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Woodrow KA  Swartz JR 《Proteomics》2007,7(21):3870-3879
A method employing sequential rounds of cell-free protein synthesis (CFPS) was developed to identify gene products influencing the complex metabolic systems that result in protein accumulation and folding in vitro. The first round of CFPS creates an array of cell extracts individually enriched with a single gene product expressed in-parallel from linear DNA expression templates (ETs). The cell extract is engineered to enhance template stability and to provide reaction conditions conducive for general protein activation. Following first-round expression, linear templates are selectively degraded and a plasmid template for a reporter enzyme is added to initiate a subsequent round of protein expression. Reporter concentration and activity identify first-round gene products that affect amino acid and nucleic acid stability, energy supply, protein expression, stability, and activation. This sequential CFPS system provides a unique format for the functional genomic identification of broadly diverse metabolic activities.  相似文献   

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In-vivo studies have demonstrated that adenovirus type 2 and adenovirus type 4 have different DNA sequence requirements for the initiation of DNA replication. To investigate the basis of these differences an in-vitro system has been developed which will faithfully initiate adenovirus type 4 DNA replication. A plasmid containing 140 base-pairs of the right terminus of adenovirus type 4 supported initiation of DNA replication in vitro, provided that the plasmid was linearized in such a way as to locate the viral terminal sequences at the molecular ends of the DNA. Initiation by adenovirus type 4-infected cell extracts was also supported by a plasmid containing the complete adenovirus type 2 inverted terminal repeat (ITR). Deletion analysis of both adenovirus types 2 and 4 ITRs revealed that only the terminal 18 base-pairs of the genomes (perfectly conserved between the 2 viruses) were required for initiation in vitro. Thus, initiation was not enhanced by the presence of either the NFI site, the NFIII site or both sites together. Fractionation of a HeLa cell nuclear extract, by ion-exchange chromatography, identified a nuclear factor that stimulated the initiation reaction four- to fivefold. The stimulatory factor did not correspond to either of the cellular proteins NFI or NFIII which stimulate adenovirus type 2 DNA replication in vitro. Initiation in vitro was also supported by single-stranded DNA templates, albeit at a lower efficiency. Studies with synthetic oligonucleotides indicated a surprising specificity for initiation: whereas the strand used as template during initiation in vivo was active as a template for initiation in vitro, the complementary strand was inactive.  相似文献   

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