Transcription

Question 1

How does methylation affect DNA transcription?

Answer 1

DNA Methylation (not to be confused with histone methylation) is a common epigenetic signaling tool that cells use to lock genes in the “off” position.

Question 2

Which nucleotide is methylated to silence genes?

Answer 2

Cytosine

Question 3

What are DNMT1, 3a, and 3b?

Answer 3

DNA methyltranferases

Question 4

How do differential methylation patterns relate to cancer?

Answer 4

• DNA hypermethylation has been shown to silence tumor suppressor genes
• Cancer cell genomes have exhibited HYPOmethylation overall in comparison the healthy cells
• But hypermethylation of the genes involved in tumor cell invasion, DNA repair, regulation of the cell cycle, and other processes where silencing leads to metastasis

Question 5

How do group transfers affect chromatin packing?

Answer 5

Acetylation - Loose packing and euchromatin

Methylation - Tight packing and gene silencing

Question 6

What is the role of SWI/SNF in histone remodeling?

Answer 6

• SWI/SNF opens up DNA regions where transcription proteins, transcription factors, and co-activators bind to turn on gene transcription
• Absence of SWI/SNF results in inability of nucleosome to move farther and remain tightly aligned

Question 7

What are enhancers?

Answer 7

• Sequencee of DNA which activator proteins bind to

- Their binding causes DNA to bend

Question 8

Wha this the function of Protein complexes in binding of transcription factors?

Answer 8

Make it easier for RNA polymerase to bind

Question 9

Differentiate the need of TFs in Bacteria and Eukaryotes for transcription.

Answer 9

Bacteria: an RNA polymerase and single GTF

Euks: An RNA polymerase and Multiple GTFs to form a TIC

Question 10

Which strand is n enhancer on compared to the gene it modifies?

Answer 10

ICS-Acting: On the same strand of DNA

Question 11

What is the major polymerase for transcription?

Answer 11

RNA Polymerase II

Question 12

What provides the specificity for binding of RNA polymerase?

Answer 12

The promoter sequence

Question 13

Describe the structure of the prokaryotic RNA polymerase.

Answer 13

3 Units:

Alpha

Beta: Forms core enzyme

Sigma: Promotor recognition

Question 14

How does RNA polymerase choose the transcription start site?

Answer 14

Based on distance from consensus sequence

Question 15

What are the two prokaryotic signal terminators?

Answer 15

Rho-Independent: Inverted CG repeats which form a hairpin and a 6 polyadenine tail;

Rho-Dependent: C-G hairpin loop; Requires Hexomeric ATPase with helicase activity “Rho”

• Rho moves toward 3’ end
• Rho binds C-Rich region “Rho utilization site”
• Unzips RNA f/ DNA and acts as RNA/DNA helicase

** NO ADENINE RICH REGION

Question 16

How does Rafampin work?

Answer 16

Binds to Beta subunit of Prok RNA preventing chain growth and transcription

Question 17

What are the two types of Eukaryotic RNA Polymerases?

Answer 17

RNA Polymerase I: Synthesizes rRNA precursors

RNA PM II: Synthesizes nuclear precursors of mRNA

RNA PM III: Synthesizes tRNA, 5S, rRNA, and some snoRNA and snRNA

Question 18

What is ncRNA?

Answer 18

functional RNA that is transcribed but NOT TRANSLATED

Question 19

What would an enzyme preventing 5’-5’ linkag disrupt?

Answer 19

edition of the 5’ guanine cap

Question 20

What is the average length of a poly A Tail?

Answer 20

50 - 200

Question 21

Describe pathology of Beta-Thalesemia

Answer 21

• One or more defective B-globin genes
• No symptoms at birth
• Major (Both) results in severe anemia 1-2 yrs after birth

*** RNA splicing represents a large portion of all Beta-thalassemia mutations