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1.
《Journal of molecular biology》2021,433(15):167097
DNA glycosylases remove damaged or modified nucleobases by cleaving the N-glycosyl bond and the correct nucleotide is restored through subsequent base excision repair. In addition to excising threatening lesions, DNA glycosylases contribute to epigenetic regulation by mediating DNA demethylation and perform other important functions. However, the catalytic mechanism remains poorly defined for many glycosylases, including MBD4 (methyl-CpG binding domain IV), a member of the helix-hairpin-helix (HhH) superfamily. MBD4 excises thymine from G·T mispairs, suppressing mutations caused by deamination of 5-methylcytosine, and it removes uracil and modified uracils (e.g., 5-hydroxymethyluracil) mispaired with guanine. To investigate the mechanism of MBD4 we solved high-resolution structures of enzyme-DNA complexes at three stages of catalysis. Using a non-cleavable substrate analog, 2′-deoxy-pseudouridine, we determined the first structure of an enzyme-substrate complex for wild-type MBD4, which confirms interactions that mediate lesion recognition and suggests that a catalytic Asp, highly conserved in HhH enzymes, binds the putative nucleophilic water molecule and stabilizes the transition state. Observation that mutating the Asp (to Gly) reduces activity by 2700-fold indicates an important role in catalysis, but probably not one as the nucleophile in a double-displacement reaction, as previously suggested. Consistent with direct-displacement hydrolysis, a structure of the enzyme-product complex indicates a reaction leading to inversion of configuration. A structure with DNA containing 1-azadeoxyribose models a potential oxacarbenium-ion intermediate and suggests the Asp could facilitate migration of the electrophile towards the nucleophilic water. Finally, the structures provide detailed snapshots of the HhH motif, informing how these ubiquitous metal-binding elements mediate DNA binding. 相似文献
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《Microbes and infection / Institut Pasteur》2009,11(3):352-360
Haemophilus ducreyi, the chancroid-causing bacterium, produces lipooligosaccharides (HdLOS) that comprise 5–11 partially sialylated monosaccharides. Subcutaneous immunisation of mice with 5 μg of HdLOS purified from H. ducreyi strains 4438 and 7470 induced high levels of anti-HdLOS IgG. The antibody responses displayed T-cell-independent features, and were dependent upon Toll-like receptor 4/MyD88 signalling pathways as demonstrated using knockout mice. The immunogenicity of HdLOS was found to require the intact lipid A moiety. The specificity studies of the anti-HdLOS antibodies, as revealed by absorption studies, antibody detection in ELISA, and immune thin-layer chromatography, indicated that the majority of the anti-LOS antibodies were specific for the inner core of the HdLOS. Antibodies to HdLOS failed to inhibit LOS induction of TNF-α release from human mononuclear cells. The adjuvanticity of HdLOS7470 was assessed in BALB/c mice that were immunised with bovine serum albumin (BSA) with or without the addition of HdLOS. The addition of 5 μg HdLOS resulted in a 10-fold increase in the total anti-BSA IgG antibody level as estimated by ELISA. The highest increase was noted for IgG2b, which contrasted with the predominantly IgG1 subclass response to immunisation with BSA alone, indicating an immunomodulatory activity of the HdLOS. 相似文献
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Several synthetic 7-hydroxyflavylium salts related to apigeninidin, a natural 3-deoxyanthocyanidin, have been studied in the Ames mutagenicity test using strain TA1537 of Salmonella typhimurium. Under the neutral pH conditions of the test, these flavylium salts are deprotonated through ionization of the C7-OH (pKa′ = 4.2–4.4) to form quinone methides. Only the quinone methides of 4-methyl-7-hydroxyflavylium chloride and 4′-methoxy-4-methyl-7-hydroxy-flavylium chloride showed mutagenicity. Responses of 4–8 times the background were observed at the higher doses (1000 μg/plate), both with and without metabolic activation. It was concluded that the induction of frameshift mutagenicity by this group of compounds is caused by those quinone methides that have non-ionic, stable polycyclic structures at neutral pH. 相似文献
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Background
Recent studies point to a great diversity of non-ribosomal peptide synthesis systems with major roles in amino acid and co-factor biosynthesis, secondary metabolism, and post-translational modifications of proteins by peptide tags. The least studied of these systems are those utilizing tRNAs or aminoacyl-tRNA synthetases (AAtRS) in non-ribosomal peptide ligation. 相似文献7.
Stressful treatments of cells provoke broad, transient, changes in cellular physiology and gene expression. In addition to these effects, DNA-damaging agents often induce permanent change in the form of mutations. Mutational patterns in target genes typically show hotspots and coldspots, the molecular basis of which appears to lie in the sequence context of the particular site. We determined the mutational pattern in an ultraviolet light-modified (in vitro) marker gene in a shuttle vector passaged through repair deficient (xeroderma pigmentosum) cells and compared it with patterns obtained from cells exposed to stress imposed by a DNA-damaging agent or a calcium ionophore. We found that the mutational hotspot pattern was altered by both stress treatments. We conclude that the cellular environment can influence the probability of mutagenesis at specific sites and propose that some of these effects on mutagenesis are mediated by alterations in cellular calcium levels. 相似文献
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Evidence that the intestinal microbiota is intrinsically linked with overall health, including cancer risk, is emerging. Moreover, its composition is not fixed but can be influenced by several dietary components. Dietary modifiers, including the consumption of live bacteria (probiotics) and indigestible or limited digestible food constituents such as oligosaccharides (prebiotics) and polyphenols or both (synbiotics), are recognized modifiers of the numbers and types of microbes and have been reported to reduce colon cancer risk experimentally. Microorganisms also have the ability to generate bioactive compounds from food components. Examples include equol from isoflavones, enterodiol and enterolactone from lignans and urolithins from ellagic acid, which have also been demonstrated to retard experimentally induced cancers. The gastrointestinal microbiota can also influence both sides of the energy balance equation, namely, as a factor influencing energy utilization from the diet and as a factor that influences host genes that regulate energy expenditure and storage. Because of the link between obesity and cancer incidence and mortality, this complex complexion deserves greater attention. Overall, a dynamic interrelationship exists between the intestinal microbiota and colon cancer risk, which can be modified by dietary components and eating behaviors. 相似文献
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