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GENETICS – PowerPoint PPT presentation

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1
Transcription
  • M.PRASAD NAIDU
  • MSc MEDICAL BIOCHEMISTY,
  • Ph.D.RESEARCH SCHOLAR

2
  • Definition
  • Synthesis of RNA using ssDNA as a template by
    DNA
  • dependent RNA polymerase
  • Similar to replication in terms of chemical
    mechanism,
  • polarity, and use of template but differ
    in
  • -does not require primers
  • -only a short segment of
    DNA is transcribed

3
  • All 3 types of cellular RNAs are copied during
    transcription
  • Messenger RNAs (mRNAs) encode the amino acid
    sequence of one or more polypeptides specified by
    a gene or set of genes.
  • Transfer RNAs (tRNAs) read the information
    encoded in the mRNA and transfer the appropriate
    amino acid to a growing polypeptide chain during
    protein synthesis.
  • Ribosomal RNAs (rRNAs) are constituents of
    ribosomes, the intricate cellular machines that
    synthesize proteins.

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  • Basic Requirements of Transcription--prokaryotic
  • Template ------ssDNA
  • Enzyme-----RNA polymerase
  • Regulatory proteins
  • Ribonucleoside triphosphates ( A, G,C,U )
  • Energy uses the energy released from the
    cleavage of pyrophosphates to two phosphates by
    pyrophosphotase

5
  • Steps involved in Transcription
  • Initiation
  • -recognition of specific DNA sequence
    ( promoter region )
  • -beginning of bond formation process
  • Elongation
  • Termination release

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  • Initiation
  • Starts with the recognition of promoter sequence
    on the DNA coding ( anti-template ) strand by RNA
    polymerase
  • Promoter sequence
  • Present on the DNA
  • Two common sequences are present on the
    upstream ( 5 ) side of the start site
  • Start site is denoted by 1

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  • Contd--
  • -10 sequence -35 sequence
  • 5------TTGACA--------TATAAT--------start site
    --------terminator 3
  • (-35 ) ( -10)
    1
  • Sequences are 6 bp long
  • Distance b/n these two promoters is conserved
    is a
  • separation of 17-19 nucleotides in normal
  • -10 sequence is called Pribnow box ( TATA box )

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  • Contd
  • Genes with strong promoters cause frequent
    initiation of transcription as often as every two
    seconds ( E coli ) (strong promoters have
    sequence that correspond closely to the consensus
    sequence )
  • Genes with weak promoters are transcribed about
    once in 10 minute ( weak promotes tend to have
    multiple substitution at that site )

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  • RNA Polymerase ( E.Coli )
  • Multisubunit enzyme
  • DNA dependent RNA polymerase
  • Very large molecule ( 500 kd ) and complex enzyme
    consisting of four kinds of subunits
  • Prokaryotes have single RNA pol that transcribes
    all the three RNAs ( mRNA, t RNA, r RNA )
  • a2 ß ß O s ------holoenzyme
  • RNA polymerase with out s subunit is called
    core enzyme
  • Core enzyme contains the catalytic activity.

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Subunit Gene Number Mass ( kd ) Role
a rpo A 2 37 Binds regulatory proteins
ß rpo B 1 151 Forms phosphodieter bond
ß rpo C 1 155 Binds DNA template
s rpo D 1 70 Recognizes promoter initiates synthesis
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  • Contd--
  • RNA polymerases lack a separate proofreading 3
    to 5 exonuclease active site (such as that of
    many DNA polymerases)
  • The error rate for transcription is higher than
    that for chromosomal DNA replication
    approximately one error for every 10 4 to
    10 5 ribonucleotides incorporated into RNA.

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  • Contd--
  • After recognizing binding to the promoter
    region RNA pol synthesizes complimentary RNA
    sequence to the DNA template strand ( U instead
    T is paired with A )
  • RNA synthezised from 5 to 3 ( template read
    from 3 to 5 )
  • 5 end of new RNA chain is highly distinctive a
    molecule starts with either pppG or pppA ( DNA
    synthesis Primers )
  • Template strand is determined by the location of
    the promoter region for that gene

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  • Contd--
  • RNA pol interacts with activator repressor
    proteins that modulate the rate of transcription
  • In bacteria one species of RNA pol can synthezise
    all the RNA molecules ( mRNA, tRNA, rRNA ) except
    short RNA primers needed for DNA replication (
    primase )

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  • Elongation
  • RNA polymerase elongates an RNA strand by adding
    ribonucleotide units to the 3-hydroxyl end
  • The 3-hydroxyl group acts as nucleophile,
    attacking the phosphate of the incoming
    ribonucleoside triphosphate and releasing
    pyrophosphate.
  • By the time 10 nucleotides are added ,the s
    factor dissociates the core enzyme continues
    the elongation of the transcript

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  • Contd
  • The template DNA strand is copied in the 3 to 5
    direction (antiparallel to the new RNA strand),
    just as in DNA replication.
  • Each nucleotide in the newly formed RNA is
    selected by Watson-Crick base-pairing interaction
  • RNA pol
  • (NMP)n NTP
    (NMP)n1 PPi
  • RNA
    Lengthened RNA

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  • Termination
  • E. coli has at least two classes of termination
    signals
  • one class relies on a protein factor called ?
    (rho)
  • the other is ? independent.
  • Most ? independent terminators have two
    distinguishing features.
  • The first is a region that produces an RNA
    transcript with self complementary sequences,
    permitting the formation of a hairpin structure
    centered 15 to 20 nucleotides before the
    projected end of the RNA strand.

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  • Contd--
  • The second feature is a highly conserved string
    of A residues in the template strand that are
    transcribed into U residues near the 3 end of the
    hairpin.
  • When a polymerase arrives at a termination site
    with this structure, it pauses
  • Formation of the hairpin structure in the RNA
    disrupts several AUU base pairs in the RNA-DNA
    hybrid segment and may disrupt important
    interactions

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  • Contd
  • Rho (? ) dependent termination
  • Rho factor is an ATP dependent RNA-DNA helicases
  • Recognizes and bind to the termination signals
    and disrupts the nascent RNA/DNA complex

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  • Transcription Is Regulated at Several Levels
  • Requirements for any gene product vary with
    cellular conditions or developmental stage, and
    transcription of each gene is carefully regulated
    to form gene products only in the proportions
    needed.
  • Regulation can occur at any step in
    transcription, including initiation ,elongation
    and termination.
  • Much of the regulation is directed at the
    polymerase binding and transcription initiation

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  • The binding of proteins to sequences both near to
    and distant from the promoter can also affect
    levels of gene expression.
  • Protein binding can activate transcription by
    facilitating either RNA polymerase binding or
    steps further along in the initiation process, or
    it can repress transcription by blocking the
    activity of the polymerase.
  • In E. coli, one protein that activates
    transcription is the cAMP receptor protein (CRP),
    which increases the transcription of genes coding
    for enzymes that metabolize sugars other than
    glucose when cells are grown in the absence of
    glucose.

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  • Contd--
  • Repressors are proteins that block the synthesis
    of RNA at specific genes.
  • In the case of the Lac repressor , transcription
    of the genes for the enzymes of lactose
    metabolism is blocked when lactose is unavailable

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  • Inhibitors
  • Rifampicin ( antitubercular drug)
  • -semisynthetic derivative
  • ( sterptomyces)
  • -specifically inhibit initiation not by blocking
    the binding of RNA pol but rather by interfering
    with the formation of the first phosphodiester
    bond
  • -Site of action is on ß subunit of RNA pol
  • -some mutants having an altered ß subunit are
    resistant to rifampacin

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  • Actinomycin D
  • -polypeptide derived from streptomyces
  • -binds tightly specifically to double stranded
    DNA prevents it from being an effective
    template for RNA synthesis
  • -at low concentration inhibits transcription
    without appreciably affecting replication
    protein synthesis
  • -inhibitor of both prokaryotic eukaryotic
    cell
  • -effective therapeutic agent in the treatment of
    some cancers

33
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