Ch 21 Epigenetics Flashcards
what is epigenetics?
“above” genetics; studies phenotypes and processes transmitted to cells that are not a result of differences in DNA base sequence
describe how DNA methylation affects gene expression
the addition of methyl groups to nucleotide bases represses transcription
what is the most common base that is methylated?
cytosine
what are CpG islands and where are they most often located?
DNA regions with many CpG nucleotides, and they are most often located at or near promoters
enzymes that add methyl groups
DNA methyltransferases
enzymes that remove methyl groups
demethylases
if genes are actively being transcribed, how would you expect the CpG islands to be?
the CpG islands would not be methylated if the genes are actively being transcribed
explain how DNA methylation is maintained through the replication process
Original parental strand is methylated, and new DNA strands are synthesized unmethylated
Methyltransferase enzymes recognize the DNA is hemimethylated, and add methyl groups to the new strand
Now DNA is fully methylated
how does DNA methylation repress transcription?
the methyl group sits in the major groove of DNA and prevents binding of transcription factors and proteins
explain how restriction enzymes are used to detect DNA methylation?
enzymes that are not sensitive to methylation and enzymes that are sensitive methylation cut the same fragments of DNA, and areas that are differently cut represent methylated regions
explain how bisulfite sequencing is used for analyzing DNA methylation
DNA is treated with sodium bisulfite, where unmethylated cytosine is converted into uracil and detected as thymine, whereas methylated cytosine is not converted. analysis of the DNA shows cytosine as methylated
explain how histone acetylation alters chromatin structure and affects gene expression?
acetyl groups are added to amino acids in histone tails, which destabilizes chromatin, making it open and accessible and increase transcription
explain how histone methylation alters chromatin structure and affects gene expression
methyl groups are added to amino acids of histones, and effects of transcription vary based on which amino acid is methylated
explain how miRNA plays a role in gene expression
miRNA combines with RISC, which imperfectly pairs with complementary mRNA sequence and slows down its translation
explain how siRNA plays a role in gene expression? (two ways)
siRNA can combine with RISC, which perfectly pairs with complementary mRNA sequence and degrades the mRNA, preventing translation
siRNA can combine with RITS, which attracts methylase enzymes that methylate DNA and producing a heterochromatin structure, preventing transcription
