Homework Answers
OPTION A- REGULATORY AND PROTEIN CODING REGIONS
The sarcomeric myosin heavy chain (MyHC)gene family consists of eight known isoforms, each encoded by separate genes exhibiting a complex pattern of spatial and temporal regulation .Of the eight isoforms, four are expressed in adult skeletal muscle: type I or slow MyHC and three fast isoforms, IIa, IId/x, and IIb. Greater than 90% of the MyHC in adult skeletal muscle is composed of these latter three gene products. The three adult fast MyHC isoforms are expressed in different types of skeletal muscle fibers that have different physiological characteristics, with IIA fibers being smaller, slower, and more oxidative; IIB fibers typically being the largest, fastest, and most glycolytic; and IID/X fibers falling between these extremes.
Of the three adult skeletal fast MyHC genes,. Several muscle-specific regulatory elements have been found within the proximal IIb promoter, including potential binding sites for the myogenic regulatory factors (MRFs), serum response factor (SRF), and myocyte enhancer factor-2 (MEF-2) (11-16). Overexpression of any of the four MRFs greatly increases IIb promoter construct activity in differentiated C2C12 myotubes, whereas gene transfer studies have demonstrated that an E-box just upstream of the transcription start site is necessary for high-level expression of the IIb gene in vivo. In addition, mutation of the proximal AT-rich element AT-1 abolishes MEF-2 binding and greatly reduces promoter activity . members of the MRF and MEF-2 families of myogenic transcription factors appear to be necessary for high-level, muscle-specific expression of the MyHC-IIb gene.
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In humans, there are about 200 different types of cells. Why are your liver cells different from skin cells, or neurons, or muscle cells? During development, each cell accumulates different mutations changing their DNA They produce the same proteins but some of those proteins are denatured in each cell They have different DNA and thus, each cell produces different proteins They produce the same kind of proteins but not all proteins are active in each cell They have the same...
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Yet, all the cells in your body contain the same
genes (and same alleles). The difference across cell types
is that genes get selectively expressed (turned on or off)
based on the proteins needed for cellular function given their
environment.
Select which statement explains the reason why hair does not
normally grow on your muscle cells.
a.
Muscle cells have the gene for keratin, but do not express
it
b.
Muscle cells do not have the gene for keratin and...
28
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