Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Leishmania and Trypanosoma are two genera of the protozoal Order Kinetoplastida that cause widespread diseases of humans and their livestock. The production of reactive oxygen and nitrogen intermediates by the host plays an important role in the control of infections by these organisms. Signal transduction and its redox regulation have not been studied in any depth in trypanosomatids, but homologs of the redox-sensitive signal transduction machinery of other eukaryotes have been recognized. These include homologs of activator protein-1, human apurinic endonuclease 1 (Ref-1) endonuclease, iron-responsive protein, protein kinases, and phosphatases. The detoxification of peroxide is catalyzed by a trypanothione-dependent system that has no counterpart in mammals, and thus ranks as one of the biochemical peculiarities of trypanosomatids. There is substantial evidence that trypanothione is essential for the survival of Trypanosoma brucei and for the virulence of Leishmania spp. Apart from trypanothione and its precursors, trypanosomatids also possess significant amounts of N(1)-methyl-4-mercaptohistidine or ovothiol A, but its function in the trypanosomatids is not presently understood. The biosynthesis of ovothiol A in Crithidia fasciculata proceeds by addition of sulfur from cysteine to histidine to form 4-mercaptohistidine. S-(4'-L-Histidyl)-L-cysteine sulfoxide is the transsulfuration intermediate. 4-Mercaptohistidine is subsequently methylated with S-adenosylmethionine as the likely methyl donor.
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PMID:Trypanosomal antioxidants and emerging aspects of redox regulation in the trypanosomatids. 1197 Aug 48

Nitrosation of guanine in DNA by nitrogen oxides such as nitric oxide (NO) and nitrous acid leads to formation of xanthine (Xan) and oxanine (Oxa), potentially cytotoxic and mutagenic lesions. In the present study, we have examined the repair capacity of DNA N-glycosylases from Escherichia coli for Xan and Oxa. The nicking assay with the defined substrates containing Xan and Oxa revealed that AlkA [in combination with endonuclease (Endo) IV] and Endo VIII recognized Xan in the tested enzymes. The activity (V(max)/K(m)) of AlkA for Xan was 5-fold lower than that for 7-methylguanine, and that of Endo VIII was 50-fold lower than that for thymine glycol. The activity of AlkA and Endo VIII for Xan was further substantiated by the release of [(3)H]Xan from the substrate. The treatment of E.coli with N-methyl-N'-nitro-N-nitrosoguanidine increased the Xan-excising activity in the cell extract from alkA(+) but not alkA(-) strains. The alkA and nei (the Endo VIII gene) double mutant, but not the single mutants, exhibited increased sensitivity to nitrous acid relative to the wild type strain. AlkA and Endo VIII also exhibited excision activity for Oxa, but the activity was much lower than that for Xan.
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PMID:Novel repair activities of AlkA (3-methyladenine DNA glycosylase II) and endonuclease VIII for xanthine and oxanine, guanine lesions induced by nitric oxide and nitrous acid. 1243 2

The intracellular pathogen, Salmonella enterica serovar Typhimurium, is able to proliferate in phagocytes, although reactive oxygen and nitrogen intermediates are lethal to most phagocytosed bacteria. To determine whether repair of oxidatively damaged DNA is involved in S. typhimurium intramacrophage proliferation, null mutants of the DNA base excision repair (BER) system were generated. These mutants were deficient in discrete enzymes (Deltanth, Deltanei, Deltaxth, Deltanfo) or in the defined glycosylase (Deltanth/nei) and endonuclease (Deltaxth/nfo) steps. In this study, S. typhimurium BER mutants are characterized for the first time. In vitro characterization of the Salmonella BER mutants revealed phenotypes that are mostly consistent with characterized Escherichia coli BER mutants. These strains were used to evaluate the role of BER in the context of Salmonella virulence. S. typhimurium Deltaxth and Deltaxth/nfo were significantly impaired for survival in both cultured and primary macrophages activated with interferon (IFN)-gamma. Survival of Deltaxth and Deltaxth/nfo was improved nearly to wild-type levels in activated primary macrophages lacking both phagocyte oxidase and inducible nitric oxide synthase. In the murine typhoid fever model, Deltanth/nei was fivefold attenuated and Deltaxth/nfo was 12-fold attenuated compared with wild type. These data indicate that DNA oxidation is a mechanism that macrophages use to damage intracellular Salmonella, and suggest that BER-mediated repair of this damage may be important in the establishment of Salmonella infection. We speculate that adaptation to a pathogenic lifestyle may influence the acquisition and retention of redundant BER enzymes.
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PMID:The role of DNA base excision repair in the pathogenesis of Salmonella enterica serovar Typhimurium. 1267 11

Four crystal structures of EcoRV endonuclease mutants K92A and K38A provide new insight into the mechanism of DNA bending and the structural basis for metal-dependent phosphodiester bond cleavage. The removal of a key active site positive charge in the uncleaved K92A-DNA-M(2+) substrate complex results in binding of a sodium ion in the position of the amine nitrogen, suggesting a key role for a positive charge at this position in stabilizing the sharp DNA bend prior to cleavage. By contrast, two structures of K38A cocrystallized with DNA and Mn(2+) ions in different lattice environments reveal cleaved product complexes featuring a common, novel conformation of the scissile phosphate group as compared to all previous EcoRV structures. In these structures, the released 5'-phosphate and 3'-OH groups remain in close juxtaposition with each other and with two Mn(2+) ions that bridge the conserved active site carboxylates. The scissile phosphates are found midway between their positions in the prereactive substrate and postreactive product complexes of the wild-type enzyme. Mn(2+) ions occupy two of the three sites previously described in the prereactive complexes and are plausibly positioned to generate the nucleophilic hydroxide ion, to compensate for the incipient additional negative charge in the transition state, and to ionize a second water for protonation of the 3'-oxyanion. Reconciliation of these findings with earlier X-ray and fluorescence studies suggests a novel mechanism in which a single initially bound metal ion in a third distinct site undergoes a shift in position together with movement of the scissile phosphate deeper into the active site cleft. This reconfigures the local environment to permit binding of the second metal ion followed by movement toward the pentacovalent transition state. The new mechanism suggested here embodies key features of previously proposed two- and three-metal catalytic models, and offers a view of the stereochemical pathway that integrates much of the copious structural and functional data that are available from exhaustive studies in many laboratories.
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PMID:DNA cleavage by EcoRV endonuclease: two metal ions in three metal ion binding sites. 1517 Mar 21

Phosphoramidates are modified deoxyoligonucleotides that feature nitrogen in place of the 3'-oxygen of a phosphodiester linkage. Noted for stability against nuclease activity, these linkages are of both mechanistic and therapeutic interest. While a number of studies characterizing the properties of oligonucleotides composed entirely of phosphoramidate linkages have been published, little is known about how singly substituted phosphoramidate substitutions affect the thermodynamics and structure of protein-oligonucleotide interactions. We chose to investigate these interactions with PvuII endonuclease, the DNA binding behavior of which is well-characterized. Oligonucleotide duplexes containing a phosphoramidate substitution at the scissile phosphates were resistant to cleavage by the enzyme, even after extended incubations. However, the enzyme was able to cleave the native strand in a native:phosphoramidate heteroduplex at a rate comparable to that observed with the native substrate. Ca(II)-stimulated PvuII binding for a phosphoramidate-substituted oligonucleotide is comparable to that of the native duplex (K(d) approximately 200 pM). K(d) values obtained in the presence of Mg(II) are somewhat weaker (K(d) approximately 10 nM). Under metal-free conditions, the enzyme exhibited a remarkable approximately 50-fold greater affinity for the modified oligonucleotide relative to the native substrate (5 vs 240 nM). While (31)P NMR spectra indicate increased chemical shift dispersion in the free phosphoramidate duplex, the spectrum of the enzyme-bound duplex is similar to that of the native duplex. (1)H-(15)N HSQC analysis indicates that enzyme conformations in the presence of these oligonucleotides are also comparable. The tight binding of the phosphoramidate duplex under metal-free conditions and its resistance to cleavage are attributed to local conformational adjustments propagating from the O-->N substitution.
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PMID:Binding and conformational analysis of phosphoramidate-restriction enzyme interactions. 1522 66

Bacteriophage PM2 has a closed circular form of double stranded DNA as a genome. This DNA from the phage is a useful source for nick-circle endonuclease assay in the fmol range. Due to difficulties in the maintenance of viral infectivity, storage conditions of the phage should be considered for the purification of PM2 DNA. The proper condition for a short-term storage of less than 2 months is to keep the PM2 phage at 4 degrees C; whereas the proper condition for a long-term storage of the PM2 phage for over 2 months is to keep it under liquid nitrogen in 7.5% glycerol. The optimal conditions for a high yield of phage progeny were also considered with the goal to achieve a successful PM2 DNA preparation. A MOI(Multiplicity Of Infection) of 0.03, in which the OD600 of the host bacteria was between 0.3 and 0.5, turned out to be optimal for the mass production of PM2 phage with a burst size of about 214. Considerations of PM2 genome size, and the concentrations and radiospecific activities of purified PM2 DNA, are required to measure the endonuclease activity in the fmol range. This study reports the proper quantitation of radioactivity and the yield of purified DNA based on these conditions.
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PMID:Biochemical quantitation of PM2 phage DNA as a substrate for endonuclease assay. 1535 2

Rhizobia, bacteria that fix atmospheric nitrogen, are important agricultural resources. In order to establish the evolutionary relationships among rhizobia isolated from different geographic regions and different plant hosts for systematic studies, we evaluated the use of physical structure of the rhizobial genomes as a phylogenetic marker to categorize these bacteria. In this work, we analyzed the features of genome structures of 64 rhizobial strains. These rhizobial strains were divided into 21 phylogenetic clusters according to the features of genome structures evaluated by the endonuclease I-CeuI. These clusters were supported by 16S rRNA comparisons and genomic sequences of four rhizobial strains, but they are largely different from those based on the current taxonomic scheme (except 16S rRNA).
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PMID:Phylogenetic clusters of rhizobia revealed by genome structures. 1552 84

Cisplatin is commonly used for chemotherapy in a wide variety of tumors; however, its use is limited by kidney toxicity. Although the exact mechanism of cisplatin-induced nephrotoxicity is not understood, several studies showed that it is associated with DNA fragmentation induced by an unknown endonuclease. It was demonstrated previously that deoxyribonuclease I (DNase I) is a highly active renal endonuclease, and its silencing by antisense is cytoprotective against the in vitro hypoxia injury of kidney tubular epithelial cells. This study used recently developed DNase1 knockout (KO) mice to determine the role of this endonuclease in cisplatin-induced nephrotoxicity. The data showed that DNase I represents approximately 80% of the total endonuclease activity in the kidney and cultured primary renal tubular epithelial cells. In vitro, primary renal tubular epithelial cells isolated from KO animals were resistant to cisplatin (8 microM) injury. DNase I KO mice were also markedly protected against the toxic injury induced by a single injection of cisplatin (20 mg/kg), by both functional (blood urea nitrogen and serum creatinine) and histologic criteria (tubular necrosis and in situ DNA fragmentation assessed by the terminal deoxynucleotidyl transferase nick end-labeling). These data provide direct evidence that DNase I is essential for kidney injury induced by cisplatin.
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PMID:Cisplatin nephrotoxicity is mediated by deoxyribonuclease I. 1564 42

Many agents successfully used in cancer chemotherapy either directly or indirectly covalently modify DNA. Examples include cisplatin, which forms a covalent adduct with guanines, and doxorubicin, which traps a cleavage intermediate between topoisomerase II and torsionally strained DNA. In most cases, the efficacy of these drugs depends on the efficiency and specificity of their DNA binding, as well as the discrimination between normal and neoplastic cells in their handling of the drug-DNA adducts. While much is known about the chemistry of drug-DNA adducts, little is known regarding the overall specificity of their formation, especially in the context of a whole human genome, where potentially billions of binding sites are possible. We used the combinatorial selection method restriction endonuclease protection, selection, and amplification (REPSA) to determine the DNA-binding specificity of the semisynthetic covalent DNA-binding polyamide tallimustine, which contains a benzoic acid nitrogen mustard appended to the minor groove DNA-binding natural product distamycin A. After investigating over 134 million possible sequences, we found that the highest affinity tallimustine binding sites contained one of two consensus sequences, either the expected distamycin hexamer binding sites followed by a CG base pair (e.g., 5'-TTTTTTC-3' and 5'-AAATTTC-3') or the unexpected sequence 5'-TAGAAC-3'. Curiously, we found that tallimustine preferentially alkylated the N7 position of guanines located on the periphery of these consensus sequences. These findings suggested a cooperative binding model for tallimustine in which one molecule noncovalently resides in the DNA minor groove and locally perturbs the DNA structure, thereby facilitating alkylation by a second tallimustine of an exposed guanine on another side of the DNA.
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PMID:Combinatorial identification of a novel consensus sequence for the covalent DNA-binding polyamide tallimustine. 1570 63

Rhodospirillum rubrum is a phototrophic purple nonsulfur bacterium known for its unique and well-studied nitrogen fixation and carbon monoxide oxidation systems and as a source of hydrogen and biodegradable plastic production. To better understand this organism and to facilitate assembly of its sequence, three whole-genome restriction endonuclease maps (XbaI, NheI, and HindIII) of R. rubrum strain ATCC 11170 were created by optical mapping. Optical mapping is a system for creating whole-genome ordered restriction endonuclease maps from randomly sheared genomic DNA molecules extracted from cells. During the sequence finishing process, all three optical maps confirmed a putative error in sequence assembly, while the HindIII map acted as a scaffold for high-resolution alignment with sequence contigs spanning the whole genome. In addition to highlighting optical mapping's role in the assembly and confirmation of genome sequence, this work underscores the unique niche in resolution occupied by the optical mapping system. With a resolution ranging from 6.5 kb (previously published) to 45 kb (reported here), optical mapping advances a "molecular cytogenetics" approach to solving problems in genomic analysis.
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PMID:Whole-genome shotgun optical mapping of Rhodospirillum rubrum. 1615 Nov 44


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