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H1 Design of Plasmid Vectors
Fig. 1. (a) Screening by insertional inactivation of a resistance gene; (b) replica plating.
H1 Design of Plasmid Vectors
Fig. 2. (a) A plasmid vector designed for blue–white screening; (b) the colonies produced by blue–white screening.
The insertion of a DNA fragment interrupts the ORF of lacZ’ gene, resulting in non-functional gene product that can not digest its substrate x-gal.
H1 Design of Plasmid Vectors
Fig. 3. A multiple cloning site at the 5′-end of lacZ′
Ampr
ori
pUC18(3 kb)
MCS (Multiple cloning sites,多克隆位点)
Lac promoter
lacZ’
H1-2 A plasmid vector for gene expression
Expression vectors: allowing the exogenous DNA to be inserted, stored and expressed.
1. Promoter and terminator for RNA transcription are required.
2. Intact ORF and ribosomal binding sites (RBS) are required for translation.
Expression vector (transcription and translation).
Promoters1. lacUV-5: a mutant lac promoter which is in
dependent of cAMP receptor protein.
2. lPL promoter
3. Phage T7 promoter
Fused proteins
Individual proteins
H2 Bacteriophage vector
Tow examples: H2-1 λ phage bacteriophageλ λ replacement vector H2-2 M13 phage M13 phage vector Cloning in M13 Hybrid plasmid-M13 vectors
.viruses that can infect bacteria.
.48.5 kb in length
.Linear or circular genome (cos ends)
λ phage
Lytic phase (Replicate and release)
Lysogenic phase (integrate into host genome)Fig. 1. (a) Phage λ and its genome;
(b) the phage λ cos ends.
λ replacement vector
. Replace the nonessential region of the phage genome with exogenous DNA
. high transformation efficiency (1000-time higher than plasmid)
Plaques: the clear areas within the lawn where lysis and re-infection have prevented the cells from growing.
Recombinant l DNA may be purified from phage particles from plaques or from liquid culture.
H2-2 M13 phage vector
1. Replication form (RF, dsDNA) of M13 phage can be purified and manipulated like a plamid.
2. Phage particles (ssDNA): DNA can be isolated in a single-stranded form
. DNA sequencing.
. Site-directed mutagenesis.
H3 COSMIDS, YACs AND BACs
. Cloning large DNA fragments
. Cosmid vectors
. YAC vectors
. Selection in S. cerevisiae
. BAC vector
Analysis of eukaryotic genes and genome organization of eukaryotic requires vevtors with a larger capacity for cloned DNA than plasmids or phage λ.
H3-1 Cloning large DNA fragments
(Eukaryotic Genome project)
H3-2 Cosmid vectors
Cosmids use the λ packaging system to package large DNA fragments bounded by λ cos sites, which circularize and replicate as plasmids after infection of E.coli cells. Some cosmid vectors have two cos sites, and are cleaved to produce two cos ends, which are ligated to the ends of target fragments and packaged into λ particles. Cosmids have a capacity for cloned DNA of 30-45 kb.
Yeast artifical chromosomes can be constructed by ligating the components required for replication and segreation of natural yeast chromosomes to very large fragments of target DNA, which may be more than 1 Mb in length.
Yeast artifical chromosome(YAC) vectors contain two telomeric sequences(TEL), one centromere(CEN), one autonomously replicating sequence(ARS) and genes which can act as selectable markers in yeast.
H3-3 YAC vectors
Selection for the presence of YACs of other vectors in yeast is achived by complementation of a mutant strain unable to produce an essential metabolite, with the correct copy of the mutant gene carried on the vector.
H3-4 Selection in S.cerevisiae
H4 Eukaryotic Vectors
1. Shuttle vectors
2. Yeast episomal plasmids (Yeasts)
3. Agrobacterium tumefaciens Ti plasmid (Plant
s)
4. Baculovirus (Insects)
5. Mammalian viral vectors (Mammalian)
H4-1 Yeast episomal plasmids (YEps)
Vectors for the cloning and expression of genes in Saccharomyces cerevisiae.
H4-3 Baculovirusbaculovirus is an insect virus which is used for the overexpression of animal proteins in insect cell culture.
H4-4 Mammalian viral vectors
Fig 1. Gene expression by SV40. Early genes are in red, late genes are in green. Note: - - - - indicates regions of the primary transcript which are removed in the alternatively processed mRNA. Cross-hatched area indicates region of RNA translated in different reading frames according to which alternatively spliced transcript is being translated Modified from Fiers et al.,Nature 273:113
Fig 2. retrovirus lifecycle