eukaryotic & prokaryotic transcriptionbbartholomew/-lectures/transcription 09.pdf · recognize...
TRANSCRIPT
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Eukaryotic & Prokaryotic TranscriptionRNA polymerases
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RNA PolymerasesA. E. coli RNA polymerase
1. core enzyme = ββ'(α)2 has catalytic activity but cannot recognize start site of transcription
~500,000 daltonsdimensions: 100 X 100 X 160 angstromsrequires Mg2+ for activityb' binds 2 Zn atoms
2. holoenzyme = core enzyme + sigma factor (s)carries out four functions:
(i) template binding(ii) RNA chain initiation(iii) chain elongation (iv) chain termination
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Why would RNA polymerase in eukaryotes need to be different
than in prokaryotes?Don’t they carry out the same
basic process.
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Genome Size Comparison
• Prokaryotes are generally in the ~106 bpsize range – see Genome Sizes
• Eukaryotes are more in the ~109 bp size range
• Larger genome means it requires more specificity.
• Also the diversity of function – organelles, different cell type, and so on.
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RNA PolymerasesB. Eukaryotic RNA polymerases (RNAP)
1. 3 nuclear RNA polymerases a. RNAP I- transcribes rRNA genesb. RNAP II - transcribes mRNA genesc. RNAP III - transcribes tRNA, 5S rRNA, and
other small RNA genesd. have 10-17 different subunits, large
multisubunit complexes are functionally similar to E. coli RNA polymerase
e. cannot bind to their respective promoters alone, but requires transcription factor for promoter specific recruitment
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RNA Polymerases
2. organelle specific RNA polymerasesmore prokaryotic-like
1. chloroplast2. mitochondria
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Of the 3 nuclear RNA polymerases which would be the
more specialized?
Which would require more diversity of action?
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RNA Polymerases
3. RNAP IIa. core subunits - have sequence similarity
to the core subunits ofE. coli core RNA polymerase or subunits of other eukaryotic RNA polymerases
b. shared or common subunitssame subunits found in RNAP III and II or in
RNAP I and RNAP IIc. unique subunits - no similar homologs
found anywhere else
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RNA Polymerases3. RNAP II
d. CTD or C-terminal domain of the largest subuniti. a heptapeptide repeat - 52X humans and 26X
yeastii. can be highly phosphorylated at Ser and Thriii. three subforms of RNAP II: IIo, IIa, and IIb
e. cycling of phosphorylated and dephosphorylatedforms of RNAP II associated with different stages in transcriptionf. CTD is also required to recruit proteins for capping of 5'-end of mRNA, as well as for splicing and polyadenylation of the 3'end of mRNA
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Where does the specificity come in for transcription?
How does RNA polymerase II know where to begin?
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Promoter StructureB. mRNA genes transcribed by RNAP II
1. TATA box element - located between -30 and -20 bps2. Initiator region or In: centered on the start site of transcription3. DPE: downstream promoter element4. Response elements (RE)
a. upstream of the TATA boxb. many different kinds - help respond to signalsc. multiple RE present - synergy
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How is transcription of particular genes get turned on in response to external stimuli such as stress
(heat, starvation, and so on), hormones and other small
molecule effectors?
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Promoter Structure
B. mRNA genes transcribed by RNAP II5. enhancers
a. can be located at great distances (>1000 bps) from start site of transcription either from the 5' or 3' end of gene
b. stimulates transcription (~100 times)c. orientation independent
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Promoter Structure
B. mRNA genes transcribed by RNAP II5. enhancers
d. two models of how enhancers might work i. entry point of RNAP II by preventing
nucleosomes from binding or an altered DNA conformation that promotes RNAP II recognition
ii. transcription factors bound to enhancer will stimulate binding of RNAP II to promoter regions closer to the start site of transcription
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How different are enhancers from promoter regions?Are different DNA elements used
in each?
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Transcription Factors
General versus promoter specific transcription factors.
Factors that are required for all mRNA genes and others that are required for only a small
subset of genes
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General Transcription Factors
Promoter Specific Transcription Factors
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How does RNA polymerase II find its correct binding site and is
there such a thing as a sigma factor in this case?
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Regulation of TranscriptionI. Basal vs. activated transcription for
mRNA genesA. General transcription factor (TF) vs. promoter-specific
1. general TFs are required by all mRNA genesa. an absolute requirementb. transcription can occur alone with these
factors and by definition the basal level of transcription2. promoter-specific TFs are different for each gene3. the promoter-specific TFs are required for
maximal level of transcription or for activated transcription (induction)
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General transcription factorsA. TFIID = TBP +TAFs
1. TBP binds the minor groove of the TATA box and kinks DNA
2. TAFs interact with the Inr region 3. makes contact with TFIIB and TFIIA4. have up to 14 different TAF proteins
bound to TBP5. only TBP is required for basal
transcription
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General transcription factorsB. TFIIA
1. helps stabilize TBP-DNA interactions2. required for activation and to counteract
repression3. not essential in a highly purified system
C. TFIIB1. is a single polypeptide2. involved in start site selection3. homologous to a subunit of TFIIIB4. interacts directly with TBP
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General transcription factorsD. TFIIF
1. originally identified as a RNAP II associated protein (RAP)
2. has sigma like activityenhances RNAP II binding to promoter DNAand reduces its nonspecific binding to DNA
3. also important for promoter clearance
E. TFIIE1. heterodimer (34 & 56 kD)2. can be shown to bind RNAPII directly3. required for recruitment of TFIIH
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General transcription factorsF. TFIIH
1. has both 3'-5' and 5'-3 helicase activity which requires ATP hydrolysis2. the 3'-5' helicase activity is essential for promoter opening
a. there is an ATP requirement for promoter openingb. can circumvent by using supercoiled DNA or premelted DNA
eliminates the need for TFIIH3. the Cdk7 subunit is a CTD kinase and is regulated by another subunit of IIH called cyclin H
a. this complex is a CAK (CTD kinase activating kinase)b. can be dissociated from the core TFIIH complexc. not required for formation of the first phosphodiester bond
formation4. TFIIH is also involved in nucleotide excision repair of DNA
a. actively transcribed DNA is more readily repairedb. interaction with TFIIE modulates the ATPase, helicase, and
kinase activity of TFIIH
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How does the activity of RNA polymerase II get modulated?
Summary time
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Promoter StructureA. rRNA genes - transcribed by RNAP I
1. Core promoter element (-45 to +20) alone is sufficient for transcription
2. Upstream control element (-180 to -107)required for efficient transcription
3. transcription factor UBF binds to both promoter elements
4. which then helps recruit a second transcription factor called SL1
a. contains 4 subunitsb. one of the subunits is TBPc. referred to as specificity factor
- species specific
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How are RNA polymerase I promoter and transcription factor
requirements fundamentally different from RNA polymerase II?
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Promoter StructureB. genes transcribed by RNAP III
1. tRNA genesa. box A: crucial for start site selectionb. box B c. spacing between the two is variabled. TFIIIC is bound to both box A and Be. recruits TFIIIB to DNA upstream of start site of transcription
2. 5S rRNA genea. box Ab. box C is bound by TFIIIAc. TFIIIA helps recruit TFIIIC and in turn TFIIIB
3. U6 snRNA genea. TATA boxb. PSE: proximal stimulatory element, centered near bp -50c. DSE: distal stimulatory element
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