排序方式: 共有11条查询结果,搜索用时 31 毫秒
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Systematic screen for human disease genes in yeast 总被引:19,自引:0,他引:19
Steinmetz LM Scharfe C Deutschbauer AM Mokranjac D Herman ZS Jones T Chu AM Giaever G Prokisch H Oefner PJ Davis RW 《Nature genetics》2002,31(4):400-404
High similarity between yeast and human mitochondria allows functional genomic study of Saccharomyces cerevisiae to be used to identify human genes involved in disease. So far, 102 heritable disorders have been attributed to defects in a quarter of the known nuclear-encoded mitochondrial proteins in humans. Many mitochondrial diseases remain unexplained, however, in part because only 40-60% of the presumed 700-1,000 proteins involved in mitochondrial function and biogenesis have been identified. Here we apply a systematic functional screen using the pre-existing whole-genome pool of yeast deletion mutants to identify mitochondrial proteins. Three million measurements of strain fitness identified 466 genes whose deletions impaired mitochondrial respiration, of which 265 were new. Our approach gave higher selection than other systematic approaches, including fivefold greater selection than gene expression analysis. To apply these advantages to human disorders involving mitochondria, human orthologs were identified and linked to heritable diseases using genomic map positions. 相似文献
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Momozawa Y Mni M Nakamura K Coppieters W Almer S Amininejad L Cleynen I Colombel JF de Rijk P Dewit O Finkel Y Gassull MA Goossens D Laukens D Lémann M Libioulle C O'Morain C Reenaers C Rutgeerts P Tysk C Zelenika D Lathrop M Del-Favero J Hugot JP de Vos M Franchimont D Vermeire S Louis E Georges M 《Nature genetics》2011,43(1):43-47
Genome-wide association studies (GWAS) have identified dozens of risk loci for many complex disorders, including Crohn's disease. However, common disease-associated SNPs explain at most ~20% of the genetic variance for Crohn's disease. Several factors may account for this unexplained heritability, including rare risk variants not adequately tagged thus far in GWAS. That rare susceptibility variants indeed contribute to variation in multifactorial phenotypes has been demonstrated for colorectal cancer, plasma high-density lipoprotein cholesterol levels, blood pressure, type 1 diabetes, hypertriglyceridemia and, in the case of Crohn's disease, for NOD2 (refs. 14,15). Here we describe the use of high-throughput resequencing of DNA pools to search for rare coding variants influencing susceptibility to Crohn's disease in 63 GWAS-identified positional candidate genes. We identify low frequency coding variants conferring protection against inflammatory bowel disease in IL23R, but we conclude that rare coding variants in positional candidates do not make a large contribution to inherited predisposition to Crohn's disease. 相似文献
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The structure of DNA in the nucleosome core 总被引:24,自引:0,他引:24
The 1.9-A-resolution crystal structure of the nucleosome core particle containing 147 DNA base pairs reveals the conformation of nucleosomal DNA with unprecedented accuracy. The DNA structure is remarkably different from that in oligonucleotides and non-histone protein-DNA complexes. The DNA base-pair-step geometry has, overall, twice the curvature necessary to accommodate the DNA superhelical path in the nucleosome. DNA segments bent into the minor groove are either kinked or alternately shifted. The unusual DNA conformational parameters induced by the binding of histone protein have implications for sequence-dependent protein recognition and nucleosome positioning and mobility. Comparison of the 147-base-pair structure with two 146-base-pair structures reveals alterations in DNA twist that are evidently common in bulk chromatin, and which are of probable importance for chromatin fibre formation and chromatin remodelling. 相似文献
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Curt Kosswig 《Cellular and molecular life sciences : CMLS》1947,3(10):404-410
Summary In some favorable cases it can be shown that in a given genotype there are more genes present than necessary to produce a certain character. By the aid of such substitute-genes evolved under the protection of present genes of analogous action the phylogenetic stability of a character can be assured with more certainty. On the other hand, in the case of loss of the older ancestral gene the identity of the phenotype is safeguarded now by the substitute-gene formerly present merely in a latent condition. The substitute-gene takes over the function of the gene lost. In the course of phylogenetic divergence of two forms those of their characters being of the same phenotypical manifestation can be produced by different systems of substitute-genes, added to the genotypes under divergent evolution. 相似文献
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