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1.
NAD+-dependent DNA ligase (LigA) is essential for bacterial growth and a potential target for antimicrobial drug discovery. Here we queried the role of 14 conserved amino acids of Escherichia coli LigA by alanine scanning and thereby identified five new residues within the nucleotidyltransferase domain as being essential for LigA function in vitro and in vivo. Structure activity relationships were determined by conservative mutagenesis for the Glu-173, Arg-200, Arg-208, and Arg-277 side chains, as well as four other essential side chains that had been identified previously (Lys-115, Asp-117, Asp-285, and Lys-314). In addition, we identified Lys-290 as important for LigA activity. Reference to the structure of Enterococcus faecalis LigA allowed us to discriminate three classes of essential/important side chains that: (i) contact NAD+ directly (Lys-115, Glu-173, Lys-290, and Lys-314); (ii) comprise the interface between the NMN-binding domain (domain Ia) and the nucleotidyltransferase domain or comprise part of a nick-binding site on the surface of the nucleotidyltransferase domain (Arg-200 and Arg-208); or (iii) stabilize the active site fold of the nucleotidyltransferase domain (Arg-277). Analysis of mutational effects on the isolated ligase adenylylation and phosphodiester formation reactions revealed different functions for essential side chains at different steps of the DNA ligase pathway, consistent with the proposal that the active site is serially remodeled as the reaction proceeds.  相似文献   

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Genetics and function of DNA ligase in Escherichia coli   总被引:51,自引:0,他引:51  
The characterization of two classes of DNA ligase mutants in Escherichia coli is described. The first class consists of three mutations coding for a temperature-sensitive ligase and defines the structural gene for DNA ligase (lig). The second class of mutants (lop) overproduces an apparently wild-type enzyme; a genetic diploid analysis implies that these are promoter or operator mutations, lig and lop are cotransduced by phage P1 and map at 46 minutes on the E. coli map. Detailed studies of two lig mutants (lig4 and lig ts7) are reported, lig ts7 is a conditionally lethal mutation, proving the essential nature of the ligase gene product. Neither mutant has a major defect in recombination or ultraviolet-repair, but both show retarded sealing of 10 S pulse-labeled DNA (Okazaki fragments).  相似文献   

4.
Limited treatment of Escherichia coli DNA ligase with trypsin results in rapid loss of DNA joining activity. However, the ability to react with DPN to form the covalent enzyme-AMP intermediate is unaffected. The cleaved enzyme is also unable to catalyze the formation of DNA-adenylate, the second covalent intermediate in the ligase-catalyzed reaction. These findings demonstrate that portions of the DNA ligase molecule that are required for phosphodiester bond formation are not required for at least one of the partial reactions catalyzed by this enzyme.  相似文献   

5.
T4 DNA ligase is one of the workhorses of molecular biology and used in various biotechnological applications. Here we report that this ligase, unlike Escherichia coli DNA ligase, Taq DNA ligase and Ampligase, is able to join the ends of single-stranded DNA in the absence of any duplex DNA structure at the ligation site. Such nontemplated ligation of DNA oligomers catalyzed by T4 DNA ligase occurs with a very low yield, as assessed by quantitative competitive PCR, between 10(-6) and 10(-4) at oligonucleotide concentrations in the range 0.1-10 nm, and thus is insignificant in many molecular biological applications of T4 DNA ligase. However, this side reaction may be of paramount importance for diagnostic detection methods that rely on template-dependent or target-dependent DNA probe ligation in combination with amplification techniques, such as PCR or rolling-circle amplification, because it can lead to nonspecific background signals or false positives. Comparison of ligation yields obtained with substrates differing in their strandedness at the terminal segments involved in ligation shows that an acceptor duplex DNA segment bearing a 3'-hydroxy end, but lacking a 5'-phosphate end, is sufficient to play a role as a cofactor in blunt-end ligation.  相似文献   

6.
DNA binding properties of the Type 1 DNA polymerases from Thermus aquaticus (Taq, Klentaq) and Escherichia coli (Klenow) have been examined as a function of [KCl] and [MgCl(2)]. Full-length Taq and its Klentaq "large fragment" behave similarly in all assays. The two different species of polymerases bind DNA with sub-micromolar affinities in very different salt concentration ranges. Consequently, at similar [KCl] the binding of Klenow is approximately 3 kcal/mol (150x) tighter than that of Taq/Klentaq to the same DNA. Linkage analysis reveals a net release of 2-3 ions upon DNA binding of Taq/Klentaq and 4-5 ions upon binding of Klenow. DNA binding of Taq at a higher temperature (60 degrees C) slightly decreases the ion release. Linkage analysis of binding versus [MgCl(2)] reports the ultimate release of approximately 1 Mg(2+) ion upon complex formation. However, the MgCl(2) dependence for Klenow, but not Klentaq, shows two distinct phases. In 10 mm EDTA, both polymerase species still bind DNA, but their binding affinity is significantly diminished, Klenow more than Klentaq. In summary, the two polymerase species, when binding to identical DNA, differ substantially in their sensitivity to the salt concentration range, bind with very different affinities when compared under similar conditions, release different numbers of ions upon binding, and differ in their interactions with divalent cations.  相似文献   

7.
Mammalian DNA ligase III exists as two distinct isoforms denoted alpha and beta. Both forms possess a motif that is homologous to the putative zinc finger present in poly(ADP-ribose) polymerase. Here, the role of this motif in the binding and ligation of nicked DNA and RNA substrates in vitro has been examined in both isoforms. Disruption of the putative zinc finger did not affect DNA ligase III activity on nicked DNA duplex, nor did it abolish DNA ligase III-alpha activity during DNA base excision repair in a cell-free assay. In contrast, disruption of this motif reduced 3-fold the activity of both DNA ligase III isoforms on nicked RNA present in RNA/DNA homopolymers. Furthermore, whereas disruption of the motif did not prevent binding of DNA ligase III to nicked DNA duplex, binding to nicked RNA homopolymers was reduced approximately 10-fold. These results suggest that the putative zinc finger does not stimulate DNA ligase III activity on simple nicked DNA substrates, but indicate that this motif can target the binding and activity of DNA ligase III to nicked RNA homopolymer. The implications of these results to the cellular role of the putative zinc finger are discussed.  相似文献   

8.
Specificity of DNA binding and dimerization by CspE from Escherichia coli   总被引:1,自引:0,他引:1  
The CspE protein from Escherichia coli K12 is a single-stranded nucleic acid-binding protein that plays a role in chromosome condensation in vivo. We report here that CspE binds to single-stranded DNA containing 6 or more contiguous dT residues with high affinity (K(D) < 30 nM). The interactions are predominantly through base-specific contacts. When an oligonucleotide contains fewer than 6 contiguous dT residues, the CspE interactions with single-stranded DNA are primarily electrostatic. The minimal length of single-stranded DNA to which CspE binds in a salt-resistant manner is eight nucleotides. We also show that CspE exists as a dimer in solution. We present a possible mechanism to explain the role of CspE in chromosome condensation in vivo by CspE binding to distant DNA regions in the chromosome and dimerizing, thereby condensing the intervening DNA.  相似文献   

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RecF protein is one of the important proteins involved in DNA recombination and repair. RecF protein has been shown to bind single-stranded DNA (ssDNA) in the absence of ATP (T. J. Griffin IV and R. D. Kolodner, J. Bacteriol. 172:6291-6299, 1990; M. V. V. S. Madiraju and A. J. Clark, Nucleic Acids Res. 19:6295-6300, 1991). In the present study, using 8-azido-ATP, a photo-affinity analog of ATP, we show that RecF protein binds ATP and that the binding is specific in the presence of DNA. 8-Azido-ATP photo-cross-linking is stimulated in the presence of DNA (both ssDNA and double-stranded DNA [dsDNA]), suggesting that DNA enhances the affinity of RecF protein for ATP. These data suggest that RecF protein possesses independent ATP- and DNA-binding sites. Further, we find that stable RecF protein-dsDNA complexes are obtained in the presence of ATP or ATP-gamma-S [adenosine-5'-O-(3-thio-triphosphate)]. No other nucleoside triphosphates served as necessary cofactors for dsDNA binding, indicating that RecF is an ATP-dependent dsDNA-binding protein. Since a mutation in a putative phosphate-binding motif of RecF protein results in a recF mutant phenotype (S. J. Sandler, B. Chackerian, J. T. Li, and A. J. Clark, Nucleic Acids Res. 20:839-845, 1992), we suggest on the basis of our data that the interactions of RecF protein with ATP, with dsDNA, or with both are physiologically important for understanding RecF protein function in vivo.  相似文献   

11.
The cis-trans isomerisation of maleylacetoacetate to fumarylacetoacetate is the penultimate step in the tyrosine/phenylalanine catabolic pathway and has recently been shown to be catalysed by glutathione S-transferase enzymes belonging to the zeta class. Given this primary metabolic role it is unsurprising that zeta class glutathione S-transferases are well conserved over a considerable period of evolution, being found in vertebrates, plants, insects and fungi. The structure of this glutathione S-transferase, cloned from Arabidopsis thaliana, has been solved by single isomorphous replacement with anomalous scattering and refined to a final crystallographic R-factor of 19.6% using data from 25.0 A to 1.65 A. The zeta class enzyme adopts the canonical glutathione S-transferase fold and forms a homodimer with each subunit consisting of 221 residues. In agreement with structures of glutathione S-transferases from the theta and phi classes, a serine residue (Ser17) is present in the active site, at a position that would allow it to stabilise the thiolate anion of glutathione. Site-directed mutagenesis of this residue confirms its importance in catalysis. In addition, the role of a highly conserved cysteine residue (Cys19) present in the active site of the zeta class glutathione S-transferase enzymes is discussed.  相似文献   

12.
Polypeptide binding of Escherichia coli FtsH (HflB)   总被引:3,自引:0,他引:3  
The Escherichia coli FtsH protein is a membrane-bound and ATP-dependent protease. In this study, we describe ATP-dependent conformational changes in FtsH as well as a polypeptide binding ability of this protein. A 33 kDa segment of FtsH became trypsin resistant in the presence of ATP. ATP and ATPγS prevented self-aggregation of detergent-solubilized FtsH-His6-Myc at 37°C, again suggesting that the binding of ATP induces a conformational change in FtsH. Affinity chromatography showed that FtsH-His6-Myc can associate with denatured alkaline phosphatase (PhoA) but not with the native enzyme. Denatured PhoA also prevented the aggregation of FtsH, and these two proteins co-sedimented through a sucrose gradient. Binding between FtsH-His6-Myc and detergent-solubilized SecY was also demonstrated. Although FtsH-bound SecY was processed further for ATP-dependent proteolysis, FtsH-bound PhoA was not. Thus, FtsH association with denatured PhoA is uncoupled from proteolysis. Overproduction of FtsH significantly increased the cytoplasmic localization of the PhoA moiety of a MalF–PhoA hybrid protein, in which a charged residue had been introduced into a transmembrane segment. Thus, denatured PhoA binding of FtsH may also occur in vivo .  相似文献   

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15.
To characterize further polyspecific interactions of antibodies to DNA, the binding of sera from autoimmune MRL-lpr/lpr mice to Escherichia coli beta-galactosidase (beta-gal) was analyzed. This protein was selected for study because of preliminary observations that sera from autoimmune mice bound unexpectedly to cloned fusion protein constructions containing beta-gal. Using ELISA assays, sera from MRL-lpr/lpr mice demonstrated high levels of antibodies to both DNA and beta-gal, in titers significantly greater than those of BALB/c controls. Affinity chromatography using beta-gal-Sepharose demonstrated that antibodies enriched for anti-beta-gal activity bound both DNA as well as beta-gal, indicating the presence of a population of cross-reactive anti-DNA antibodies. Furthermore, anti-DNA mAb of MRL-lpr/lpr strain origin also bound beta-gal by ELISA, although these levels were lower than those to DNA. Together, these results extend the range of polyspecific binding of murine anti-DNA antibodies to bacterial proteins. They further suggest caution in the interpretation of immunoassays using fusion protein constructions containing beta-gal, especially with sera from autoimmune mice.  相似文献   

16.
An amber dna mutant of Escherichia coli K12 affecting DNA ligase   总被引:5,自引:0,他引:5  
We have isolated an amber mutant (dnaL321) of Escherichia coli K12, which affects DNA ligase and which is lethal unless it is suppressed. DNA is degraded under the restrictive conditions. The mutation also affects the sensitivity of the cell to ultraviolet light irradiation, and the capacity to support the growth of phage λ that is deficient in general recombination. This pleiotropy is considered to be due to a single mutation, and is suppressed by supD?Isu+ and by supF?suIII+). The mutation is cotransducible with dapE(2%), and with ptsI(85%), by phage Plvir.  相似文献   

17.
The Escherichia coli RecF protein possesses a weak ATP hydrolytic activity. ATP hydrolysis leads to RecF dissociation from double-stranded (ds)DNA. The RecF protein is subject to precipitation and an accompanying inactivation in vitro when not bound to DNA. A mutant RecF protein that can bind but cannot hydrolyze ATP (RecF K36R) does not readily dissociate from dsDNA in the presence of ATP. This is in contrast to the limited dsDNA binding observed for wild-type RecF protein in the presence of ATP but is similar to dsDNA binding by wild-type RecF binding in the presence of the nonhydrolyzable ATP analog, adenosine 5'-O-(3-thio)triphosphate (ATPgammaS). In addition, wild-type RecF protein binds tightly to dsDNA in the presence of ATP at low pH where its ATPase activity is blocked. A transfer of RecF protein from labeled to unlabeled dsDNA is observed in the presence of ATP but not ATPgammaS. The transfer is slowed considerably when the RecR protein is also present. In competition experiments, RecF protein appears to bind at random locations on dsDNA and exhibits no special affinity for single strand/double strand junctions when bound to gapped DNA. Possible roles for the ATPase activity of RecF in the regulation of recombinational DNA repair are discussed.  相似文献   

18.
19.
Isolation of an amber mutant lig-321 (or dnaL321) if Escherichia coli K12 with a defect in DNA ligase activity was previously reported (Nagata & Horiuchi, 1974). This was the first demonstration that, in E. coli, conditionally lethal nonsense mutants can be isolated selectively. Unlike the hitherto available E. coli K12 DNA ligase-deficient (lig) mutants, the DNA of this mutant is degraded under lethal conditions. This paper describes its further characterization. The DNA degradation was found to be an energy-requiring process, in which endonuclease I did not seem to participate. Kinetic analyses of prelabeled DNA indicated that the parental strands were degraded. The sedimentation profile of prelabeled DNA in an alkaline sucrose gradient showed that the extensive degradation was preceded by a step in which the parental strands were broken into relatively large pieces. At least in the early phase of degradation, which we examined by alkaline sucrose gradient centrifugation of pulse-labeled DNA, synthesis of discontinuous daughter chains (Okazaki fragments, Okazaki et al., 1968) was confirmed. Joining of the nascent chains, however, was completely inhibited. Genetic analyses revealed that the mutant allele is recessive to the wild type. This agrees with in vitro studies in which the mutant crude extract was found not to inhibit DNA ligase activity of the wild type extract. These and other properties of the lig-321 mutant were compared with the other DNA ligase-deficient mutants of E. coli. The role of this enzyme in DNA replication, repair and recombination is discussed.  相似文献   

20.
The effect of Escherichia coli single-stranded DNA binding protein (SSB) on DNA synthesis by T7 DNA polymerase and E. coli DNA polymerase I (large fragment) using native or aminofluorene-modified M13 templates was evaluated by in vitro DNA synthesis assays and polyacrylamide gel electrophoresis analysis. The two polymerase enzymes displayed differential responses to the addition of SSB. T7 DNA polymerase, a enzyme required for the replication of the T7 chromosome, was stimulated by the addition of SSB whether native or modified templates were used. On the other hand, E. coli DNA polymerase I was slightly stimulated by the addition of SSB to the native template but substantially inhibited on modified templates. This result suggests that DNA polymerase I may be able to synthesize past an aminofluorene adduct but that the presence of SSB inhibited this trans-lesion synthesis. Polyacrylamide gels of the products of DNA synthesis by polymerase I supported this inference since SSB caused a substantial increase in the accumulation of shorter DNA chains induced by blockage at the aminofluorene adduct sites.  相似文献   

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