Six1 Regulates MyoD Expression in Adult Muscle Progenitor Cells

Muscle Satellite Cells Are Primed for Myogenesis but Maintain Quiescence with Sequestration of Myf5 mRNA Targeted by microRNA-31 in mRNP Granules

(2012) Colin G. Crist et al.   Cell Stem Cell

Sim2 prevents entry into the myogenic program by repressing MyoD transcription during limb embryonic myogenesis

(2012) E. Havis et al.   DEVELOPMENT

EYA1 and SIX1 drive the neuronal developmental program in cooperation with the SWI/SNF chromatin-remodeling complex and SOX2 in the mammalian inner ear

(2012) M. Ahmed et al.   DEVELOPMENT

The selector gene Pax7 dictates alternate pituitary cell fates through its pioneer action on chromatin remodeling

(2012) L. Budry et al.   GENES & DEVELOPMENT

MASTR directs MyoD-dependent satellite cell differentiation during skeletal muscle regeneration

(2012) M. H. Mokalled et al.   GENES & DEVELOPMENT

Six1 regulates stem cell repair potential and self-renewal during skeletal muscle regeneration

(2012) Fabien Le Grand et al.   JOURNAL OF CELL BIOLOGY

Myf5 haploinsufficiency reveals distinct cell fate potentials for adult skeletal muscle stem cells

(2012) B. Gayraud-Morel et al.   JOURNAL OF CELL SCIENCE

A non-canonical E-box within the MyoD core enhancer is necessary for circadian expression in skeletal muscle

(2012) Xiping Zhang et al.   NUCLEIC ACIDS RESEARCH

Discovery, optimization and validation of an optimal DNA-binding sequence for the Six1 homeodomain transcription factor

(2012) Yubing Liu et al.   NUCLEIC ACIDS RESEARCH

Satellite cells, connective tissue fibroblasts and their interactions are crucial for muscle regeneration

(2011) M. M. Murphy et al.   DEVELOPMENT

Pax7-expressing satellite cells are indispensable for adult skeletal muscle regeneration

(2011) R. Sambasivan et al.   DEVELOPMENT

An absolute requirement for Pax7-positive satellite cells in acute injury-induced skeletal muscle regeneration

(2011) C. Lepper et al.   DEVELOPMENT

Effective fiber hypertrophy in satellite cell-depleted skeletal muscle

(2011) J. J. McCarthy et al.   DEVELOPMENT

Genome-wide remodeling of the epigenetic landscape during myogenic differentiation

(2011) P. Asp et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Epigenetic regulation of satellite cell activation during muscle regeneration

(2011) F Jeffrey Dilworth et al.   Stem Cell Research & Therapy

Pitx2 defines alternate pathways acting through MyoD during limb and somitic myogenesis

(2010) A. L'Honore et al.   DEVELOPMENT

Genome-wide MyoD Binding in Skeletal Muscle Cells: A Potential for Broad Cellular Reprogramming

(2010) Yi Cao et al.   DEVELOPMENTAL CELL

Six family genes control the proliferation and differentiation of muscle satellite cells

(2010) Hiroshi Yajima et al.   EXPERIMENTAL CELL RESEARCH

Cooperation between myogenic regulatory factors and SIX family transcription factors is important for myoblast differentiation

(2010) Yubing Liu et al.   NUCLEIC ACIDS RESEARCH

CLOCK and BMAL1 regulate MyoD and are necessary for maintenance of skeletal muscle phenotype and function

(2010) J. L. Andrews et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Ultrafast and memory-efficient alignment of short DNA sequences to the human genome

(2009) Ben Langmead et al.   GENOME BIOLOGY

The sine oculis homeobox (SIX) family of transcription factors as regulators of development and disease

(2008) J. P. Kumar   CELLULAR AND MOLECULAR LIFE SCIENCES

All muscle satellite cells are equal, but are some more equal than others?

(2008) P. S. Zammit   JOURNAL OF CELL SCIENCE