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Any process that decreases the rate, frequency or extent of the progression of the cell over time, from its formation to the mature structure. Cell development does not include the steps involved in committing a cell to a specific fate. Any process that modulates the frequency, rate or extent of skeletal muscle fiber development. Muscle fibers are formed by the maturation of myotubes. They can be classed as slow, intermediate/fast or fast. The process whose specific outcome is the progression of the skeletal muscle fiber over time, from its formation to the mature structure. Muscle fibers are formed by the maturation of myotubes. They can be classed as slow, intermediate/fast or fast. Any process that stops, prevents or reduces the frequency, rate or extent of skeletal muscle tissue development. Any process that stops, prevents or reduces the frequency, rate or extent of striated muscle development. Any process that modulates the frequency, rate or extent of skeletal muscle tissue development. The process whose specific outcome is the progression of the muscle fiber over time, from its formation to the mature structure. Muscle fibers are formed by the maturation of myotubes. They can be classed as slow, intermediate/fast or fast. Any process that stops, prevents or reduces the frequency, rate or extent of skeletal muscle fiber development. Muscle fibers are formed by the maturation of myotubes. They can be classed as slow, intermediate/fast or fast. The developmental sequence of events leading to the formation of adult muscle that occurs in the anima. In vertebrate skeletal muscle the main events are: the fusion of myoblasts to form myotubes that increase in size by further fusion to them of myoblasts, the formation of myofibrils within their cytoplasm and the establishment of functional neuromuscular junctions with motor neurons. At this stage they can be regarded as mature muscle fibers. Any process that modulates the rate, frequency or extent of the progression of the cell over time, from its formation to the mature structure. Cell development does not include the steps involved in committing a cell to a specific fate. Any process that modulates the frequency, rate or extent of striated muscle cell differentiation. The process whose specific outcome is the progression of the cell over time, from its formation to the mature structure. Cell development does not include the steps involved in committing a cell to a specific fate. Any process that stops, prevents or reduces the frequency, rate or extent of cell differentiation. Any process that stops, prevents or reduces the frequency, rate or extent of striated muscle cell differentiation. Any process that stops, prevents or reduces the frequency, rate or extent of muscle cell differentiation. The process whereby a relatively unspecialized cell acquires specialized features of a striated muscle cell; striated muscle fibers are divided by transverse bands into striations, and cardiac and voluntary muscle are types of striated muscle.

View Gene Ontology (GO) Term

GO TERM SUMMARY
Name: negative regulation of skeletal muscle fiber development
Acc: GO:0048744
Aspect: Biological Process
Desc: Any process that stops, prevents or reduces the frequency, rate or extent of skeletal muscle fiber development. Muscle fibers are formed by the maturation of myotubes. They can be classed as slow, intermediate/fast or fast.
Synonyms:
  • down regulation of skeletal muscle fiber development
  • downregulation of skeletal muscle fiber development
  • down-regulation of skeletal muscle fiber development
  • negative regulation of skeletal myofiber development
  • inhibition of skeletal muscle fiber development
  • negative regulation of skeletal muscle fibre development
  • negative regulation of skeletal myofibre development
Proteins in PDR annotated with:
   This term: 0
   Term or descendants: 0


[geneontology.org]
INTERACTIVE GO GRAPH

GO:0048744 - negative regulation of skeletal muscle fiber development (interactive image map)
YRC Informatics Platform - Version 3.0
Created and Maintained by: Michael Riffle