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排序方式: 共有589条查询结果,搜索用时 15 毫秒
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Two transactivation mechanisms cooperate for the bulk of HIF-1-responsive gene expression 总被引:6,自引:0,他引:6
Kasper LH Boussouar F Boyd K Xu W Biesen M Rehg J Baudino TA Cleveland JL Brindle PK 《The EMBO journal》2005,24(22):3846-3858
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Mutations in copper/zinc superoxide dismutase (SOD1) account for 10-20% of a familial form of amyotrophic lateral sclerosis (ALS). A common feature of SOD1 mutants is abnormal aggregation of the aberrant SOD1 in neurons and glia. We now report that in ALS transgenic mouse models the constitutively expressed heat shock protein 70 (Hsp70) is mislocalized into aggregates together with mutant SOD1 and ubiquitin. Forcing increased synthesis of Hsp70 ameliorates both aggregate formation and toxicity in primary motor neurons in culture. However, chronic increase in an inducible form of Hsp70 to about 10-fold its normal level is shown here not to affect disease course or pathology developed in mice from accumulation of any of three familial ALS causing SOD1 mutants with different underlying biochemical characteristics. Therefore, increasing Hsp70 to a level that is protective in mouse models of acute ischemic insult and selected neurodegenerative disorders is not sufficient to ameliorate mutant SOD1-mediated toxicity. 相似文献
66.
A standardized kinesin nomenclature 总被引:28,自引:0,他引:28
Lawrence CJ Dawe RK Christie KR Cleveland DW Dawson SC Endow SA Goldstein LS Goodson HV Hirokawa N Howard J Malmberg RL McIntosh JR Miki H Mitchison TJ Okada Y Reddy AS Saxton WM Schliwa M Scholey JM Vale RD Walczak CE Wordeman L 《The Journal of cell biology》2004,167(1):19-22
In recent years the kinesin superfamily has become so large that several different naming schemes have emerged, leading to confusion and miscommunication. Here, we set forth a standardized kinesin nomenclature based on 14 family designations. The scheme unifies all previous phylogenies and nomenclature proposals, while allowing individual sequence names to remain the same, and for expansion to occur as new sequences are discovered. 相似文献
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J. H. Kim B. C. Campbell R. Molyneux N. Mahoney K. L. Chan J. Yu J. Wilkinson J. Cary D. Bhatnagar T. E. Cleveland 《Mycotoxin Research》2006,22(1):3-8
It was initially shown that gallic acid, from hydrolysable tannins in the pelliele of walnut kernels, dramatically inhibits
biosynthesis of aflatoxin byAspergillus flavus. The mechanism of this inhibition was found to take place upstream from the gene cluster, including the regulatory gene,aflR, involved in aflatoxin biosynthesis. Additional research using other antioxidant phenolics showed similar antiaflatoxigenic
activity to gallic acid. Treatment ofA. flavus withtert-butyl hydroperoxide resulted in an almost doubling of aflatoxin biosynthesis compared to untreated samples. Thus, antioxidative
response systems are potentially useful molecular targets for control ofA. flavus. A high throughput screening system was developed using yeast,Saccharomyces cerevisiae, as a model fungus. This screening provided an avenue to quickly identify fungal genes that were vulnerable to treatment
by phenolic compounds. The assay also provided a means to quickly assess effects of combinations of phenolics and certain
fungicides affecting mitochondrial respiration. For example, theS. cerevisiae sod2† mutant was highly sensitive to treatment by certain phenolics and strobilurins/antimycin A, fungicides which inhibit complex
III of the mitochondrial respiratory chain. Verification of stress to this system in the target fungus,A. flavus, was shown through complementation analysis, wherein the mitochondrial superoxide dismutase (Mn-SOD) gene (sodA) ofA. flavus in the ortholog mutant,sod2†, ofS. cerevisiae, relieved phenolic-induced stress. Mitochondrial antioxidative stress systems play an important role in fungal response to
antifungals. Combined treatment of fungi with phenolics and inhibitors of mitochondrial respiration can effectively suppress
growth ofA. flavus in a synergistic fashion. 相似文献
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The human CENP-A centromeric nucleosome-associated complex 总被引:11,自引:0,他引:11
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D Yu H Pendergraff J Liu HB Kordasiewicz DW Cleveland EE Swayze WF Lima ST Crooke TP Prakash DR Corey 《Cell》2012,150(5):895-908
Mutant huntingtin (HTT) protein causes Huntington disease (HD), an incurable neurological disorder. Silencing mutant HTT using nucleic acids would eliminate the root cause of HD. Developing nucleic acid drugs is challenging, and an ideal clinical approach to gene silencing would combine the simplicity of single-stranded antisense oligonucleotides with the efficiency of RNAi. Here, we describe RNAi by single-stranded siRNAs (ss-siRNAs). ss-siRNAs are potent (>100-fold more than unmodified RNA) and allele-selective (>30-fold) inhibitors of mutant HTT expression in cells derived from HD patients. Strategic placement of mismatched bases mimics micro-RNA recognition and optimizes discrimination between mutant and wild-type alleles. ss-siRNAs require Argonaute protein and function through the RNAi pathway. Intraventricular infusion of ss-siRNA produced selective silencing of the mutant HTT allele throughout the brain in a mouse HD model. These data demonstrate that chemically modified ss-siRNAs function through the RNAi pathway and provide allele-selective compounds for clinical development. 相似文献
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Oyster reefs are one of the most threatened marine habitats on earth, with habitat loss resulting from water quality degradation, coastal development, destructive fishing practices, overfishing, and storm impacts. For successful and sustainable oyster reef restoration efforts, it is necessary to choose sites that support long-term growth and survival of oysters. Selection of suitable sites is critically important as it can greatly influence mortality factors and may largely determine the ultimate success of the restoration project. The application of Geographic Information Systems (GIS) provides an effective methodology for identifying suitable sites for oyster reef restoration and removes much of the uncertainty involved in the sometimes trial and error selection process. This approach also provides an objective and quantitative tool for planning future oyster reef restoration efforts. The aim of this study was to develop a restoration suitability index model and reef quality index model to characterize locations based on their potential for successful reef restoration within the Mission-Aransas Estuary, Texas, USA. The restoration suitability index model focuses on salinity, temperature, turbidity, dissolved oxygen, and depth, while the reef quality index model focuses on abundance of live oysters, dead shell, and spat. Size-specific Perkinsus marinus infection levels were mapped to illustrate general disease trends. This application was effective in identifying suitable sites for oyster reef restoration, is flexible in its use, and provides a mechanism for considering alternative approaches. The end product is a practical decision-support tool that can be used by coastal resource managers to improve oyster restoration efforts. As oyster reef restoration activities continue at small and large-scales, site selection criteria are critical for assisting stakeholders and managers and for maximizing long-term sustainability of oyster resources. 相似文献