Claims
- 1. A cell comprising a nucleic acid molecule wherein said nucleic acid molecule comprises:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII pre-mRNA expressed within the cell; b) a 3′ splice region comprising a branch point, a pyrimidine tract and a 3′ splice acceptor site; c) a spacer region that separates the 3′ splice region from the target binding domain; and d) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 2. A cell comprising a nucleic acid molecule wherein said nucleic acid molecule comprises:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII pre-mRNA expressed within the cell; b) a 3′ splice acceptor site; c) a spacer region that separates the 3′ splice region from the target binding domain; and d) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 3. A cell comprising a nucleic acid molecule wherein said nucleic acid molecule comprises:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII pre-mRNA expressed within the cell; b) a 5′ splice site; c) a spacer region that separates the 5′ splice site from the target binding domain; and d) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 4. The cell of claim 1 wherein the nucleic acid molecule further comprises a 5′ donor site.
- 5. The cell of claim 1 wherein the nucleic acid molecule further comprises a safety nucleotide sequence comprising one or more complementary sequences that bind to one or more sides of the 3′ splice region.
- 6. The cell of claim 1 wherein the binding of the nucleic acid molecule to the target pre-mRNA is mediated by complementary, triple helix formation, or protein-nucleic acid interaction.
- 7. The cell of claim 1 wherein the nucleotide sequences to be trans-spliced to the target pre mRNA encode a factor VIII polypeptide.
- 8. The cell of claim 1 wherein the nucleotide sequences to be trans-spliced to the target pre-mRNA encodes exons 23-26 of canine or human factor VIII protein or exons 16-26 of murine human factor VIII protein.
- 9. A cell comprising a recombinant vector wherein said vector expresses a nucleic acid molecule comprising:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII pre-mRNA expressed within the cell; b) a 3′ splice region comprising a branch point, a pyrimidine tract and a 3′ splice acceptor site; c) a spacer region that separates the 3′ splice region from the target binding domain; and d) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 10. A cell comprising a recombinant vector wherein said vector expresses a nucleic acid molecule comprising:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII pre-mRNA expressed within the cell; b) a 3′ splice acceptor site; c) a spacer region that separates the 3′ splice region from the target binding domain; and d) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 11. A cell comprising a recombinant vector wherein said vector expresses a nucleic acid molecule comprising:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII pre-mRNA expressed within the cell; b) a 5′ splice site; c) a spacer region that separates the 5′ splice site from the target binding domain; and d) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 12. The cell of claim 9 wherein the nucleic acid molecule further comprises a 5′ donor site.
- 13. A method of producing a chimeric RNA molecule in a cell comprising:
contacting a target pre-mRNA expressed in the cell with a nucleic acid molecule recognized by nuclear splicing components wherein said nucleic acid molecule comprises:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII pre-mRNA expressed within the cell; b) a 3′ splice region comprising a branch point, a pyrimidine tract and a 3′ splice acceptor site; c) a spacer region that separates the 3′ splice region from the target binding domain; and d) a nucleotide sequence to be trans-spliced to the target pre-mRNA; under conditions in which a portion of the nucleic acid molecule is trans-spliced to a portion of the target pre-mRNA to form a chimeric RNA within the cell.
- 14. A method of producing a chimeric RNA molecule in a cell comprising:
contacting a target pre-mRNA expressed in the cell with a nucleic acid molecule recognized by nuclear splicing components wherein said nucleic acid molecule comprises:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII pre-mRNA expressed within the cell; b) a 3′ splice acceptor site; c) a spacer region that separates the 3′ splice region from the target binding domain; and d) a nucleotide sequence to be trans-spliced to the target pre-mRNA; under conditions in which a portion of the nucleic acid molecule is trans-spliced to a portion of the target pre-mRNA to form a chimeric RNA within the cell.
- 15. A method of producing a chimeric RNA molecule in a cell comprising:
contacting a target pre-mRNA expressed within the cell with a nucleic acid molecule recognized by nuclear splicing components wherein said nucleic acid molecule comprises:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII pre-mRNA expressed within the cell; b) a 5′ splice site; c) a spacer region that separates the 5′ splice site from the target binding domain; and d) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 16. A method of claim 13 wherein the nucleic acid molecule further comprises a 5′ donor site.
- 17. The method of claim 13, wherein the chimeric RNA molecule comprises sequences encoding a translatable protein.
- 18. A nucleic acid molecule comprising:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII pre-mRNA expressed within the cell; b) a 3′ splice region comprising a branch point, a pyrimidine tract and a 3′ splice acceptor site; c) a spacer region that separates the 3′ splice region from the target binding domain; d) a safety sequence comprising one or more complementary sequences that bind to one or both sides of the 3′ splice site; and e) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 19. A nucleic acid molecule comprising:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII pre-mRNA expressed within the cell; b) a 3′ splice acceptor site; c) a spacer region that separates the 3′ splice region from the target binding domain; d) a safety sequence comprising one or more complementary sequences that bind to one or both sides of the 3′ splice site; and e) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 20. A nucleic acid molecule comprising:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII pre-mRNA expressed within the cell; b) a 5′ splice site; c) a spacer region that separates the 5′ splice site from the target binding domain; d) a safety sequence comprising one or more complementary sequences that bind to one or both sides of the 5′ splice site; and e) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 21. The nucleic acid molecule of claim 18 wherein the nucleic acid molecule further comprises a 5′ donor site.
- 22. The nucleic acid molecule of claim 18 wherein the binding of the nucleic acid molecule to the target pre-mRNA is mediated by complementary, triple helix formation, or protein-nucleic acid interaction.
- 23. The nucleic acid molecule of claim 18 wherein the nucleotide to be trans-spliced to the target pre-mRNA encodes a translatable factor VIII polypeptide and/or a marker protein.
- 24. The nucleic acid molecule of claim 18 wherein the nucleotide sequence to be trans-spliced to the target pre-mRNA encodes exons 23-26 of canine or human factor VIII protein or exons 16-26 of murine human factor VIII protein.25. The nucleic acid molecule of claim 20 wherein the binding of the nucleic acid molecule to the target pre-mRNA is mediated by complementary, triple helix formation, or protein-nucleic acid interaction.
- 26. The nucleic acid molecule of claim 20 wherein the nucleotide sequence to be trans-spliced to the target pre-mRNA encodes a factor VIII polypeptide and/or a marker gene sequence.
- 27. The nucleic acid molecule of claim 20 wherein the nucleotide sequence to be trans-spliced to the target pre-mRNA encodes exons 23-26 of the factor VIII protein.
- 28. A eukaryotic expression vector wherein said vector expresses a nucleic acid molecule comprising:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII protein pre-mRNA expressed within the cell; b) a 3′ splice region comprising a branch point, a pyrimidine tract and a 3′ splice acceptor site; c) a spacer region that separates the 3′ splice region from the target binding domain; and d) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 29. A eukaryotic expression vector wherein said vector expresses a nucleic acid molecule comprising:
a) one or more target binding domains that target binding of the nucleic acid molecule to factor VIII protein pre-mRNA expressed within the cell; b) a 3′ splice acceptor site; c) a spacer region that separates the 3′ splice region from the target binding domain; and d) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 30. A eukaryotic expression vector wherein said vector expresses a nucleic acid molecule comprising:
a) one or more target binding domains that target binding of the nucleic acid molecule to a factor VIII protein pre-mRNA expressed within the cell; b) a 5′ splice site; c) a spacer region that separates the 5′ splice site from the target binding domain; and d) a nucleotide sequence to be trans-spliced to the target pre-mRNA; wherein said nucleic acid molecule is recognized by nuclear splicing components within the cell.
- 31. The vector of claim 28 wherein the nucleic acid molecule further comprises a 5′ donor site.
- 32. The vector of claim 28 wherein said vector is a viral vector.
- 33. The vector of claim 32 wherein in said viral vector is an adeno-associated viral vector.
- 34. A composition comprising a physiologically acceptable carrier and a nucleic acid molecule according to any of claims 28-33.
SPECIFICATION
[0001] The present application is a continuation-in-part of pending application Ser. No. 09/756096 filed Jan. 8, 2001 which is a continuation-in-part of pending application Ser. No. 09/158,863 filed Sep. 23, 1998 which is a continuation-in-part of Ser. No. 09/133,717 filed on Aug. 13, 1998 which is a continuation-in-part of Ser. No. 09/087,233 filed on May 28, 1998, which is a continuation-in-part of pending application Ser. No. 08/766,354 filed on Dec. 13, 1996, which claims benefit to provisional application No. 60/008,317 filed on Dec. 15, 1995.
Government Interests
[0002] The present invention was made with government support under Grant Nos. SBIR R43DK56526-01 and SBIR R44DK56526-02. The government has certain rights in the invention.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60008317 |
Dec 1995 |
US |
Continuation in Parts (5)
|
Number |
Date |
Country |
Parent |
09756096 |
Jan 2001 |
US |
Child |
09838858 |
Apr 2001 |
US |
Parent |
09158863 |
Sep 1998 |
US |
Child |
09756096 |
Jan 2001 |
US |
Parent |
09133717 |
Aug 1998 |
US |
Child |
09158863 |
Sep 1998 |
US |
Parent |
09087233 |
May 1998 |
US |
Child |
09133717 |
Aug 1998 |
US |
Parent |
08766354 |
Dec 1996 |
US |
Child |
09087233 |
May 1998 |
US |