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5. Epigenomics and Proteomics Class (0610)

1 byte removed, 10:13, 18 June 2016
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<p style="margin-left: 40px">&nbsp;&nbsp;It is process which the methyl group is added to the DNA. When the promoter of gene is methylated, then it represses the gene expression. Adenine and cytosine can be methylated,&nbsp;adenine methylation occurs only in prokaryotes. DNA methyltransferase 1 is an enzyme which transfer methyl group to DNA, and they work as tissue specific manner. DNA methylation has&nbsp; important roles in mammalian system. Genomic imprinting, X-chromosome inactivation, Heterochromatin maintenance, Developmental controls, Tissue specific expression controls.</p>
<p style="margin-left: 40px">&nbsp;Genomic imprinting can be caused by DNA methylation, and histone methylation which is independent of Mendelian inheritance. Expression of gene is inherited from mother or father. X-chromosome inactivation is the process which one of the two X chromosomes in all female cells is inactivated. Females(XX) carry twice as many dosage of gene as males(XY), so in order to solve this problem one X chromosome is inactivated randomly by methylations in the early developmental process inChromatin . Chromatin can be found as two status, heterochromatin and euchromatin. Heterochromatin is tightly packed form of DNA, and controlled by DNA methylation. As I mention above, DNMT1 act as tissue specific manner, so DNA methylation can control gene expression tissue specific manner.</p>
<p><strong>&nbsp;&nbsp; 2) Histone modification.</strong></p>
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