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81.
Escherichia coli AlkB and its human homologues ABH2 and ABH3 repair DNA/RNA base lesions by using a direct oxidative dealkylation mechanism. ABH2 has the primary role of guarding mammalian genomes against 1-meA damage by repairing this lesion in double-stranded DNA (dsDNA), whereas AlkB and ABH3 preferentially repair single-stranded DNA (ssDNA) lesions and can repair damaged bases in RNA. Here we show the first crystal structures of AlkB-dsDNA and ABH2-dsDNA complexes, stabilized by a chemical cross-linking strategy. This study reveals that AlkB uses an unprecedented base-flipping mechanism to access the damaged base: it squeezes together the two bases flanking the flipped-out one to maintain the base stack, explaining the preference of AlkB for repairing ssDNA lesions over dsDNA ones. In addition, the first crystal structure of ABH2, presented here, provides a structural basis for designing inhibitors of this human DNA repair protein. 相似文献
82.
iASPP preferentially binds p53 proline-rich region and modulates apoptotic function of codon 72-polymorphic p53 总被引:6,自引:0,他引:6
Bergamaschi D Samuels Y Sullivan A Zvelebil M Breyssens H Bisso A Del Sal G Syed N Smith P Gasco M Crook T Lu X 《Nature genetics》2006,38(10):1133-1141
iASPP is one of the most evolutionarily conserved inhibitors of p53, whereas ASPP1 and ASPP2 are activators of p53. We show here that, in addition to the DNA-binding domain, the ASPP family members also bind to the proline-rich region of p53, which contains the most common p53 polymorphism at codon 72. Furthermore, the ASPP family members, particularly iASPP, bind to and regulate the activity of p53Pro72 more efficiently than that of p53Arg72. Hence, escape from negative regulation by iASPP is a newly identified mechanism by which p53Arg72 activates apoptosis more efficiently than p53Pro72. 相似文献
83.
Rivière JB van Bon BW Hoischen A Kholmanskikh SS O'Roak BJ Gilissen C Gijsen S Sullivan CT Christian SL Abdul-Rahman OA Atkin JF Chassaing N Drouin-Garraud V Fry AE Fryns JP Gripp KW Kempers M Kleefstra T Mancini GM Nowaczyk MJ van Ravenswaaij-Arts CM Roscioli T Marble M Rosenfeld JA Siu VM de Vries BB Shendure J Verloes A Veltman JA Brunner HG Ross ME Pilz DT Dobyns WB 《Nature genetics》2012,44(4):440-4, S1-2
Brain malformations are individually rare but collectively common causes of developmental disabilities. Many forms of malformation occur sporadically and are associated with reduced reproductive fitness, pointing to a causative role for de novo mutations. Here, we report a study of Baraitser-Winter syndrome, a well-defined disorder characterized by distinct craniofacial features, ocular colobomata and neuronal migration defect. Using whole-exome sequencing of three proband-parent trios, we identified de novo missense changes in the cytoplasmic actin-encoding genes ACTB and ACTG1 in one and two probands, respectively. Sequencing of both genes in 15 additional affected individuals identified disease-causing mutations in all probands, including two recurrent de novo alterations (ACTB, encoding p.Arg196His, and ACTG1, encoding p.Ser155Phe). Our results confirm that trio-based exome sequencing is a powerful approach to discover genes causing sporadic developmental disorders, emphasize the overlapping roles of cytoplasmic actin proteins in development and suggest that Baraitser-Winter syndrome is the predominant phenotype associated with mutation of these two genes. 相似文献
84.
S Tachibana SA Sullivan S Kawai S Nakamura HR Kim N Goto N Arisue NM Palacpac H Honma M Yagi T Tougan Y Katakai O Kaneko T Mita K Kita Y Yasutomi PL Sutton R Shakhbatyan T Horii T Yasunaga JW Barnwell AA Escalante JM Carlton K Tanabe 《Nature genetics》2012,44(9):1051-1055
P. cynomolgi, a malaria-causing parasite of Asian Old World monkeys, is the sister taxon of P. vivax, the most prevalent malaria-causing species in humans outside of Africa. Because P. cynomolgi shares many phenotypic, biological and genetic characteristics with P. vivax, we generated draft genome sequences for three P. cynomolgi strains and performed genomic analysis comparing them with the P. vivax genome, as well as with the genome of a third previously sequenced simian parasite, Plasmodium knowlesi. Here, we show that genomes of the monkey malaria clade can be characterized by copy-number variants (CNVs) in multigene families involved in evasion of the human immune system and invasion of host erythrocytes. We identify genome-wide SNPs, microsatellites and CNVs in the P. cynomolgi genome, providing a map of genetic variation that can be used to map parasite traits and study parasite populations. The sequencing of the P. cynomolgi genome is a critical step in developing a model system for P. vivax research and in counteracting the neglect of P. vivax. 相似文献
85.