Add to ORKGThe Snail gene family encodes DNA-binding zinc finger proteins that function as transcriptional repressors. While the Snai1 and Snai2 genes are required for normal development in mice, Snai3 mutant mice exhibit no obvious abnormalities. The Snai3 gene is expressed at high levels in skeletal muscle. However, we demonstrate by histological analysis that Snai3 null mutant mice exhibit normal skeletal muscle. During hindlimb muscle regeneration after cardiotoxin-mediated injury, the Snai3 null mice exhibited efficient regeneration. To determine whether the Snai3 gene functions redundantly with the Snai1 gene during skeletal muscle regeneration, we performed hindlimb muscle regeneration in mice with skeletal muscle-specific deletion of the Snai1...
Mammalian skeletal muscles are capable of regeneration after injury. Quiescent satellite cells are a...
Smad3 is a key intracellular signaling mediator for both transforming growth factor-β and myostatin,...
MiR-206 is a muscle specific miRNA involved in muscle development and myogenesis. Importantly its fu...
The Snail gene family encodes DNA-binding zinc finger proteins that function as transcriptional repr...
The Snail gene family encodes zinc finger-containing transcriptional repressor proteins. Three membe...
The Snail gene family encodes zinc finger-containing transcriptional repressor proteins. Three membe...
Endochondral bone formation is a multistep process during which a cartilage primordium is replaced b...
The Snail family of transcriptional regulators consists of three highly conserved members. These pro...
The Snail family of transcriptional regulators consists of three highly conserved members. These pro...
<div><p>The Snail family of transcriptional regulators consists of three highly conserved members. T...
During skeletal myogenesis, the zinc-finger transcription factors SNAI1 and SNAI2, are expressed in ...
Endochondral bone formation is a multistep process during which a cartilage primordium is replaced b...
Two Snail family genes, Snai1 and Snai2, encode E2 box-binding transcriptional repressors that are i...
The goal of this study was to identify novel factors that mediate skeletal muscle development or fun...
Smad3 is a key intracellular signaling mediator for both transforming growth factor-β and myostatin,...
Mammalian skeletal muscles are capable of regeneration after injury. Quiescent satellite cells are a...
Smad3 is a key intracellular signaling mediator for both transforming growth factor-β and myostatin,...
MiR-206 is a muscle specific miRNA involved in muscle development and myogenesis. Importantly its fu...
The Snail gene family encodes DNA-binding zinc finger proteins that function as transcriptional repr...
The Snail gene family encodes zinc finger-containing transcriptional repressor proteins. Three membe...
The Snail gene family encodes zinc finger-containing transcriptional repressor proteins. Three membe...
Endochondral bone formation is a multistep process during which a cartilage primordium is replaced b...
The Snail family of transcriptional regulators consists of three highly conserved members. These pro...
The Snail family of transcriptional regulators consists of three highly conserved members. These pro...
<div><p>The Snail family of transcriptional regulators consists of three highly conserved members. T...
During skeletal myogenesis, the zinc-finger transcription factors SNAI1 and SNAI2, are expressed in ...
Endochondral bone formation is a multistep process during which a cartilage primordium is replaced b...
Two Snail family genes, Snai1 and Snai2, encode E2 box-binding transcriptional repressors that are i...
The goal of this study was to identify novel factors that mediate skeletal muscle development or fun...
Smad3 is a key intracellular signaling mediator for both transforming growth factor-β and myostatin,...
Mammalian skeletal muscles are capable of regeneration after injury. Quiescent satellite cells are a...
Smad3 is a key intracellular signaling mediator for both transforming growth factor-β and myostatin,...
MiR-206 is a muscle specific miRNA involved in muscle development and myogenesis. Importantly its fu...