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61.
62.
Concerted bis-alkylating reactivity of clerocidin towards unpaired cytosine residues in DNA 总被引:1,自引:1,他引:0
Clerocidin (CL) is a topoisomerase II poison, which cleaves DNA irreversibly at guanines (G) and reversibly at cytosines (C). Furthermore, the drug can induce enzyme-independent strand breaks at the G and C level. It has been previously shown that G-damage is induced by alkylation of the guanine N7, followed by spontaneous depurination and nucleic acid cleavage, whereas scission at C is obtained only after treatment with hot alkali, and no information is available to explain the nature of this damage. We present here a systematic study on the reactivity of CL towards C both in the DNA environment and in solution. Selected synthetic derivatives were employed to evaluate the role of each chemical group of the drug. The structure of CL–dC adduct was then characterized by tandem mass spectrometry and NMR: the adduct is a stable condensed ring system resulting from a concerted electrophilic attack of the adjacent carbonyl and epoxide groups of CL towards the exposed NH2 and N3, respectively. This reaction mechanism, shown here for the first time, is characterized by faster kinetic rates than alkylation at G, due to the fact that the rate-determining step, alkylation at the epoxide, is an intramolecular process, provided a Schiff base linking CL and C can rapidly form, whereas the corresponding reaction of G N7 is intermolecular. These results provide helpful hints to explain the reversible/irreversible nature of topoisomerase II mediated DNA damage produced by CL at C/G steps. 相似文献
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65.
Gonzalez-Castillo C Rubio R Zenteno-Savin T 《American journal of physiology. Heart and circulatory physiology》2003,284(4):H1348-H1357
In isolated perfused guinea pig hearts, coronary flow causes a positive inotropic effect [positive coronary flow-induced effect (+CFIE)] that could be altered by dextrans (Dx) in the coronary perfusion solution. To test this possibility, Dx of 20, 40, 70, and 500 kDa were infused and found to modulate +CFIE; however, when Dx infusion was terminated, the effect persisted, i.e., was irreversible/nonwashable, suggesting that Dx may bind to luminal endothelial lectinic structures. This hypothesis was tested when Dx [with fluorescent traces (D*)] bound to the vessel wall was hydrolyzed by dextranase infusion and washout of D* fragments completely reverted the +CFIE, and it was found that bound D* to be displaced by free Dx required concentrations 50-100 times that used during binding. In addition, dose-response curves for Dx on +CFIE show that the higher the Dx molecular mass, the lesser the concentration required to have an effect. Because a large Dx molecule has a greater number polymeric glucose branches, it can bind to a larger number of endothelial lectinic sites, requiring a lower concentration to affect +CFIE. Our results suggest that luminal endothelial lectinic structures are part of the flow-sensing assembly. 相似文献
66.
Polyprotein processing protease of African swine fever virus: purification and biochemical characterization
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The purified recombinant African swine fever virus polyprotein processing protease cleaves the two GG-X sites in polyprotein pp62 with the same efficiency. Cleavage at the site that is first recognized in vivo is not a requisite for cleavage at the second site, suggesting the existence of mechanisms that control the ordered processing of the polyprotein during infection. 相似文献
67.
Dyer DH Rubio LM Thoden JB Holden HM Ludden PW Rayment I 《The Journal of biological chemistry》2003,278(34):32150-32156
The Azotobacter vinelandii NafY protein (nitrogenase accessory factor Y) is able to bind either to the iron molybdenum cofactor (FeMo-co) or to apodinitrogenase and is believed to facilitate the transfer of FeMo-co into apodinitrogenase. The NafY protein has two domains: an N-terminal domain (residues Met1-Leu98) and a C-terminal domain (residues Glu99-Ser232), referred here to as the "core domain." The core domain of NafY is shown here to be capable of binding the FeMo cofactor of nitrogenase but unable to bind to apodinitrogenase in the absence of the first domain. The three-dimensional molecular structure of the core domain of NafY has been solved to 1.8-A resolution, revealing that the protein consists of a mixed five-stranded beta-sheet flanked by five alpha-helices that belongs to the ribonuclease H superfamily. As such, this represents a new fold capable of binding FeMo-co, where the only previous example was that seen in dinitrogenase. 相似文献
68.
Phylogenetic analysis in the genus Cicer and cultivated chickpea using RAPD and ISSR markers 总被引:5,自引:0,他引:5
Iruela M Rubio J Cubero JI Gil J Millán T 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2002,104(4):643-651
Seventy five accessions belonging to 14 species of the genus Cicer were analysed with PCR-based molecular markers to determine their phylogenetic relationships. Eight of the species were annuals
and included the Section Monocicer which contains cultivated chickpea (Cicer arietinum L.). The remaining six species were perennials (five from Section Polycicer and one from Section Acanthocicer). More than
one accession per species was analysed in most of the wild species; within C. arietinum, 26 accessions including Kabuli and Desi types, were studied. RAPD analyses using 12 primers gave 234 polymorphic fragments. Variability
within species was detected. A dendrogram based on the Jaccard similarity index showed that the distribution pattern of variability
between species was related to both growth habit and geographical origin. An accession of Cicer reticulatum was closer to accessions of Cicer echinospermum than to the four remaining of C. reticulatum, suggesting the possibility of gene flow between species. Cluster analysis for cultivated chickpea differentiated Kabuli and
Desi types but we did not detect a clear relationship between groups and the geographical origin of the accessions.
Received: 5 April 2001 / Accepted: 13 July 2001 相似文献
69.
Effects of water stress on antioxidant enzymes of leaves and nodules of transgenic alfalfa overexpressing superoxide dismutases 总被引:11,自引:0,他引:11
Rubio MC González EM Minchin FR Webb KJ Arrese-Igor C Ramos J Becana M 《Physiologia plantarum》2002,115(4):531-540
The antioxidant composition and relative water stress tolerance of nodulated alfalfa plants ( Medicago sativa L. × Sinorhizobium meliloti 102F78) of the elite genotype N4 and three derived transgenic lines have been studied in detail. These transgenic lines overproduced, respectively, Mn-containing superoxide dismutase (SOD) in the mitochondria of leaves and nodules, MnSOD in the chloroplasts, and FeSOD in the chloroplasts. In general for all lines, water stress caused moderate decreases in MnSOD and FeSOD activities in both leaves and nodules, but had distinct tissue-dependent effects on the activities of the peroxide-scavenging enzymes. During water stress, with a few exceptions, ascorbate peroxidase and catalase activities increased moderately in leaves but decreased in nodules. At mild water stress, transgenic lines showed, on average, 20% higher photosynthetic activity than the parental line, which suggests a superior tolerance of transgenic plants under these conditions. However, the untransformed and the transgenic plants performed similarly during moderate and severe water stress and recovery with respect to important markers of metabolic activity and of oxidative stress in leaves and nodules. We conclude that the base genotype used for transformation and the background SOD isozymic composition may have a profound effect on the relative tolerance of the transgenic lines to abiotic stress. 相似文献
70.
Most human cells do not express telomerase and irreversibly arrest proliferation after a finite number of divisions (replicative senescence). Several lines of evidence suggest that replicative senescence is caused by short dysfunctional telomeres, which arise when DNA is replicated in the absence of adequate telomerase activity. We describe a method to reversibly bypass replicative senescence and generate mass cultures that have different average telomere lengths. A retrovirus carrying hTERT flanked by excision sites for Cre recombinase rendered normal human fibroblasts telomerase-positive and replicatively immortal. Superinfection with retroviruses carrying wild-type or mutant forms of TIN2, a negative regulator of telomere length, created telomerase-positive, immortal populations with varying average telomere lengths. Subsequent infection with a Cre-expressing retrovirus abolished telomerase activity, creating mortal cells with varying telomere lengths. Using these cell populations, we show that, after hTERT excision, cells senesce with shorter telomeres than parental cells. Moreover, long telomeres, but not telomerase, protected cells from the loss of division potential caused by ionizing radiation. Finally, although telomerase-negative cells with short telomeres senesced after fewer doublings than those with long telomeres, telomere length per se did not correlate with senescence. Our results support a role for telomere structure, rather than length, in replicative senescence. 相似文献