4-1: Transcription

Question 1

Enzyme involved in transcription

Answer 1

RNA polymerase

Question 2

Why must DNA be converted to RNA

Answer 2

DNA encodes genes but is inert
Needs to be RNA to carry out fxns

Question 3

Two strands in transcription. Which one is copied

Answer 3

Coding (copied) strand
Template strand

Question 4

What subunits make up RNA polymerase (core enzyme)

Answer 4

alpha subunit x2
Beta
Beta’
Omega

Question 5

What is the holoenzyme made up of, what does it do

Answer 5

Sigma factor (subunit)
Recognize promoter sequences

Question 6

What does the core enzyme do

Answer 6

Unwinds DNA, forms transcription bubble
Builds RNA chain one nucleotide at a time

Question 7

When is transcription terminated

Answer 7

When RNAp encounters a transcriptional terminator it dissociates

Question 8

What are the transcriptional terminators

Answer 8

Intrinsic (rho-ind) terminators: RNA hairpin forms, followed by string of ‘U’ residues (pause signal). Hairpin forces RNAp off

Rho-dependent terminators: protein called Rho binds RNA as it is transcribed, causes RNAp to dissociate after encountering certain sequence

Question 9

What is the terminator involved with hairpin formation

Answer 9

Intrinsic (rho-independent) terminator

Question 10

What initiates transcription

Answer 10

DNA sequences called promoters

Question 11

What dictates whether or not a region acts as a promoter

Answer 11

Sigma factors
Regulatory proteins

Question 12

What is the most common sigma factor

Answer 12

sigma^70 aka RpoD

Question 13

What sequences does RpoD recognize

Answer 13

TTGACA ~35 bp upstream from +1 (start site)
TATAAT ~10 bp upstream of +1 site

Question 14

Another name for the TATAAT sequence

Answer 14

Pribnow Box

Question 15

What are the three major classes of RNAs

Answer 15

Messenger RNA (mRNA)
Transfer RNA (tRNA)
Ribosomal RNA (rRNA)

Question 16

What are the functions of tRNA and rRNA

Answer 16

Functional RNAs used in the translation process

Question 17

What is mRNA

Answer 17

converted to protein during translation

Question 18

What kind of RNA makes up ~95% of a growing cell

Answer 18

rRNA, tRNA

Question 19

what are the two regions of mRNA

Answer 19

Open reading grames (ORF’s: translated)
Untranslated regions (UTRs)

Question 20

What are polycistronic mRNAs

Answer 20

mRNA that encode multiple ORFs

Question 21

How are polycistronic mRNAs arranged. Why?

Answer 21

Into an operon. So they can be cotranscribed

Question 22

The ORF spans from…

Answer 22

The start codon (e.g. ATG) to the stop codon (e.g. TAA)

Question 23

The 5’UTR spans from…

Answer 23

+1 to start codon. Contains ribosome binding site

Question 24

3’ UTR spans from…

Answer 24

Stop codon to final transcribed residue. Contains transcriptional terminator

Question 25

How is transcription different in eukaryotes?

Answer 25

3 RNA polymerases (RNAp 2 produces mRNA)
More complex RNAp (12+ subunits)
Use of transcription factors by RNAp to recognize promoter
No operons
Polyadenylated 3’ end, capped 5’ end

Question 26

Briefly describe transcription in archaea

Answer 26

Similar to euk
RNAp resembles RNAp 2 from euk
11-13 subunits in RNAP
Transcription factors

BUT similar to bacteria because simple
NO 5’ cap, NO poly A tail, no nucleus
Operons

Question 27

mRNA that encode multiple ORF are…

Answer 27

polycistronic