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31.
Structure of the Ku heterodimer bound to DNA and its implications for double-strand break repair 总被引:42,自引:0,他引:42
The Ku heterodimer (Ku70 and Ku80 subunits) contributes to genomic integrity through its ability to bind DNA double-strand breaks and facilitate repair by the non-homologous end-joining pathway. The crystal structure of the human Ku heterodimer was determined both alone and bound to a 55-nucleotide DNA element at 2.7 and 2.5 A resolution, respectively. Ku70 and Ku80 share a common topology and form a dyad-symmetrical molecule with a preformed ring that encircles duplex DNA. The binding site can cradle two full turns of DNA while encircling only the central 3-4 base pairs (bp). Ku makes no contacts with DNA bases and few with the sugar-phosphate backbone, but it fits sterically to major and minor groove contours so as to position the DNA helix in a defined path through the protein ring. These features seem well designed to structurally support broken DNA ends and to bring the DNA helix into phase across the junction during end processing and ligation. 相似文献
32.
A mouse alpha-globin-related pseudogene lacking intervening sequences 总被引:35,自引:0,他引:35
A mouse alpha-globin-related pseudogene (psi alpha 30.5) completely lacks intervening sequences, and could not code for a functional globin poypeptide because of frameshifts. The widespread occurrence of globin pseudogenes in other species suggests that they are not 'dead' genes but may be important in controlling globin expression. 相似文献
33.
Proteolysis, proteasomes and antigen presentation. 总被引:42,自引:0,他引:42
Proteins presented to the immune system must first be cleaved to small peptides by intracellular proteinases. Proteasomes are proteolytic complexes that degrade cytosolic and nuclear proteins. These particles have been implicated in ATP-ubiquitin-dependent proteolysis and in the processing of intracellular antigens for cytolytic immune responses. 相似文献
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36.
Localization and functionality of microsporidian iron-sulphur cluster assembly proteins 总被引:1,自引:0,他引:1
Goldberg AV Molik S Tsaousis AD Neumann K Kuhnke G Delbac F Vivares CP Hirt RP Lill R Embley TM 《Nature》2008,452(7187):624-628
Microsporidia are highly specialized obligate intracellular parasites of other eukaryotes (including humans) that show extreme reduction at the molecular, cellular and biochemical level. Although microsporidia have long been considered as early branching eukaryotes that lack mitochondria, they have recently been shown to contain a tiny mitochondrial remnant called a mitosome. The function of the mitosome is unknown, because microsporidians lack the genes for canonical mitochondrial functions, such as aerobic respiration and haem biosynthesis. However, microsporidial genomes encode several components of the mitochondrial iron-sulphur (Fe-S) cluster assembly machinery. Here we provide experimental insights into the metabolic function and localization of these proteins. We cloned, functionally characterized and localized homologues of several central mitochondrial Fe-S cluster assembly components for the microsporidians Encephalitozoon cuniculi and Trachipleistophora hominis. Several microsporidial proteins can functionally replace their yeast counterparts in Fe-S protein biogenesis. In E. cuniculi, the iron (frataxin) and sulphur (cysteine desulphurase, Nfs1) donors and the scaffold protein (Isu1) co-localize with mitochondrial Hsp70 to the mitosome, consistent with it being the functional site for Fe-S cluster biosynthesis. In T. hominis, mitochondrial Hsp70 and the essential sulphur donor (Nfs1) are still in the mitosome, but surprisingly the main pools of Isu1 and frataxin are cytosolic, creating a conundrum of how these key components of Fe-S cluster biosynthesis coordinate their function. Together, our studies identify the essential biosynthetic process of Fe-S protein assembly as a key function of microsporidian mitosomes. 相似文献
37.
Rual JF Venkatesan K Hao T Hirozane-Kishikawa T Dricot A Li N Berriz GF Gibbons FD Dreze M Ayivi-Guedehoussou N Klitgord N Simon C Boxem M Milstein S Rosenberg J Goldberg DS Zhang LV Wong SL Franklin G Li S Albala JS Lim J Fraughton C Llamosas E Cevik S Bex C Lamesch P Sikorski RS Vandenhaute J Zoghbi HY Smolyar A Bosak S Sequerra R Doucette-Stamm L Cusick ME Hill DE Roth FP Vidal M 《Nature》2005,437(7062):1173-1178
Systematic mapping of protein-protein interactions, or 'interactome' mapping, was initiated in model organisms, starting with defined biological processes and then expanding to the scale of the proteome. Although far from complete, such maps have revealed global topological and dynamic features of interactome networks that relate to known biological properties, suggesting that a human interactome map will provide insight into development and disease mechanisms at a systems level. Here we describe an initial version of a proteome-scale map of human binary protein-protein interactions. Using a stringent, high-throughput yeast two-hybrid system, we tested pairwise interactions among the products of approximately 8,100 currently available Gateway-cloned open reading frames and detected approximately 2,800 interactions. This data set, called CCSB-HI1, has a verification rate of approximately 78% as revealed by an independent co-affinity purification assay, and correlates significantly with other biological attributes. The CCSB-HI1 data set increases by approximately 70% the set of available binary interactions within the tested space and reveals more than 300 new connections to over 100 disease-associated proteins. This work represents an important step towards a systematic and comprehensive human interactome project. 相似文献
38.
Collagen synthesis in fibroblasts transformed by oncogenic viruses 总被引:18,自引:0,他引:18
39.
Cell-specific and lamin-dependent targeting of novel transmembrane proteins in the nuclear envelope 总被引:1,自引:1,他引:0
Poonam Malik Nadia Korfali Vlastimil Srsen Vassiliki Lazou Dzmitry G. Batrakou Nikolaj Zuleger Deirdre M. Kavanagh Gavin S. Wilkie Martin W. Goldberg Eric C. Schirmer 《Cellular and molecular life sciences : CMLS》2010,67(8):1353-1369
Nuclear envelope complexity is expanding with respect to identification of protein components. Here we test the validity of
proteomics results that identified 67 novel predicted nuclear envelope transmembrane proteins (NETs) from liver by directly
comparing 30 as tagged fusions using targeting assays. This confirmed 21 as NETs, but 4 only targeted in certain cell types,
underscoring the complexity of interactions that tether NETs to the nuclear envelope. Four NETs accumulated at the nuclear
rim in normal fibroblasts but not in fibroblasts lacking lamin A, suggesting involvement of lamin A in tethering them in the
nucleus. However, intriguingly, for the NETs tested alternative mechanisms for nuclear envelope retention could be found in
Jurkat cells that normally lack lamin A. This study expands by a factor of three the number of liver NETs analyzed, bringing
the total confirmed to 31, and shows that several have multiple mechanisms for nuclear envelope retention. 相似文献
40.
Goldberg AL 《Nature》2003,426(6968):895-899
The ultimate mechanism that cells use to ensure the quality of intracellular proteins is the selective destruction of misfolded or damaged polypeptides. In eukaryotic cells, the large ATP-dependent proteolytic machine, the 26S proteasome, prevents the accumulation of non-functional, potentially toxic proteins. This process is of particular importance in protecting cells against harsh conditions (for example, heat shock or oxidative stress) and in a variety of diseases (for example, cystic fibrosis and the major neurodegenerative diseases). A full understanding of the pathogenesis of the protein-folding diseases will require greater knowledge of how misfolded proteins are recognized and selectively degraded. 相似文献