Claims
- 1. An isolated homozygous stem cell derived from a method comprising:
(a) isolating a homozygous post-meiosis I diploid germ cell, wherein said germ cell is an oocyte which matured to metaphase II in vivo; (b) mitotically activating said metaphase II oocyte after an in vitro resting period of between 0-9 hours by preventing the extrusion of the second polar body during oogenesis; (c) culturing said activated metaphase II oocyte to form a blastocyst-like mass; and, (d) isolating homozygous stem cells from the inner cell mass of said blastocyst-like mass.
- 2. The isolated homozygous stem cell of claim 1, wherein the resting period is between 0-1½ hours.
- 3. The isolated homozygous stem cell of claim 1, wherein the resting period is between 1½-3 hours.
- 4. The isolated homozygous stem cell of claim 1, wherein the resting period is between 3-5 hours.
- 5. The isolated homozygous stem cell of claim 1, wherein the resting period is between 5-9 hours.
- 6. A method of producing homozygous stem cells comprising:
(a) isolating a homozygous post-meiosis I diploid germ cell, wherein said germ cell is an oocyte which matured to metaphase II in vivo; (b) mitotically activating said metaphase II oocyte after an in vitro resting period of between 0-9 hours by preventing the extrusion of the second polar body during oogenesis; (c) culturing said activated metaphase II oocyte to form a blastocyst-like mass; and, (d) isolating homozygous stem cells from the inner cell mass of said blastocyst-like mass.
- 7. The isolated homozygous stem cell of claim 6, wherein the resting period is between 0-1½ hours.
- 8. The isolated homozygous stem cell of claim 6, wherein the resting period is between 1½-3 hours.
- 9. The isolated homozygous stem cell of claim 6, wherein the resting period is between 3-5 hours.
- 10. The isolated homozygous stem cell of claim 6, wherein the resting period is between 5-9 hours.
- 11. An isolated homozygous stem cell derived from a method comprising:
(a) producing a mitotically activated homozygous post-meiosis I diploid germ cell by: fusing two oocytes or two spermatids, preventing the extrusion of the second polar body during oogenesis, allowing the extrusion of the second polar body and spontaneous self-replication under appropriate conditions, or transferring two sperm or two haploid egg nuclei into an enucleated oocyte; (b) culturing said activated homozygous post-meiosis I diploid germ cell to form a blastocyst-like mass; (c) transplanting said blastocyst-like mass into an animal host to create a stemplasm; and, (d) culturing said stemplasm in vitro to derive homozygous stem cell lines.
- 12. An isolated homozygous stem cell derived from the method of claim 11, further comprising screening stem cells that are homozygous by genotyping when a mitotically activated post-meiosis I diploid germ cell is produced by (a) fusing two oocytes or two spermatids, or (b) transferring two sperm or two haploid egg nuclei into an enucleated oocyte.
- 13. An isolated homozygous stem cell derived from the method of claim 11, wherein said blastocyst-like mass is transplanted under the kidney capsule.
- 14. An isolated homozygous stem cell derived from the method of claim 11, wherein said blastocyst-like mass mixed with MATRIGEL™ is transplanted in the hind limb of an animal host.
- 15. A method of producing homozygous stem cells comprising:
(a) producing a mitotically activated homozygous post-meiosis I diploid germ cell by: fusing two oocytes or two spermatids, preventing the extrusion of the second polar body during oogenesis, allowing the extrusion of the second polar body and spontaneous self-replication under appropriate conditions, or transferring two sperm or two haploid egg nuclei into an enucleated oocyte; (b) culturing said activated homozygous post-meiosis I diploid germ cell to form a blastocyst-like mass; (c) transplanting said blastocyst-like mass into an animal host to create a stemplasm; and, (d) culturing said stemplasm in vitro to derived homozygous stem cell lines.
- 16. The method of claim 15, further comprising screening stem cells that are homozygous by genotyping when a mitotically activated post-meiosis I diploid germ cell is produced by (a) fusing two oocytes or two spermatids, or (b) transferring two sperm or two haploid egg nuclei into an enucleated oocyte.
- 17. The method of claim 15, wherein said blastocyst-like mass is transplanted under the kidney capsule.
- 18. The method of claim 15, wherein said blastocyst-like mass mixed with MATRIGEL™ is transplanted in the hind limb of an animal host.
- 19. A method of making a desired progenitor cell, differentiated cell, group of differentiated cells, or tissue type comprising inducing isolated homozygous stem cells created by the method of claim 1, 11, and 15 to differentiate under suitable conditions.
Parent Case Info
[0001] The present application is a continuation in part of U.S. application Ser. No. 09/997,240, filed, Nov. 30, 2001, which claims priority to Provisinal U.S. Application Serial No. 60/253,943 filed on Nov. 30, 2001, the disclosure of which are all incorporated by reference herein in their entireties.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60253943 |
Nov 2000 |
US |
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
09997240 |
Nov 2001 |
US |
Child |
10179959 |
Jun 2002 |
US |