Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.7 (DNA polymerase)
 17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DNA primases encoded by the conjugative plasmids ColIb-P9 (IncI1), RP4, and R751 (IncP), and the protein of the Escherichia coli satellite phage P4 alpha were shown to contain a common amino acid sequence motif -E-G-Y-A-T-A-. The P4 alpha gene product, required for initiation of phage DNA replication, exhibits primase activity on single-stranded circular DNA templates. This priming activity resembles the enzymatic activity of DNA primases encoded by conjugative plasmids in terms of template utilization and the ability to synthesize primers that can be elongated by DNA polymerase III holoenzyme. The -E-G-Y-A-T-A- motif is part of an extended sequence region most conserved within the primase domains of the four enzymes. Single amino acid substitutions generated in the -E-G-Y-A-T-A- motif of the RP4 TraC2 and the P4 alpha protein affect priming activity, supporting the hypothesis that the conserved sequence motif is part of the active center for primase function. A mutation that eliminates priming activity causes P4 phage to grow poorly and to depend upon the host dnaG primase. Computer analysis identified two additional sequence motifs within the amino acid sequence of the P4 alpha protein: a potential zinc-finger motif and a "type A" nucleotide binding site, both strikingly similar to sequence motifs described in various DNA primases and helicases.
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PMID:A common sequence motif, -E-G-Y-A-T-A-, identified within the primase domains of plasmid-encoded I- and P-type DNA primases and the alpha protein of the Escherichia coli satellite phage P4. 161 4

Formation of relaxosomes is the first step in the initiation of transfer DNA replication during bacterial conjugation. This nucleoprotein complex contains all components capable of introducing a site- and strand-specific nick at a cognate transfer origin (oriT) on supercoiled plasmid DNA, thus providing the substrate for generation of the strand to be transferred. Characterization of the terminal nucleotides at the oriT nick site revealed that relaxation occurs by hydrolysis of a single phosphodiester bond between a 2'-deoxyguanosyl and a 2'-deoxycytidyl residue. The relaxation nick site and a 19-base pair invert repeat sequence that is recognized by asymmetric binding of the RP4 TraJ protein are interspaced by 8 base pairs. The nicking reaction results in covalent attachment of the RP4 TraI protein to the 5'-terminal 2'-deoxycytidyl residue of the cleaved strand. The arrangement of the TraJ binding site and the relaxation nick site on the same side of the DNA double helix suggests that protein-protein interactions between TraJ and TraI are a prerequisite for oriT specific nicking. In accordance with the current model of transfer DNA replication, the 3' end remains accessible for primer extension by DNA polymerase I, enabling replacement strand synthesis in the donor cell by a rolling circle-type mechanism.
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PMID:Covalent association of the traI gene product of plasmid RP4 with the 5'-terminal nucleotide at the relaxation nick site. 219 55

To characterize protein-DNA interactions involved in the initiation of conjugative transfer replication we isolated and dissected the transfer origins (oriT) of the promiscuous IncP plasmids RP4 and R751. Essential features of oriT are conserved: symmetric sequence repeats, the nic site and a pair of potential promoter sites that allow for divergent transcription of two tra operons. The relaxation nick and the end of a 19 bp inverted repeat are interspaced by eight basepairs. The 5'-terminal nucleotide at the nick is modified by an alkali-resistant residue and the 3'-nucleotide is accessible to extension by DNA polymerase I. Transfer gene products essential for the formation of the initiation complex (relaxosome) of conjugative DNA synthesis map adjacent to oriT. Two of these products, TraJ and TraK confer specificity to their homologous oriT exclusively. Proteins TraJ and TraK are the only components of the RP4 and R751 transfer machinery which cannot be interchanged. TraJ and at least two additional plasmid-encoded products are necessary for specific relaxation. The purified TraJ protein of RP4 possesses oriT-binding ability. The recognition sequence contains a palindromic sequence located within the right arm of the 19 bp inverted repeat. The TraJ binding site and the nic site are located on one side of the DNA double helix. We presume that this nucleoprotein structure is the initial complex in the pathway to the assembly of functional relaxosomes.
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PMID:The origin of conjugative IncP plasmid transfer: interaction with plasmid-encoded products and the nucleotide sequence at the relaxation site. 285 14

A physical map for plasmid R1162 (Sm, Su, IncP4) was constructed. Neither EcoRI, PstI nor EcaI cut within a region essential for replication, molbilization or streptomycin resistence. Plasmid R1162 can replicate in E. coli as well as in Pseudomonas species and shows a strong dependence for DNA polymerase I in E. coli. By RP4 induced mobilization, R1162 can be transferred from E. coli to Pseudomonas AM1. A hybrid plasmid pFG7 (MW=8.4 x 10(6), Sm, Su, Ap, Tc) was constructed between pBR322 and R1162, which allows the selection of hybrid plasmids by insertional inactivation with the restriction enzymes HindIII, BamHI, SalI, ClaI. Transformation of E. coli SK1592 with Ecal-cut and ligated R1162-DNA and Pseudomonas AMI-DNA and subsequent mobilization of the hybrid plasmids into Pseudomonas AM1/M15a (methanol dehydrogenase-) led to the isolation of Pseudomonas AM1/M15a colonies, which could grow on methanol again. Back-conjugation into E. coli SK1592, subsequent mobilization studies and plasmid analysis suggests that the gene for Pseudomonas methanol dehydrogenase has been cloned in this vector.
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PMID:The use of plasmid R1162 and derivatives for gene cloning in the methanol-utilizing Pseudomonas AM1. 624 28