pET vectors
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Jan 05, 2018
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recombinant DNA technology
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p ET VECTORS Submitted by- KABERI NATH ROLL NO-17PBT206
INTRODUCTION Vectors with strong, controllable promoters are used to maximize the synthesis of cloned gene products. Generally, cloned gene preceded by a promoter recognized by the host cell leads to detectable synthesis of the cloned gene product . But recombinant DNA technology is mainly used for synthesis of large quantities of protein, either to study its properties or because it has commercial value . To maximize gene expression only selecting the strongest promoter possible is not enough, as the effects of overexpression on the host cell also need to be considered. O verexpression of a protein may be toxic to the host cell. H igh-level synthesis can also exert metabolic drain on the cell leading to slower growth. To minimize the problems associated with high-level expression, it is usual to use a vector in which the cloned gene is under the control of a regulated promoter. 2
Contd ……… pET - Plasmid for Expression by T7 RNA polymerase O riginally constructed by Studier and colleagues. S ize 5700 bp. These are a family of expression vectors that utilize phage T7 promoters to regulate synthesis of cloned gene products. D erived from the pBR322 plasmid, pET vectors engineered to take advantage of the features of the T7 bacteriophage gene 10 that promote high-level transcription and translation. It is one of the most widely used systems for the cloning and in vivo expression of recombinant proteins in E. coli. 3
Components of p et vector pET vector expression system usually consist of- Site of transcription with lac operon and gene of interest Origin of replication and antibiotic resistance gene lacI for production of Lac operon repressor protein Normal function- no protein expression ( LacI protein represses transcription by blocking T7 RNA polymerase expression) Altered function- protein expression (IPTG binds to Lac repressor protein and expresses T7 RNA polymerase for transcription) 4
Regulati0n of expression of genes cloned into a p ET vector The gene for T7 RNA polymerase (gene 1) is inserted into the chromosome of E. coli and transcribed from the lac promoter; therefore, it will be expressed only if the inducer IPTG is added. The T7 RNA polymerase will then recognise the T7 promoter on the vector and transcribe the gene cloned into the pET vector . If the protein product of the cloned gene is toxic, it may be necessary to further reduce the transcription of the cloned gene before induction. The T7 lysozyme encoded by a compatible plasmid, pLysS , will bind to any residual T7 RNA polymerase made in the absence of induction and inactivate it . Also, the presence of lac operators between the T7 promoter and the cloned gene will further reduce transcription of the cloned gene in the absence of the inducer IPTG. 5
Fig: pET vector expression system 6
ADVANTAGES The T7 promoter is one of the strongest known promoters. It can produce a lot of protein. The pET plasmids have many common restriction sites, especially in front of the T7 promoter but also in other places. The very strong T7 promoter is regulated by the lac operator. In addition, the plasmids encode their own lac repressor which reduces the leakiness of the promoter. The pET plasmids have a medium copy number. (~20-25 per cell ), which can be helpful because it prevents weird things from happening due to copy numbers that are too high or too low. It allows for the high expression level of the T7 promoter without overloading the cell with many copies of the plasmid in addition. 7
DISADVANTAGE Despite the strong selectivity of the T7 promoter for its phage-encoded polymerase, residual "leaky" expression of very toxic proteins from the basic pET constructs can be sometimes lethal to the cell. 8
applications The pET System is the most powerful system yet developed for the cloning and expression of recombinant proteins in E. coli . The pET System provides six possible vector-host combinations that enable tuning of basal expression levels to optimize target gene expression. These options are necessary because no single strategy or condition is suitable for every target protein. 9
REFERENCES S.B. Primrose and R.M. Twyman . “Principles of Gene Manipulation and Genomics”. Seventh Edition Studier FW, Rosenberg AH, Dunn JJ, Dubendorff JW. “Use of T7 RNA polymerase to direct expression of cloned genes”. Methods Enzymol . 1990;185:60-89 Studier FW, Moffatt BA. “Use of bacteriophage T7 RNA polymerase to direct selective high-level expression of cloned genes”. J Mol Biol. 1986 May 5;189(1):113-30 . Dubendorff JW, Studier FW. " Controlling basal expression in an inducible T7 expression system by blocking the target T7 promoter with lac repressor". Journal of Molecular Biology. 1991 ;219 (1): 45–59. 10
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