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Nature
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July 1, 2006
Nuclear reprogramming and pluripotency
Konrad Hochedlinger, Rudolf Jaenisch
Methods in Enzymology
|
December 31, 2003
Differentiation of F1 embryonic stem cells into viable male and female mice by tetraploid embryo complementation
Kevin Eggan, Rudolf Jaenisch
Science (New York, N.Y.)
|
December 1, 2012
Medicine. iPSC disease modeling
Frank Soldner, Rudolf Jaenisch
The New England Journal of Medicine
|
July 18, 2003
Nuclear transplantation, embryonic stem cells, and the potential for cell therapy
Konrad Hochedlinger, Rudolf Jaenisch
Developmental Biology
|
October 7, 2004
At most three ES cells contribute to the somatic lineages of chimeric mice and of mice produced by ES-tetraploid complementation
Zhongde Wang, Rudolf Jaenisch
Nature
|
March 5, 2002
Monoclonal mice generated by nuclear transfer from mature B and T donor cells
Konrad Hochedlinger, Rudolf Jaenisch
Cold Spring Harbor Perspectives in Biology
|
December 3, 2015
Induced Pluripotency and Epigenetic Reprogramming
Konrad Hochedlinger, Rudolf Jaenisch
Cell Stem Cell
|
December 3, 2009
Technical challenges in using human induced pluripotent stem cells to model disease
Krishanu Saha, Rudolf Jaenisch
Seminars in Cell & Developmental Biology
|
March 16, 2004
Micromanipulating dosage compensation: understanding X-chromosome inactivation through nuclear transplantation
Kevin Eggan, Rudolf Jaenisch
Developmental Dynamics : an Official Publication of the American Association of Anatomists
|
August 2, 2006
Mammalian nuclear transfer
Alexander Meissner, Rudolf Jaenisch
Page
of 36
Search research articles
Search
Showing results (11-20 of 357) with videos related to
Sort By:
Page
of 36
Nature
|
July 1, 2006
Nuclear reprogramming and pluripotency
Konrad Hochedlinger, Rudolf Jaenisch
Methods in Enzymology
|
December 31, 2003
Differentiation of F1 embryonic stem cells into viable male and female mice by tetraploid embryo complementation
Kevin Eggan, Rudolf Jaenisch
Science (New York, N.Y.)
|
December 1, 2012
Medicine. iPSC disease modeling
Frank Soldner, Rudolf Jaenisch
The New England Journal of Medicine
|
July 18, 2003
Nuclear transplantation, embryonic stem cells, and the potential for cell therapy
Konrad Hochedlinger, Rudolf Jaenisch
Developmental Biology
|
October 7, 2004
At most three ES cells contribute to the somatic lineages of chimeric mice and of mice produced by ES-tetraploid complementation
Zhongde Wang, Rudolf Jaenisch
Nature
|
March 5, 2002
Monoclonal mice generated by nuclear transfer from mature B and T donor cells
Konrad Hochedlinger, Rudolf Jaenisch
Cold Spring Harbor Perspectives in Biology
|
December 3, 2015
Induced Pluripotency and Epigenetic Reprogramming
Konrad Hochedlinger, Rudolf Jaenisch
Cell Stem Cell
|
December 3, 2009
Technical challenges in using human induced pluripotent stem cells to model disease
Krishanu Saha, Rudolf Jaenisch
Seminars in Cell & Developmental Biology
|
March 16, 2004
Micromanipulating dosage compensation: understanding X-chromosome inactivation through nuclear transplantation
Kevin Eggan, Rudolf Jaenisch
Developmental Dynamics : an Official Publication of the American Association of Anatomists
|
August 2, 2006
Mammalian nuclear transfer
Alexander Meissner, Rudolf Jaenisch
Page
of 36