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排序方式: 共有84条查询结果,搜索用时 31 毫秒
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Aharoni A Gaidukov L Khersonsky O McQ Gould S Roodveldt C Tawfik DS 《Nature genetics》2005,37(1):73-76
How proteins with new functions (e.g., drug or antibiotic resistance or degradation of man-made chemicals) evolve in a matter of months or years is still unclear. This ability is dependent on the induction of new phenotypic traits by a small number of mutations (plasticity). But mutations often have deleterious effects on functions that are essential for survival. How are these seemingly conflicting demands met at the single-protein level? Results from directed laboratory evolution experiments indicate that the evolution of a new function is driven by mutations that have little effect on the native function but large effects on the promiscuous functions that serve as starting point. Thus, an evolving protein can initially acquire increased fitness for a new function without losing its original function. Gene duplication and the divergence of a completely new protein may then follow. 相似文献
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Integrative genomics identifies MCU as an essential component of the mitochondrial calcium uniporter 总被引:2,自引:0,他引:2
Baughman JM Perocchi F Girgis HS Plovanich M Belcher-Timme CA Sancak Y Bao XR Strittmatter L Goldberger O Bogorad RL Koteliansky V Mootha VK 《Nature》2011,476(7360):341-345
Mitochondria from diverse organisms are capable of transporting large amounts of Ca(2+) via a ruthenium-red-sensitive, membrane-potential-dependent mechanism called the uniporter. Although the uniporter's biophysical properties have been studied extensively, its molecular composition remains elusive. We recently used comparative proteomics to identify MICU1 (also known as CBARA1), an EF-hand-containing protein that serves as a putative regulator of the uniporter. Here, we use whole-genome phylogenetic profiling, genome-wide RNA co-expression analysis and organelle-wide protein coexpression analysis to predict proteins functionally related to MICU1. All three methods converge on a novel predicted transmembrane protein, CCDC109A, that we now call 'mitochondrial calcium uniporter' (MCU). MCU forms oligomers in the mitochondrial inner membrane, physically interacts with MICU1, and resides within a large molecular weight complex. Silencing MCU in cultured cells or in vivo in mouse liver severely abrogates mitochondrial Ca(2+) uptake, whereas mitochondrial respiration and membrane potential remain fully intact. MCU has two predicted transmembrane helices, which are separated by a highly conserved linker facing the intermembrane space. Acidic residues in this linker are required for its full activity. However, an S259A point mutation retains function but confers resistance to Ru360, the most potent inhibitor of the uniporter. Our genomic, physiological, biochemical and pharmacological data firmly establish MCU as an essential component of the mitochondrial Ca(2+) uniporter. 相似文献
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Vacic V McCarthy S Malhotra D Murray F Chou HH Peoples A Makarov V Yoon S Bhandari A Corominas R Iakoucheva LM Krastoshevsky O Krause V Larach-Walters V Welsh DK Craig D Kelsoe JR Gershon ES Leal SM Dell Aquila M Morris DW Gill M Corvin A Insel PA McClellan J King MC Karayiorgou M Levy DL DeLisi LE Sebat J 《Nature》2011,471(7339):499-503
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Otero G Biddau G Sánchez-Sánchez C Caillard R López MF Rogero C Palomares FJ Cabello N Basanta MA Ortega J Méndez J Echavarren AM Pérez R Gómez-Lor B Martín-Gago JA 《Nature》2008,454(7206):865-868
Graphite vaporization provides an uncontrolled yet efficient means of producing fullerene molecules. However, some fullerene derivatives or unusual fullerene species might only be accessible through rational and controlled synthesis methods. Recently, such an approach has been used to produce isolable amounts of the fullerene C(60) from commercially available starting materials. But the overall process required 11 steps to generate a suitable polycyclic aromatic precursor molecule, which was then dehydrogenated in the gas phase with a yield of only about one per cent. Here we report the formation of C(60) and the triazafullerene C(57)N(3) from aromatic precursors using a highly efficient surface-catalysed cyclodehydrogenation process. We find that after deposition onto a platinum (111) surface and heating to 750 K, the precursors are transformed into the corresponding fullerene and triazafullerene molecules with about 100 per cent yield. We expect that this approach will allow the production of a range of other fullerenes and heterofullerenes, once suitable precursors are available. Also, if the process is carried out in an atmosphere containing guest species, it might even allow the encapsulation of atoms or small molecules to form endohedral fullerenes. 相似文献
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A human natural killer cell subset provides an innate source of IL-22 for mucosal immunity 总被引:2,自引:0,他引:2
Cella M Fuchs A Vermi W Facchetti F Otero K Lennerz JK Doherty JM Mills JC Colonna M 《Nature》2009,457(7230):722-725
Natural killer (NK) cells are classically viewed as lymphocytes that provide innate surveillance against virally infected cells and tumour cells through the release of cytolytic mediators and interferon (IFN)-gamma. In humans, blood CD56(dim) NK cells specialize in the lysis of cell targets. In the lymph nodes, CD56(bright) NK cells secrete IFN-gamma cooperating with dendritic cells and T cells in the generation of adaptive responses. Here we report the characterization of a human NK cell subset located in mucosa-associated lymphoid tissues, such as tonsils and Peyer's patches, which is hard-wired to secrete interleukin (IL)-22, IL-26 and leukaemia inhibitory factor. These NK cells, which we refer to as NK-22 cells, are triggered by acute exposure to IL-23. In vitro, NK-22-secreted cytokines stimulate epithelial cells to secrete IL-10, proliferate and express a variety of mitogenic and anti-apoptotic molecules. NK-22 cells are also found in mouse mucosa-associated lymphoid tissues and appear in the small intestine lamina propria during bacterial infection, suggesting that NK-22 cells provide an innate source of IL-22 that may help constrain inflammation and protect mucosal sites. 相似文献
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Jin D Liu HX Hirai H Torashima T Nagai T Lopatina O Shnayder NA Yamada K Noda M Seike T Fujita K Takasawa S Yokoyama S Koizumi K Shiraishi Y Tanaka S Hashii M Yoshihara T Higashida K Islam MS Yamada N Hayashi K Noguchi N Kato I Okamoto H Matsushima A Salmina A Munesue T Shimizu N Mochida S Asano M Higashida H 《Nature》2007,446(7131):41-45
CD38, a transmembrane glycoprotein with ADP-ribosyl cyclase activity, catalyses the formation of Ca2+ signalling molecules, but its role in the neuroendocrine system is unknown. Here we show that adult CD38 knockout (CD38-/-) female and male mice show marked defects in maternal nurturing and social behaviour, respectively, with higher locomotor activity. Consistently, the plasma level of oxytocin (OT), but not vasopressin, was strongly decreased in CD38-/- mice. Replacement of OT by subcutaneous injection or lentiviral-vector-mediated delivery of human CD38 in the hypothalamus rescued social memory and maternal care in CD38-/- mice. Depolarization-induced OT secretion and Ca2+ elevation in oxytocinergic neurohypophysial axon terminals were disrupted in CD38-/- mice; this was mimicked by CD38 metabolite antagonists in CD38+/+ mice. These results reveal that CD38 has a key role in neuropeptide release, thereby critically regulating maternal and social behaviours, and may be an element in neurodevelopmental disorders. 相似文献