1. transcription dr. ishtiaq ahmad khan dr. panjwani center for molecular medicine and drug research
TRANSCRIPT
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1
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TranscriptionTranscription
Dr. Ishtiaq Ahmad KhanDr. Ishtiaq Ahmad Khan
Dr. Panjwani Center for Molecular Medicine Dr. Panjwani Center for Molecular Medicine and Drug Researchand Drug Research
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The synthesis of RNA molecules using DNA strands as the templates so that the genetic information can be transferred from DNA to RNA.
Transcription
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• Both processes use DNA as the template.
• Phosphodiester bonds are formed in both cases.
• Both synthesis directions are from 5´ to 3´.
Similarity between replication and transcription
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replication transcription
template double strands single strand
substrate dNTP NTP
primer yes no
Enzyme DNA polymerase RNA polymerase
product dsDNA ssRNA
base pair A-T, G-C A-U, T-A, G-C
Differences between replication and transcription
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Template and Enzymes
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• The whole genome of DNA needs to
be replicated, but only small portion of genome is transcribed in response to the development requirement, physiological need and environmental changes.
• DNA regions that can be transcribed into RNA are called structural genes.
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§1.1 Template
The template strand is the strand from which the RNA is actually transcribed. It is also termed as antisense strand.
The coding strand is the strand whose base sequence specifies the amino acid sequence of the encoded protein. Therefore, it is also called as sense strand.
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G C A G T A C A T G T C5' 3'
3' C G T C A T G T A C A G 5' template strand
coding strand
transcription
RNAG C A G U A C A U G U C5' 3'
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• Only the template strand is used for the
transcription, but the coding strand is not.
• Both strands can be used as the templates.
• The transcription direction on different strands is opposite.
• This feature is referred to as the asymmetric transcription.
Asymmetric transcription
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5'
3'
3'
5'
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§1.2 RNA Polymerase
• The enzyme responsible for the RNA synthesis is DNA-dependent RNA polymerase.
– The prokaryotic RNA polymerase is a multiple-subunit protein of ~480kD.
– Eukaryotic systems have three kinds of RNA polymerases, each of which is a multiple-subunit protein and responsible for transcription of different RNAs.
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core enzymeholoenzyme
Holoenzyme
The holoenzyme of RNA-pol in E.coli consists of 5 different subunits: 2
.
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subunit MW function
36512Determine the DNA to be transcribed
150618 Catalyze polymerization
155613 Bind & open DNA template
70263Recognize the promoter
for synthesis initiation
RNA-pol of E. Coli
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RNA-pol I II III
products 45S rRNA mRNA
5S rRNA
tRNA
snRNA
Sensitivity to Amanitin
No high moderate
RNA-pol of eukaryotes
Amanitin is a specific inhibitor of RNA-pol.
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• Each transcriptable region is called
operon.
• One operon includes several structural genes and upstream regulatory sequences (or regulatory regions).
• The promoter is the DNA sequence that RNA-pol can bind. It is the key point for the transcription control.
§1.3 Recognition of Origins
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5'
3'
3'
5'
regulatory sequences structural gene
promotorRNA-pol
Promoter
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5'
3'
3'
5'-50 -40 -30 -20 -10 1 10
start -10 region
T A T A A T A T A T T A
(Pribnow box)
-35 region
T T G A C A A A C T G T
Prokaryotic promoter
Consensus sequence
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Consensus Sequence
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• The -35 region of TTGACA sequence
is the recognition site and the binding site of RNA-pol.
• The -10 region of TATAAT is the region at which a stable complex of DNA and RNA-pol is formed.
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Section 2
Transcription Process
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General concepts
• Three phases: initiation, elongation, and termination.
• The prokaryotic RNA-pol can bind to the DNA template directly in the transcription process.
• The eukaryotic RNA-pol requires co-factors to bind to the DNA template together in the transcription process.
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§2.1 Transcription of Prokaryotes
• Initiation phase: RNA-pol recognizes the promoter and starts the transcription.
• Elongation phase: the RNA strand is continuously growing.
• Termination phase: the RNA-pol stops synthesis and the nascent RNA is separated from the DNA template.
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a. Initiation
• RNA-pol recognizes the TTGACA region, and slides to the TATAAT region, then opens the DNA duplex.
• The unwound region is about 171 bp.
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• No primer is needed for RNA synthesis.
• The subunit falls off from the RNA-pol once the first 3,5 phosphodiester bond is formed.
• The core enzyme moves along the DNA template to enter the elongation phase.
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b. Elongation
• The release of the subunit causes the conformational change of the core enzyme. The core enzyme slides on the DNA template toward the 3 end.
• Free NTPs are added sequentially to the 3 -OH of the nascent RNA strand.
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Transcription bubble
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RNA-pol of E. Coli
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RNA-pol of E. Coli
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Simultaneous transcriptions and
translation
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c. Termination
• The RNA-pol stops moving on the DNA template. The RNA transcript falls off from the transcription complex.
• The termination occurs in either -dependent or -independent manner.
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The termination function of factor
The factor, a hexamer, is a ATPase and a helicase.
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-independent termination
• The termination signal is a stretch of 30-40 nucleotides on the RNA transcript, consisting of many GC followed by a series of U.
• The sequence specificity of this nascent RNA transcript will form particular stem-loop structures to terminate the transcription.
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§2.2 Transcription of Eukaryotes
• Transcription initiation needs promoter and upstream regulatory regions.
• The cis-acting elements are the specific sequences on the DNA template that regulate the transcription of one or more genes.
a. Initiation
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structural geneGCGC CAAT TATA
intronexon exon
start
CAAT box
GC box
enhancer
cis-acting element
Cis-acting element
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TATA box
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• RNA-pol does not bind the promoter directly.
• RNA-pol II associates with six transcription factors, TFII A - TFII H.
• The trans-acting factors are the proteins that recognize and bind directly or indirectly cis-acting elements and regulate its activity.
Transcription factors
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TF for eukaryotic transcription
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• TBP of TFII D binds TATA
• TFII A and TFII B bind TFII D
• TFII F-RNA-pol complex binds TFII B
• TFII F and TFII E open the dsDNA (helicase and ATPase)
• TFII H: completion of PIC
Pre-initiation complex (PIC)
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• The elongation is similar to that of
prokaryotes.
• The transcription and translation do not take place simultaneously since they are separated by nuclear membrane.
b. Elongation
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• The termination sequence is AATAAA followed by GT repeats.
• The termination is closely related to the post-transcriptional modification.
c. Termination
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Splicing
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mRNA Splicing
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Daniel A. Pomeranz Krummel, Chris Oubridge, Adelaine K. W. Leung, Jade Li & Kiyoshi Nagai Crystal structure of human spliceosomal U1 snRNP at 5.5 Å resolution
Nature 458, 475-480(26 March 2009) doi:10.1038/nature07851
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Leh
nin
ger, Principles of B
iochemistry, F
ifth E
dition - WH
Freem
an
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Alternative RNA splicing Shortly after the discovery of splicing came
the realization that the exons in some genes were not utilized in the same way in every cell or stage of development. In other words exons could be skipped or added. This means that variations of a protein (called isoforms) can be produced from the same gene.
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• Eukaryotic mRNA can be processed in more than one way to produce different mRNAs and thus different polypeptides.
• The primary transcript contains molecular signals for all the alternative processing pathways, and the pathway favored in a given cell is determined by processing factors, RNA binding proteins that promote one particular path.
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Alternative splicing largely explains how the 20,000–30,000 genes in the
human genome can Encode the hundreds of thousands of different
proteins estimated to exist in human cells.
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