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排序方式: 共有144条查询结果,搜索用时 15 毫秒
71.
72.
Anand N Murthy S Amann G Wernick M Porter LA Cukier IH Collins C Gray JW Diebold J Demetrick DJ Lee JM 《Nature genetics》2002,30(3):301-305
Telomeres in most immortal cells are maintained by the enzyme telomerase, allowing cells to divide indefinitely. Some telomerase-negative tumors and immortal cell lines maintain long heterogeneous telomeres by the ALT (alternative lengthening of telomeres) mechanism; such tumors are expected to be resistant to anti-telomerase drug therapies. Occasionally telomerase-negative Saccharomyces cerevisiae mutants survive, and 10% of them (type II survivors) have unstable telomeres. As in human ALT+ cells, short telomeres in yeast type II survivors lengthen abruptly; in yeast, this is dependent on the recombination proteins Rad52p and Rad50p. In human cells, ALT involves copying of sequence from a donor to a recipient telomere. We have characterized for the first time a class of complex telomere mutations seen only in ALT+ cells. The mutant telomeres are defined by the replacement of the progenitor telomere at a discrete point (fusion point) with a different telomere repeat array. Among 19 characterized fusion points, one occurred within the first six repeats of the telomere, indicating that these recombination-like events can occur anywhere within the telomere. One mutant telomere may have been involved in a secondary recombination-like mutation event, suggesting that these mutations are sporadic but ongoing in ALT+ cells. We also identified simple intra-allelic mutations at high frequency, which evidently contribute to telomere instability in ALT+ cells. 相似文献
73.
Cheung VG Nowak N Jang W Kirsch IR Zhao S Chen XN Furey TS Kim UJ Kuo WL Olivier M Conroy J Kasprzyk A Massa H Yonescu R Sait S Thoreen C Snijders A Lemyre E Bailey JA Bruzel A Burrill WD Clegg SM Collins S Dhami P Friedman C Han CS Herrick S Lee J Ligon AH Lowry S Morley M Narasimhan S Osoegawa K Peng Z Plajzer-Frick I Quade BJ Scott D Sirotkin K Thorpe AA Gray JW Hudson J Pinkel D Ried T Rowen L Shen-Ong GL Strausberg RL Birney E Callen DF Cheng JF Cox DR Doggett NA Carter NP Eichler EE 《Nature》2001,409(6822):953-958
We have placed 7,600 cytogenetically defined landmarks on the draft sequence of the human genome to help with the characterization of genes altered by gross chromosomal aberrations that cause human disease. The landmarks are large-insert clones mapped to chromosome bands by fluorescence in situ hybridization. Each clone contains a sequence tag that is positioned on the genomic sequence. This genome-wide set of sequence-anchored clones allows structural and functional analyses of the genome. This resource represents the first comprehensive integration of cytogenetic, radiation hybrid, linkage and sequence maps of the human genome; provides an independent validation of the sequence map and framework for contig order and orientation; surveys the genome for large-scale duplications, which are likely to require special attention during sequence assembly; and allows a stringent assessment of sequence differences between the dark and light bands of chromosomes. It also provides insight into large-scale chromatin structure and the evolution of chromosomes and gene families and will accelerate our understanding of the molecular bases of human disease and cancer. 相似文献
74.
Bacterial targets and antibiotics: genome-based drug discovery 总被引:2,自引:0,他引:2
The requirement for novel classes of antibiotics to combat the emergence of resistant and multi-resistant bacteria has coincided with the completion sequencing of a number of bacterial genomes. The in silico analysis of these genomes coupled with innovative genetic manipulation has already led to the identification of conserved essential (either in vitro or in vivo, depending on the methodology) genes that are potential targets for antibacterial research. New technologies, made possible by access to the genomic sequences, are capable of simultaneously quantifying almost the entire complement of gene products synthesised by bacterial cells. These technologies are opening up the way for the analysis of expression patterns elicited in cells in response to changes in their environment. The integration of these technologies into the drug discovery process is still in its infancy and the potential wealth of information, some of it already available, has yet to be fully realised. 相似文献
75.
76.
77.
Endfeet of retinal glial cells have higher densities of ion channels that mediate K+ buffering 总被引:4,自引:0,他引:4
A major function of glial cells in the central nervous system is to buffer the extracellular potassium concentration, [K+]o. A local rise in [K+]o causes potassium ions to enter glial cells, which have membranes that are highly permeable to K+; potassium then leaves the glial cells at other locations where [K+]o has not risen. We report here the first study of the individual ion channels mediating potassium buffering by glial cells. The patch-clamp technique was employed to record single channel currents in Müller cells, the radial glia of the vertebrate retina. Those cells have 94% of their potassium conductance in an endfoot apposed to the vitreous humour, causing K+ released from active retinal neurones to be buffered preferentially to the vitreous. Recordings from patches of endfoot and cell body membrane show that a single type of inward-rectifying K+ channel mediates potassium buffering at both cell locations. The non-uniform density of K+ conductance is due to a non-uniform distribution of one type of K+ channel, rather than to the cell expressing high conductance channels at the endfoot and low conductance channels elsewhere on the cell. 相似文献
78.
RNA editing in plant mitochondria 总被引:71,自引:0,他引:71
79.
80.
Corey DP García-Añoveros J Holt JR Kwan KY Lin SY Vollrath MA Amalfitano A Cheung EL Derfler BH Duggan A Géléoc GS Gray PA Hoffman MP Rehm HL Tamasauskas D Zhang DS 《Nature》2004,432(7018):723-730
Mechanical deflection of the sensory hair bundles of receptor cells in the inner ear causes ion channels located at the tips of the bundle to open, thereby initiating the perception of sound. Although some protein constituents of the transduction apparatus are known, the mechanically gated transduction channels have not been identified in higher vertebrates. Here, we investigate TRP (transient receptor potential) ion channels as candidates and find one, TRPA1 (also known as ANKTM1), that meets criteria for the transduction channel. The appearance of TRPA1 messenger RNA expression in hair cell epithelia coincides developmentally with the onset of mechanosensitivity. Antibodies to TRPA1 label hair bundles, especially at their tips, and tip labelling disappears when the transduction apparatus is chemically disrupted. Inhibition of TRPA1 protein expression in zebrafish and mouse inner ears inhibits receptor cell function, as assessed with electrical recording and with accumulation of a channel-permeant fluorescent dye. TRPA1 is probably a component of the transduction channel itself. 相似文献