Gene/Protein
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Enzyme
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Target Concepts:
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Query: EC:5.99.1.2 (
topoisomerase
)
9,166
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The TraI protein of plasmid
RP4
(IncP alpha) catalyzes a site- and strand-specific cleaving-joining reaction on form I or single-stranded DNA. Thus, TraI is one of the key components involved in the initiation and termination of horizontal DNA transfer by bacterial conjugation. Amino acid sequence comparison revealed three motifs in the TraI sequence conserved in relaxases from different origins. Site-directed mutagenesis of the traI structural gene and application of purified mutant TraI proteins for in vitro assays served to evaluate the functional importance of conserved amino acid residues. Two regions of TraI designated as motifs I and III are involved in catalyzing the cleaving-joining reaction. Motif I carries the tyrosine residue (Tyr-22), which covalently attaches TraI in a transesterification reaction to the 5' terminus of the cleaved DNA. Motif III contains one histidine residue (His-116) essential for relaxase activity and therefore proposed to activate the aromatic hydroxyl group of tyrosine 22 by proton abstraction. Exchange of a serine residue (Ser-74), located in motif II, against alanine prevents formation of stable relaxosomes but strongly enhances
topoisomerase
activity of the combination TraI/TraJ on form I oriT DNA. Motif II therefore might represent the DNA recognition domain of TraI. Our studies allowed us to establish a model of the interplay of three motifs located in the N-terminal region (amino acid positions 19-124) of TraI.
...
PMID:Concerted action of three distinct domains in the DNA cleaving-joining reaction catalyzed by relaxase (TraI) of conjugative plasmid RP4. 830 Jun 11
Conjugative DNA transfer of the self-transmissible broad-host-range plasmid
RP4
is initiated by strand- and site-specific cleavage at the nick site (nic) of the transfer origin (oriT). Cleavage results in covalent attachment of the plasmid-encoded relaxase (TraI) to the 5'-terminal 2'-deoxycytidine residue at nic. We demonstrate that Tyr22 is the center of the catalytic site of TraI, mediating cleavage via formation of a phosphodiester between the DNA 5' phosphoryl and the aromatic hydroxyl group. The specificity of cleavage seen with form I oriT DNA was verified with short oligodeoxy-ribonucleotides embracing the nick region. The reaction requires TraI and Mg2+ but is independent of the relaxosome component TraJ. Cleavage produces one oligonucleotide fragment with a free 3' hydroxyl, the other part forms a covalent TraI-oligonucleotide adduct. Like nicking of form I oriT DNA, TraI-catalyzed oligonucleotide cleavage reaches an equilibrium when about 30% of the input TraI exists as a covalent protein-DNA complex. In the presence of two differently sized oligonucleotides, defined hybrid oligonucleotides are produced, demonstrating that TraI catalyzes recombination of two single strands at nic. This finding shows that TraI possesses cleaving-joining activity resembling that of a type I
topoisomerase
. Reactions are dependent on the sequence of the 3'-terminal 6 nucleotides adjacent to nic. Only certain base changes in a few positions are tolerated, whereas the sequence of the 5' terminal nucleotides apparently is irrelevant for recognition by TraI. The reactions described here further support the hypothesis that DNA transfer via conjugation involves a rolling circle-like mechanism which generates the immigrant single strand while DNA-bound TraI protein scans for the occurrence of a second cleavage site at the donor-recipient interface.
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PMID:Relaxase (TraI) of IncP alpha plasmid RP4 catalyzes a site-specific cleaving-joining reaction of single-stranded DNA. 838 50
The relaxase (TraI) of plasmid
RP4
(IncPalpha) plays a key role in initiation and termination of transfer DNA replication during conjugative transmission of the plasmid. TraI functions as a DNA strand transferase that cleaves a unique phosphodiester bond at nic of the transfer origin. The cleavage reaction consists in a reversible transesterification that leads to transfer of the 5' phosphoryl at nic to the hydroxyl group of TraI Tyr-22. Hence, cleavage results in the covalent attachment of TraI to the 5' terminus of the plasmid strand destined for transfer. To investigate the protein's ability to function in a "second cleavage" reaction proposed to terminate rolling circle mode transfer DNA replication, single-stranded oligonucleotides containing the nic region were immobilized at their 3' ends on magnetic beads and cleaved by TraI. The resulting covalent TraI-oligonucleotide adducts were active in the joining reaction but unable to cleave oligonucleotides containing an intact nic region, indicating that second cleavage probably requires a TraI dimer, since a monomer is insufficient. The covalently attached oligonucleotide determines the affinity of the relaxase for the 3' terminus of the T-strand. To further the biochemical characterization of TraI-catalyzed reactions, we used specific TraI mutants, showing that amino acid residues in each relaxase motif are involved in substrate binding. To uncouple substrate binding and cleaving-joining, we applied partially biotinylated TraI mutant proteins that were immobilized to magnetic beads. Using this approach we could demonstrate that tight DNA substrate binding and cleaving-joining are independent processes. Enhanced
topoisomerase
activity of some TraI mutants was correlated with low specific substrate binding affinity in conjunction with high cleaving-joining activity.
...
PMID:Mechanisms of initiation and termination reactions in conjugative DNA processing. Independence of tight substrate binding and catalytic activity of relaxase (TraI) of IncPalpha plasmid RP4. 866 26
The polypeptide encoded by the plasmid
RP4
traE gene shows extensive protein sequence similarity to Escherichia coli topB, the gene encoding DNA topoisomerase III (Topo III). The traE gene product has been cloned into a bacteriophage T7-based transient expression system, and the polypeptide has been expressed and purified. The TraE protein exhibits
topoisomerase
activity similar to that of Topo III. Relaxation is stimulated by high temperature and low concentrations of Mg2+. In addition, similar to E. coli Topo III, the TraE protein is a potent decatenase and can substitute for Topo III activity in vivo. The biochemical properties of the TraE protein in vitro suggest that the protein may be involved in the resolution of plasmid DNA replication intermediates either during vegetative replication or in conjugative DNA transfer. Putative homologues of Topo III have been found to be encoded by other broad host range, conjugative plasmids isolated from both Gram-negative and Gram-positive organisms, suggesting that Topo III-like polypeptides may have an essential role in the propagation of many promiscuous plasmids.
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PMID:The traE gene of plasmid RP4 encodes a homologue of Escherichia coli DNA topoisomerase III. 923 64
