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排序方式: 共有153条查询结果,搜索用时 15 毫秒
71.
Enzymatic processing of DNA containing tandem dihydrouracil by endonucleases III and VIII 总被引:2,自引:1,他引:1
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Endonuclease III from Escherichia coli, yeast (yNtg1p and yNtg2p) and human and E.coli endonuclease VIII have a wide substrate specificity, and recognize oxidation products of both thymine and cytosine. DNA containing single dihydrouracil (DHU) and tandem DHU lesions were used as substrates for these repair enzymes. It was found that yNtg1p prefers DHU/G and exhibits much weaker enzymatic activity towards DNA containing a DHU/A pair. However, yNtg2p, E.coli and human endonuclease III and E.coli endonuclease VIII activities were much less sensitive to the base opposite the lesion. Although these enzymes efficiently recognize single DHU lesions, they have limited capacity for completely removing this damaged base when DHU is present on duplex DNA as a tandem pair. Both E.coli endonuclease III and yeast yNtg1p are able to remove only one DHU in DNA containing tandem lesions, leaving behind a single DHU at either the 3′- or 5′-terminus of the cleaved fragment. On the other hand, yeast yNtg2p can remove DHU remaining on the 5′-terminus of the 3′ cleaved fragment, but is unable to remove DHU remaining on the 3′-terminus of the cleaved 5′ fragment. In contrast, both human endonuclease III and E.coli endonuclease VIII can remove DHU remaining on the 3′-terminus of a cleaved 5′ fragment, but are unable to remove DHU remaining on the 5′-terminus of a cleaved 3′ fragment. Tandem lesions are known to be generated by ionizing radiation and agents that generate reactive oxygen species. The fact that these repair glycosylases have only a limited ability to remove the DHU remaining at the terminus suggests that participation of other repair enzymes is required for the complete removal of tandem lesions before repair synthesis can be efficiently performed by DNA polymerase. 相似文献
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73.
Overlapping specificities of base excision repair, nucleotide excision repair, recombination, and translesion synthesis pathways for DNA base damage in Saccharomyces cerevisiae
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Swanson RL Morey NJ Doetsch PW Jinks-Robertson S 《Molecular and cellular biology》1999,19(4):2929-2935
The removal of oxidative damage from Saccharomyces cerevisiae DNA is thought to be conducted primarily through the base excision repair pathway. The Escherichia coli endonuclease III homologs Ntg1p and Ntg2p are S. cerevisiae N-glycosylase-associated apurinic/apyrimidinic (AP) lyases that recognize a wide variety of damaged pyrimidines (H. J. You, R. L. Swanson, and P. W. Doetsch, Biochemistry 37:6033-6040, 1998). The biological relevance of the N-glycosylase-associated AP lyase activity in the repair of abasic sites is not well understood, and the majority of AP sites in vivo are thought to be processed by Apn1p, the major AP endonuclease in yeast. We have found that yeast cells simultaneously lacking Ntg1p, Ntg2p, and Apn1p are hyperrecombinogenic (hyper-rec) and exhibit a mutator phenotype but are not sensitive to the oxidizing agents H2O2 and menadione. The additional disruption of the RAD52 gene in the ntg1 ntg2 apn1 triple mutant confers a high degree of sensitivity to these agents. The hyper-rec and mutator phenotypes of the ntg1 ntg2 apn1 triple mutant are further enhanced by the elimination of the nucleotide excision repair pathway. In addition, removal of either the lesion bypass (Rev3p-dependent) or recombination (Rad52p-dependent) pathway specifically enhances the hyper-rec or mutator phenotype, respectively. These data suggest that multiple pathways with overlapping specificities are involved in the removal of, or tolerance to, spontaneous DNA damage in S. cerevisiae. In addition, the fact that these responses to induced and spontaneous damage depend upon the simultaneous loss of Ntg1p, Ntg2p, and Apn1p suggests a physiological role for the AP lyase activity of Ntg1p and Ntg2p in vivo. 相似文献
74.
Schizosaccharomyces pombe ultraviolet damage endonuclease (UVDE or Uve1p) performs the initial step in an alternative excision repair pathway for UV-induced DNA damage. This DNA repair pathway was originally thought to be specific for UV damage. However, the broad substrate specificity of Uve1p suggests a more general role for this enzyme. Uve1p recognizes UV-induced bipyrimidine photoadducts and other non-UV-induced DNA adducts. Biochemical and genetic analysis also suggests that Uve1p may be involved in orchestrating mismatch repair in vivo. This study demonstrates that Uve1p recognizes and cleaves heteroduplex DNA with small unpaired loops but does not recognize loops six to eight nucleotides in length. In addition, the enzyme does not recognize DNA with palindromic insertions that could form base-paired hairpin structures. The cleavage efficiency of Uve1p depends on the distance of a mismatch from the DNA terminus, suggesting that the 3' terminus may contribute to the strand discrimination signal for Uve1p. These biochemical activities are discussed in the context of the role of Uve1p in DNA repair. 相似文献
75.
Klammt C Srivastava A Eifler N Junge F Beyermann M Schwarz D Michel H Doetsch V Bernhard F 《The FEBS journal》2007,274(13):3257-3269
The functional and structural characterization of G-protein-coupled receptors (GPCRs) still suffers from tremendous difficulties during sample preparation. Cell-free expression has recently emerged as a promising alternative approach for the synthesis of polytopic integral membrane proteins and, in particular, for the production of G-protein-coupled receptors. We have now analyzed the quality and functional folding of cell-free produced human endothelin type B receptor samples as an example of the rhodopsin-type family of G-protein-coupled receptors in correlation with different cell-free expression modes. Human endothelin B receptor was cell-free produced as a precipitate and subsequently solubilized in detergent, or was directly synthesized in micelles of various supplied mild detergents. Purified cell-free-produced human endothelin B receptor samples were evaluated by single-particle analysis and by ligand-binding assays. The soluble human endothelin B receptor produced is predominantly present as dimeric complexes without detectable aggregation, and the quality of the sample is very similar to that of the related rhodopsin isolated from natural sources. The binding of human endothelin B receptor to its natural peptide ligand endothelin-1 is demonstrated by coelution, pull-down assays, and surface plasmon resonance assays. Systematic functional analysis of truncated human endothelin B receptor derivatives confined two key receptor functions to the membrane-localized part of human endothelin B receptor. A 39 amino acid fragment spanning residues 93-131 and including the proposed transmembrane segment 1 was identified as a central area involved in endothelin-1 binding as well as in human endothelin B receptor homo-oligomer formation. Our approach represents an efficient expression technique for G-protein-coupled receptors such as human endothelin B receptor, and might provide a valuable tool for fast structural and functional characterizations. 相似文献
76.
77.
78.
Mitochondrial dysfunction due to oxidative mitochondrial DNA damage is reduced through cooperative actions of diverse proteins
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O'Rourke TW Doudican NA Mackereth MD Doetsch PW Shadel GS 《Molecular and cellular biology》2002,22(12):4086-4093
The mitochondrial genome is a significant target of exogenous and endogenous genotoxic agents; however, the determinants that govern this susceptibility and the pathways available to resist mitochondrial DNA (mtDNA) damage are not well characterized. Here we report that oxidative mtDNA damage is elevated in strains lacking Ntg1p, providing the first direct functional evidence that this mitochondrion-localized, base excision repair enzyme functions to protect mtDNA. However, ntg1 null strains did not exhibit a mitochondrial respiration-deficient (petite) phenotype, suggesting that mtDNA damage is negotiated by the cooperative actions of multiple damage resistance pathways. Null mutations in ABF2 or PIF1, two genes implicated in mtDNA maintenance and recombination, exhibit a synthetic-petite phenotype in combination with ntg1 null mutations that is accompanied by enhanced mtDNA point mutagenesis in the corresponding double-mutant strains. This phenotype was partially rescued by malonic acid, indicating that reactive oxygen species generated by the electron transport chain contribute to mitochondrial dysfunction in abf2 Delta strains. In contrast, when two other genes involved in mtDNA recombination, CCE1 and NUC1, were inactivated a strong synthetic-petite phenotype was not observed, suggesting that the effects mediated by Abf2p and Pif1p are due to novel activities of these proteins other than recombination. These results document the existence of recombination-independent mechanisms in addition to base excision repair to cope with oxidative mtDNA damage in Saccharomyces cerevisiae. Such systems are likely relevant to those operating in human cells where mtDNA recombination is less prevalent, validating yeast as a model system in which to study these important issues. 相似文献
79.
We have shown previously that surfactant protein D (SP-D) binds and agglutinates Streptococcus pneumoniae in vitro. In this study, the role of SP-D in innate immunity against S. pneumoniae was investigated in vivo, by comparing the outcome of intranasal infection in surfactant protein D deficient (SP-D-/-) to wildtype mice (SP-D+/+). Deficiency of SP-D was associated with enhanced colonisation and infection of the upper and lower respiratory tract and earlier onset and longer persistence of bacteraemia. Recruitment of neutrophils to inflammatory sites in the lung was similar in both strains mice in the first 24 hrs post-infection, but different by 48 hrs. T cell influx was greatly enhanced in SP-D-/- mice as compared to SP-D+/+ mice. Our data provides evidence that SP-D has a significant role to play in the clearance of pneumococci during the early stages of infection in both pulmonary sites and blood. 相似文献
80.
Flagella of Escherichia coli spheroplasts. 总被引:4,自引:3,他引:1