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Human Molecular Genetics
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April 12, 2011
Neurofibromin (Nf1) is required for skeletal muscle development
Nadine Kossler, Sigmar Stricker, Christian Rödelsperger, et al.
Biorxiv : the Preprint Server for Biology
|
January 30, 2023
Antagonism among DUX family members evolved from an ancestral toxic single homeodomain protein
Darko Bosnakovski, Erik A Toso, Elizabeth T Ener, et al.
Nature Chemical Biology
|
August 19, 2020
Permissive epigenomes endow reprogramming competence to transcriptional regulators
Kee-Pyo Kim, Jinmi Choi, Juyong Yoon, et al.
Cell Reports
|
May 21, 2020
Attenuated Epigenetic Suppression of Muscle Stem Cell Necroptosis Is Required for Efficient Regeneration of Dystrophic Muscles
Krishnamoorthy Sreenivasan, Alessandro Ianni, Carsten Künne, et al.
Stem Cell Reports
|
August 27, 2021
CHD4 ensures stem cell lineage fidelity during skeletal muscle regeneration
Krishnamoorthy Sreenivasan, Alejandra Rodríguez-delaRosa, Johnny Kim, et al.
Science Advances
|
September 12, 2020
Reprogramming competence of OCT factors is determined by transactivation domains
Kee-Pyo Kim, You Wu, Juyong Yoon, et al.
Cell Stem Cell
|
April 13, 2021
Donor cell memory confers a metastable state of directly converted cells
Kee-Pyo Kim, Cui Li, Daria Bunina, et al.
Molecular Biology and Evolution
|
March 15, 2021
Directed Evolution of an Enhanced POU Reprogramming Factor for Cell Fate Engineering
Daisylyn Senna Tan, Yanpu Chen, Ya Gao, et al.
Nature Genetics
|
March 21, 2024
The homeobox transcription factor DUXBL controls exit from totipotency
Maria Vega-Sendino, Felipe F Lüttmann, Teresa Olbrich, et al.
Cell Metabolism
|
May 12, 2016
The Chromatin Remodeling Complex Chd4/NuRD Controls Striated Muscle Identity and Metabolic Homeostasis
Pablo Gómez-Del Arco, Eusebio Perdiguero, Paula Sofia Yunes-Leites, et al.
Page
of 5
Search research articles
Search
Showing results (31-40 of 42) with videos related to
Sort By:
Page
of 5
Human Molecular Genetics
|
April 12, 2011
Neurofibromin (Nf1) is required for skeletal muscle development
Nadine Kossler, Sigmar Stricker, Christian Rödelsperger, et al.
Biorxiv : the Preprint Server for Biology
|
January 30, 2023
Antagonism among DUX family members evolved from an ancestral toxic single homeodomain protein
Darko Bosnakovski, Erik A Toso, Elizabeth T Ener, et al.
Nature Chemical Biology
|
August 19, 2020
Permissive epigenomes endow reprogramming competence to transcriptional regulators
Kee-Pyo Kim, Jinmi Choi, Juyong Yoon, et al.
Cell Reports
|
May 21, 2020
Attenuated Epigenetic Suppression of Muscle Stem Cell Necroptosis Is Required for Efficient Regeneration of Dystrophic Muscles
Krishnamoorthy Sreenivasan, Alessandro Ianni, Carsten Künne, et al.
Stem Cell Reports
|
August 27, 2021
CHD4 ensures stem cell lineage fidelity during skeletal muscle regeneration
Krishnamoorthy Sreenivasan, Alejandra Rodríguez-delaRosa, Johnny Kim, et al.
Science Advances
|
September 12, 2020
Reprogramming competence of OCT factors is determined by transactivation domains
Kee-Pyo Kim, You Wu, Juyong Yoon, et al.
Cell Stem Cell
|
April 13, 2021
Donor cell memory confers a metastable state of directly converted cells
Kee-Pyo Kim, Cui Li, Daria Bunina, et al.
Molecular Biology and Evolution
|
March 15, 2021
Directed Evolution of an Enhanced POU Reprogramming Factor for Cell Fate Engineering
Daisylyn Senna Tan, Yanpu Chen, Ya Gao, et al.
Nature Genetics
|
March 21, 2024
The homeobox transcription factor DUXBL controls exit from totipotency
Maria Vega-Sendino, Felipe F Lüttmann, Teresa Olbrich, et al.
Cell Metabolism
|
May 12, 2016
The Chromatin Remodeling Complex Chd4/NuRD Controls Striated Muscle Identity and Metabolic Homeostasis
Pablo Gómez-Del Arco, Eusebio Perdiguero, Paula Sofia Yunes-Leites, et al.
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of 5