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GEN 314

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transcription of cloned insert (gene must be placed under control of promoter ... techniques (e.g. Western blot) = sequence available for probe design. Western blot ... – PowerPoint PPT presentation

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Title: GEN 314


1
GEN 314
  • Gene Manipulation Lecture Four
  • Gene expression in E. coli

2
Introduction
  • Requirements for expression in E. coli
  • transcription of cloned insert (gene must be
    placed under control of promoter recognized by
    hosts RNA polymerase 3-end terminator)
  • Translation requires
  • that an mRNA bears a ribosome binding site
    (rbs)
  • mRNA includes translational start codon (AUG
    or GUG)
  • sequence complementary to 3-end of 16S rRNA
  • Concerns of expressing proteins in E. coli
  • post-transcriptional modifications, e.g.
    phosphorylation (modifications can be introduced
    in E. coli)
  • stability some proteins are degraded if
    their config. is doesnt protect from E. coli
    proteases
  • rate of formation of functional 3D structures
    chaperones form correct tertiary structures (E.
    coli!!!)

3
Fusion proteins
  • Clearly, for expression to occur
  • structural gene placed under promoter
  • promoter function in E. coli
  • protein synthesis from N-terminus
  • However, fusion proteins may also be produced
  • two sequences that are in-frame relative to
    one another and expressed as a single protein
  • Advantages of expressing fusion proteins
  • N-terminal fusion may stabilize the protein
    from proteolytic degradation
  • E. coli protein on the N-terminus can
    facilitate purification of the foreign protein
    activity (pET31b Zhao et al. 2007. Prot. Expr.
    Pur. 53 (1) 232-237)
  • or act as a reporter gene to monitor
    expression (e.g. luciferase van Leeuwen et al.
    2000. Plant Mol. Biol. Rep. 18 143a-143t)
  • in some cases, it may be possible to cleave
    fusion protein to yield native protein

4
Luciferase reporter system
  • Luciferase are group of enzymes commonly used in
    nature for bioluminescence
  • Firefly luciferase, from the firefly Photinus
    pyralis
  • Light is produced by the oxidation of a pigment
    (luciferin), involving ATP
  • reaction catalyzed by luciferase
  • Two step reaction
  • luciferin ATP ? luciferyl adenylate PPi
  • luciferyl adenylate O2 ? oxyluciferin AMP
    Light
  • Reaction very energy efficient because nearly all
    energy input gt light

5
Achieving gene expression
  • Plasmid-based systems gene expression achieved
    via,
  • cloning DNA cartridge containing the necessary
    regions for efficient transcription and
    translation
  • cloning gene of interest in specially-designed
    expression vector
  • Commonly use expression vectors, e.g. pET vectors
  • promoters used include lac, trp, lpp, etc
  • Tests to show that expression of a cloned gene is
    under control of selected E. coli promoter
  • expression obtained only in correct
    orientation!
  • expression should be enhanced by environmental
    conditions that normally lead to promoter
    activation, e.g. IPTG with lac-based expression
    vectors or starvation in trp-based vectors

6
pET expression vector
www.emdbiosciences.com
7
Reading frame
  • Expression of fusion proteins depends largely on
    the correct translational reading frame
  • For example, plasmid pMR100 (designed to
    facilitate the detection of inserts in the
    correct reading frame)
  • lac promoter directs transcription of
    NH2-terminus of lacI gene followed by a MCS and
    an out-of-frame lacZ gene
  • gene insertion into the MCS results in
    frameshift production of functional
    ?-galactosidase
  • lacZ gene acts as a reporter of functional
    activity
  • Other reporter systems include,
  • alkaline phosphatase
  • luciferase
  • galactokinase
  • chloramphenicol acetyl transferase

8
Fusion proteins in pBR322
  • Clone cDNA transcripts into the PstI site (rat
    preproinsulin mRNA Villa-Komaroff et al. 1978)
  • PstI lie with the ApR gene
  • Cloning via homopolymer tailing
  • Different lengths of repeating nucleotides (e.g.
    GC) added and some may be in the correct reading
    frame

9
Detecting gene expression
  • Unknown gene (function) three methods
  • mini-cells small, spherical, anucleate cells
    produced continuously during growth of some
    mutants strains of bacteria
  • size-difference separation from wild-type cells
    by sucrose gradient
  • mini-cells from plasmid-free parents lack DNA
  • mini-cells from plasmid-containing parents are
    capable of RNA and protein synthesis ideal for
    detecting gene expression from recombinant
    plasmids
  • UV irradiation of the host cell (maxi-cell
    method Sancar et al. 1979) most popular method
  • Irradiate E coli recA uvrA cells gt stop DNA
    synthesis but plasmid not irradiated remain
    capable of normal DNA replication.
  • Application infect irradiated bacteria with ?
    vector containing insert gt cloned genes seen
    against background of ?-specified proteins
  • in vitro transcription and translation systems
  • Known gene hybridization techniques (e.g.
    Western blot) sequence available for probe
    design

10
Western blot
Determine conc., boil (unfold proteins), add
buffer soln, sulfhydryl soln (prevent di-sulfide
bonds) SDS (detergent -ve charge around
proteins)
11
End Lecture Four
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