David J. Goldhamer
Professor/Molecular and Cell Biology

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Scholarly Contributions

46 Scholarly Contributions

Cloning and characterization of a novel MyoD enhancer-binding factor.
2007
Christopher D Watt, Masakazu Yamamoto, Unsal Kuscuoglu, Roger L Miesfeld, David Goldhamer, Ryan J Schmidt
Research Type: Journal Article

Identification of progenitor cells that contribute to heterotopic skeletogenesis.
2009
Rageshree Ramachandran, Masakazu Yamamoto, Frederick S Kaplan, Michael N Wosczyna, Andrew D A Maidment, Vitali Y Lounev, David L Glaser, David Goldhamer, Eileen M Shore
Research Type: Journal Article

A multifunctional reporter mouse line for Cre- and FLP-dependent lineage analysis.
2009
James R Camp, David Goldhamer, Michael N Wosczyna, Nicole A Shook, Masakazu Yamamoto, Onur Kanisicak, Shoko Yamamoto
Research Type: Journal Article

Progenitors of skeletal muscle satellite cells express the muscle determination gene, MyoD.
2009
Masakazu Yamamoto, David Goldhamer, Shoko Yamamoto, Onur Kanisicak, Julio J Mendez
Research Type: Journal Article

Progenitors of skeletal muscle satellite cells express the muscle determination gene, MyoD
2009
Masakazu Yamamoto, David Goldhamer, Onur Kanisicak, Julio Mendez, Shoko Yamamoto
Research Type: Journal Article

Identification of progenitor cells that contribute to heterotopic skeletogenesis
2009
David Goldhamer
Research Type: Journal Article

A multifunctional reporter mouse line for Cre- and FLP-dependent lineage analysis
2009
Michael N Wosczyna, James R Camp, Onur Kanisicak, Nicole A Shook, David Goldhamer, Masakazu Yamamoto
Research Type: Journal Article

NFIX regulates fetal specific transcription in developing skeletal muscle
2011
David Goldhamer
Research Type: Journal Article

A non-canonical E-box within the MyoD core enhancer is necessary for circadian expression in skeletal muscle
2011
Alexander G Rabchevsky, John J McCarthy, Karyn A Esser, Xiping Zhang, Samir P Patel, David Goldhamer
Research Type: Journal Article

Skeletal muscle satellite cells are committed to myogenesis and do not spontaneously adopt non-myogenic fates
2011
Jessica D Starkey, Masakazu Yamamoto, David Goldhamer, Shoko Yamamoto
Research Type: Journal Article

Skeletal muscle satellite cells are committed to myogenesis and do not spontaneously adopt nonmyogenic fates.
2011
Shoko Yamamoto, Masakazu Yamamoto, Jessica D Starkey, David Goldhamer
Research Type: Journal Article

Muscle stem cells in regeneration and disease
2011
David Goldhamer
Research Type: Poster/Presentation

SMN in motor neurons determines synaptic integrity in spinal muscular atrophy
2012
Cathleen M Lutz, Xixi Xu, James P Van Meerbeke, Melissa E Crowder, Charlotte J Sumner, Xueyong Wang, Tara L Martinez, David Goldhamer, Mark M Rich, Melissa A Osborne, Joe Wooley, Crystal Davis, Lingling Kong
Research Type: Journal Article

Multipotent progenitors resident in the skeletal muscle interstitium exhibit robust BMP-dependent osteogenic activity and mediate heterotopic ossification
2012
David Goldhamer, Arpita A Biswas, Catherine A Cogswell, Michael N Wosczyna
Research Type: Journal Article

Skeletal Muscle Regenerative Engineering
2013
Shaun W McLaughlin, Michael N Wosczyna, David Goldhamer, Cato T Laurencin
Research Type: Book

MyoD-expressing progenitors are essential for skeletal myogenesis and satellite cell development
2013
Masakazu Yamamoto, David Goldhamer, Shervin Etemad, William M Wood
Research Type: Journal Article

MyoD-expressing progenitors are essential for skeletal myogenesis and satellite cell development.
2013
William M Wood, Shervin Etemad, David Goldhamer, Masakazu Yamamoto
Research Type: Journal Article

The Na,K-ATPase α2 isoform in skeletal muscle plays an essential, acute role in exercise performance, contractility, and resistance to fatigue
2013
Judith A Heiny, Jonathon Neumann, Naomi Oshiro, Tara Rindler, David Goldhamer, Tatiana L Radzyukevich, Jerry B Lingrel
Research Type: Journal Article

Sarcolemmal ATP-sensitive potassium channels modulate skeletal muscle function under low-intensity workloads
2014
David Goldhamer
Research Type: Journal Article

Stem Cells in Musculoskeletal Development and Disease
2014
David Goldhamer
Research Type: Poster/Presentation