMDPSKVGGRSQYQHLLRLEDGTAIVNGITEWRPKNAGANGAISTGKTSNGNSVS

SEQ ID NO: 169

ChookFATB4 (Cuphea hookeriana FATB4)

MVAAAATSAFFPVPAPGTSPNPRKFGSWPSSLSPSLPNSIPNGGFQVKANASAHPKANGSAVSLKSGSLNTQ

ENTSSSPPPRTFLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLVDLFGLESSVQDALVFRQRFSIR

SYEIGTDRTASMETLMNHLQETSLNHCKSTGILLDGFGRTLEMCKRELIWVVIKMQIQVNRYPAWGDTVEI

NTRFSRLGKIGMGRDWLISDCNTGEILIRATSEYAMMNQKTRRLSKLPYEVRQEIAPLFVDSPPVIEDNDLK

VHICFEVKTGDSIHKGLTPGWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGRESVLES

LTAMDPSGGGYGSQFQHLLRLEDGGEIVKGRTEWRPKNGVINGVVPTGESSPGDYS

SEQ ID NO: 170

CaFATB1 (Cuphea avigera var. pulcherrima FATB1)

MVAAAASSAFFSVPVPGTSPKPGKFRIWPSSLSPSFKPKPIPNGGLQVKANSRAHPKANGSAVSLKSGSLNT

QEDTSSSPPPRTFLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLMDSFGLESIVQEGLEFRQSFSIR

SYEIGTDRTASIETLMNYLQETSLNHCKSTGILLDGFGRTPEMCKRDLIWVVTKMKIKVNRYPAWGDTVEI

NTWFSRLGKIGKGRDWLISDCNTGEILIRATSAYATMNQKTRRLSKLPYEVHQEIAPLFVDSPPVIEDNDLK

LHICFEVKTGDSIHKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLES

VTAMDPTKVGGRSQYQHLLRLEDGTDIVKCRTEWRPKNPGANGAISTGKTSNGNSVS

SEQ ID NO: 171

CpauFATB1 (Cuphea paucipetala FATB1)

MVAAAASSAFFPVPAPGTSPKPGKSGNWPSSLSPSIKPMSIPNGGFQVKANASAHPKANGSAVNLKSGSLN

TQEDTSSSPPPRAFLNQLPDWSMLLTAITTVFVAAEKQWTMRDRKSKRPDMLVDSVGLKSVVLDGLVSRQ

IFSIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPTWGD

TVEINTWFSHSGKIGMASDWLITDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHYVDSPHVIE

DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGM

DSVLESVTAMDPSEDEGRSQYKHLLRLEDGTDIVKGRTEWRPKNAGTNGAISTAKPSNGNSVS

SEQ ID NO: 172

CprocFATB1 (Cuphea procumbens FATB1)

MVAAAASSAFFPAPAPGSSPKPGKSGNWPSSLSPSFKSKSIPYGRFQVKANASAHPKANGSAVNLKSGSLN

TQEDTSSSPPPRAFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQ

SFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGEGRTPGMCKNDLIWVLTKMQIMVNRYPAWG

DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE

DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLEAQELCSLTVEYRRECGM

DSVLESVTAVDPSEDGGRSQYNHLLRLEDGTDVVKGRTEWRPKNAETNGAISPGNTSNGNSIS

SEQ ID NO: 173

CprocFATB2 (Cuphea procumbens FATB2)

MVAAAASSAFFPAPAPGSSPKPGKSGNWPSSLSPSFKSKSIPYGRFQVKANASAHPKANGSAVNLKSGSLN

TQEDTSSSPPPRAFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQ

SFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQLMVNRYPAWG

DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE

DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRQECGRE

SVLESLTAVDPSGKGFGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGAIASGETSPGDF

SEQ ID NO: 174

CprocFATB3 (Cuphea procumbens FATB3)

MVAAAASSAFFPAPAPGSSPKPGKSGNVVPSSLSPSFKSKSIPYGRFQVKANASAHPKANGSAVNLKSGSLN

TQEDTSSSPPPRAFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKN1VRDGLVSRQ

SFLIRSYEIGADRTASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQ1MVNRYPAWG

DTVEINTWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIE

DNDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGRE

SVLESLTAVDPSGEGGYGSQFQHLLRLEDGGEIVKGRTEWRPKNAGINGVLPTGE

SEQ ID NO: 175

CigneaFATB1 (Cuphea ignea FATB1)

PGTSRKTGKFGNWPSSLSPSFKPKSIPNGGFQVKANARAHPKANGSAVSLKSVSLNTQEDTSLSPPPRAFLN

QLPDWRMLRTALTTVFVAAEKQWTMLDRKSKRPDMLVDSFGLESIVQEGLVFRQSFSIRSYEIGIDRTASIE

TLMNHLQETSLNQCKSAGILHDGFGRTLEMCKRDLIWVVTKMQ1KVNRYPAWGDTVEISTRFSRLGKIGM

GRDWLICDCNTGEILIRATSAYAMMNQKTRRLSKLPNEVRQEIAPLFVDSDPVIEENDMKLHKFEVKTGDSI

CKGLTPRWSDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLESVTSMDPSKVGG

WSQYQHLLRLEDGADIVKGRTEWRPKNAGANGAISTGKT

SEQ ID NO: 176

CcalcFATB1 (Cuphea calcarata FATB1)

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TFIKQLPDWSIMLLSAITTVFVAAEKQWTMFDRKSKRSDMLVDPFVVDRIVQDGVLFRQSFSIRSYEIGADR

TASIETLMNIFQETSLNHCKSMGLLYEGFGRTPEMCKRDLIWVVTKIHIKVNRYPTWGDTIEVTTWVSESG

KNGMGRDWLISDCHTGEILIRATSVWAMMNQTTRRLSKFPYELRQEIAPHFVDSDPVIEDNRRLLNFDVKT

GDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESVPTEVFDTRELCGLTLEYRQECGRGSVLESVTAMDPS

KEGDRSLYQFILLRLEDGTDIVKGRTEWRPKNAGTNGPVSTRKTINGSSVS

SEQ ID NO: 177

ChookFATB4 (Cuphea hookeriana FATB4)

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FLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLVDLFGLESSVQDALVFRQRFSIRSYEIGTDRTAS

METLMNHLQETSLNHCKSTGILLDGFGRTLEMCKRELIWVVIKMQIQVNRYPAWGDTVEINTRFSRLGKIG

MGRDWLISDCNTGEILIRATSEYAMMNQKTRRLSKLPYEVRQEIAPLFVDSPPVIEDNDLKVHKFEVKTGD

SIHKGLTPGWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGRESVLESLTAMDPSGGG

YGSQFQHLLRLEDGGEIVKGRTEWRPKNGVINGVVPTGESSPGDYS

SEQ ID NO: 178

CaFATB1 (Cuphea avigera var. pulcherrima FATB1)

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FLHQLPDWSRLLTAITTVFVKSKRPDMHDRKSKRPDMLMDSFGLESIVQEGLEFRQSFSIRSYEIGTDRTASI

ETLMNYLQETSLNHCKSTGILLDGFGRTPEMCKRDLIWVVTKMKIKVNRYPAWGDTVEINTWFSRLGKIG

KGRDWLISDCNTGEILIRATSAYATMNQKTRRLSKLPYEVHQEIAPLFVDSPPVIEDNDLKLHKFEVKTGDSI

HKGLTPGWNDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLESVTAMDPTKVGG

RSQYQHLLRLEDGTDIVKCRTEWRPKNPGANGAISTGKTSNGNSVS

SEQ ID NO: 179

CpauFATB1 (Cuphea paucipetala FATB1)

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AFLNQLPDWSMLLTAITTVFVAAEKQWTMRDRKSKRPDMLVDSVGLKSVVLDGLVSRQIFSIRSYEIGADR

TASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLIKMQIMVNRYPTWGDTVEINTWFSHS

GKIGMASDWLITDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHYVDSPHVIEDNDRKLHKFD

VKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGMDSVLESVTAM

DPSEDEGRSQYKHLLRLEDGTDIVKGRTEWRPKNAGINGAISTAKPSNGNSVS

SEQ ID NO: 180

CprocFATB1 (Cuphea procumbens FATB1)

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AFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQSFLIRSYEIGADR

TASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLIKMQIMVNRYPAWGDTVEINTWFSQS

GKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIEDNDRKLHKFDV

KTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLEAQELCSLTVEYRRECGMDSVLESVTAVDP

SEDGGRSQYNHLLRLEDGTDVVKGRTEWRPKNAETNGAISPGNTSNGNSIS

SEQ ID NO: 181

CprocFATB2 (Cuphea procumbens FATB2)

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AFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQSFLIRSYEIGADR

TASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPAWGDTVEINTWFSQS

GKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIEDNDRKLHKFDV

KTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRQECGRESVLESLTAVDPS

GKGFGSQFQHLLRLEDGGEIVKGRTEWRPKTAGINGAIASGETSPGDF

SEQ ID NO: 182

CprocFATB3 (Cuphea procumbens FATB3)

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AFLNQLPDWSMLLSAITTVFVAAEKQWTMLDRKSKRPDMLVDSVGLKNIVRDGLVSRQSFLIRSYEIGADR

TASIETLMNHLQETSINHCKSLGLLNDGFGRTPGMCKNDLIWVLTKMQIMVNRYPAWGDTVEINTWFSQS

GKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIEDNDRKLHKFDV

KTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGRESVLESLTAVDPS

GEGGYGSQFQHLLRLEDGGEIVKGRTEWRPKNAGINGVLPTGE

SEQ ID NO: 183

CigneaFATB1 (Cuphea ignea FATB1)

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AFLNQLPDWRMLRTALTTVFVAAEKQWTMLDRKSKRPDMLVDSFGLESIVQEGLVFRQSFSIRSYEIGIDR

TASIETLMNIALQETSLNQCKSAGILHDGFGRTLEMCKRDLIWVVIKMQIKVNRYPAWGDTVEISTRFSRLG

KIGMGRDWLICDCNTGEILIRATSAYAMMNQKTRRLSKLPNEVRQEIAPLFVDSDPVIEENDMKLHKFEVK

TGDSICKGLTPRWSDLDVNQHVSNVKYIGWILESMPTEVLETQELCSLALEYRRECGRDSVLESVTSMDPS

KVGGWSQYQHLLRLEDGADIVKGRTEWRPKNAGANGAISTGKT

SEQ ID NO: 184

CgFATB1 (Cuphea glossostoma FATB1)_

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SEQ ID NO: 185

CgFATB1b (Cuphea glossostoma FATB1 C170F, M198T, T374S variant)

MVAAAASSAFFPSPAPGSSPKPGNRPSSLSPSFKPKSIPNGAFQVKANASAHPKANGSAVNLKSGSLNIQED

SSSSPSPRAFLNQLPDWSVLLTAITTVFVAAEKQWTMLDRKSKRPDVLVDSVGLKSIVQDGLVSRQSFSIRS

YEIGADRTASIETLMNHLQETSINHFKSLGLLNDGFGRTPGMCKNDLIWVLIKTQIMVNRYPAWGDTVEIN

TWFSQSGKIGMGSDWLISDCNTGEILIRATSVWAMMNQKTRRFSRLPYEVRQELTPHFVDSPHVIEDNDRK

LHKFDVKTGDSIRKGLTPRWNDLDVNQHVSNVKYIGWILESMPIEVLETQELCSLTVEYRRECGMDSVLES

VSAMDPSEDGGRSQYNHLLRLEDGTDVVKGRTEWRPKNAGTNGAISTTKTSNGNSVS

SEQ ID NO: 186

Umbellularia californica UcFATB3 amino acid sequence

MVATAAASAFFPVGSPATSSATSAKASIVIMPDNLDARGIKPKPASSSGLQVKANAHASPKINGSKVSTDTLK

GEDTLTSSPAPRTFINQLPDWSMFLAAITTIFLAAEKQWTNLDWKPRRPDMLADPFGIGRFMQDGLIFRQHF

AIRSYEIGADRTASIETLMNHLQETALNHVRSAGLLGDGFGATPEMSRRDLIWVVTRMQVLVDRYPAWGD

IVEVETWVGASGKNGMRRDWLVRDSQTGEILTRATSVWVMMNKRTRRLSKIPEEVRGEIGPYFMENVAII

EEDSRKLQKLNENIIEEDSRKLQKLNENTADNVRRGLTPRWSDLDVNQHVNNVKYIGWILESAPGSILESHE

LSCMTLEYRRECGKDSVLQSMTVVSGGGSAAGGSPESSVECDHLLQLESGPEVVKARTEWRPKSANNPRSI

LEMPAESS*

SEQ ID NO: 187

Cuphea carthagenensis CCrFATB2c (V138L variant of FATB2)

MVAAAASSAFFPVTTPGTSRKPGKFGNWLSSLSPPFRPKSIPSGGFQVKANASAHPKANGSAVSLKSGSLNT

QEDTSSSPPPRAFINQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRSDMLVDSFGMERIVQDGLLFRQSF

SIRSYEIGADRRASIETLMNHLQETSLNHCKSIRLLNEGFGRTPEMCKRDLIWVVIRMHIMVNRYPTWGDT

VEINTWVSQSGKNGMGRDWLISDCNTGEILIRATSAWAMMNQKTRRLSKLPYEVSQEIAPHFVDSPPVIED

GDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESMPTEVLETHELCFLTLEYRRECGRD

SVLESVTAMDPSNEGGRSHYQHLLRLEDGTDIVKGRTEWRPKNARNIGAISTGKTSNGNPAS*

SEQ ID NO: 188

Cuphea carthagenensis CCrFATB2

MVAAAASSAFFPVTTPGTSRKPGIUGNWLSSLSPPFRPKSIPSGGFQVKANASAHPKANGSAVSLKSGSLNT

QEDTSSSPPPRAFINQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRSDMLVDSFGMERIVQDGLVFRQSF

SIRSYEIGADRRASIETLMNHLQETSLNHCKSIRLLNEGFGRTPEMCKRDLIWVVTRMHIMVNRYPTWGDT

VEINTWVSQSGKNGMGRDWLISDCNTGEILIRATSAWAMMNQKTRRLSKLPYEVSQEIAPHFVDSPPVIED

GDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESMPTEVLETHELCFLTLEYRRECGRD

SVLESVTAMDPSNEGGRSHYQHLLRLEDGTDIVKGRTEWRPKNARNIGAISTGKTSNGNPAS*

SEQ ID NO: 189

CcrFATB2b

MVAAAASSAFFPVTTPGTSRKPGKFGNWLSSLSPPFRPKSIPSGGFQVKANASAHPKANGSAVSLKSGSLNT

QEDTSSSPPPRAFINQLPDWSMLLTAITTVFVAAEKQWTMLDRKSKRSDMLVDSFGMERIVQDGLVFRQSF

SIRSYEIGADRRASIETLMNHLQETSLNHCKSIRLLNEGFGRTPEMCKRDLIWVFTRMHIMVNRYPTWGDT

VEINTWVSQSGKNGMGRDWLISDCNTGEILIRATSAWAMMNQKTRRLSKLPYEVSQEIAPHFVDSPPVIED

GDRKLHKFDVKTGDSIRKGLTPRWNDLDVNQHVNNVKYIGWILESMPTEVLETHELCFLTLEYRRECGRD

SVLESVTAMDPSNEGGRSHYQHLLRLEDGTDIVKGRTEWRPKNARNIGAIPTGKTSNGNPAS*

SEQ ID NO: 190

CcrFATB1

MVATAASSAFFPVPSPDSSSRPGKLGNGPSSLSPLKPKSTPNGGLQVKANASAPPKINGSSVGLKSSSLKTQD

DTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLTDPFGLGRIVQDGLVFRQNFSI

RSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWGD

TVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPHFVDSAPVI

EDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGK

ESVLESLTAVDPSGKGWGSHFQHLLRLEDGGEIVKGRTEWRPKNAGINGAVAFEETSPGDS*

SEQ ID NO: 191

CcrFATB1b

MVATAASSAFFPVPSPDSSSRPGKLGNGPSSLSPLKPKSTPNGGLQVKANASAPPKINGSSVGLKSSSLKTQD

DTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLTDPFGLGRIAQDGLVFRQNFSI

RSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWGD

TVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPHFVDSAPVI

EDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGK

ESVLESLTAVDPSGKGWGSHFQHLLRLEDGGEIVKGRTEWRPKNAGINGAVAFEETSPGDS*

SEQ ID NO: 192

CCrFATB1c

MVATAASSAFFPVPSPDSSSRPGKLGNGPSSLSPLKPKSTPNGGLQVKANASAPPKINGSSVGLKSSSLKTQD

DTPSAPPPRTFINQLPDWSMLLAAITTVFLAAEKQWMMLDWKPKRPDMLTDPFGLGRIVQDGLVFRQNFSI

RSYEIGADRTASIETVMNHLQETALNHVKSAGLLNDGFGRTPEMYKRDLIWVVAKMQVMVNRYPTWGD

TVEVNTWVAKSGKNGMRRDWLISDCNTGEILTRASSVWVMMNQKTRRLSKIPDEVRHEIEPHFVDSAPVI

EDDDRKLPKLDEKTADSIRKGLTPKWNDLDVNQHVNNVKYIGWILESTPPEVLETQELCSLTLEYRRECGK

ESVLESLTAVDPSGKGWGSHFQHLLRLEDGGEIVKGRTEWRPKNA*.

	Number	Date	Country
	61791861	Mar 2013	US
	61917217	Dec 2013	US

	Number	Date	Country
Parent	14209931	Mar 2014	US
Child	15727624		US

	Number	Date	Country
Parent	13837996	Mar 2013	US
Child	14209931		US

THIOESTERASES AND CELLS FOR PRODUCTION OF TAILORED OILS

Information

Publication Number

Date Filed

Date Published

Inventors

Original Assignees

CPC

International Classifications

Abstract

Description

Claims

CROSS REFERENCE TO RELATED APPLICATIONS

Provisional Applications (2)

Continuations (1)

Continuation in Parts (1)