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The major light-harvesting complex of photosystem II (LHC-II) serves as the principal solar energy collector in the photosynthesis of green plants and presumably also functions in photoprotection under high-light conditions. Here we report the first X-ray structure of LHC-II in icosahedral proteoliposome assembly at atomic detail. One asymmetric unit of a large R32 unit cell contains ten LHC-II monomers. The 14 chlorophylls (Chl) in each monomer can be unambiguously distinguished as eight Chla and six Chlb molecules. Assignment of the orientation of the transition dipole moment of each chlorophyll has been achieved. All Chlb are located around the interface between adjacent monomers, and together with Chla they are the basis for efficient light harvesting. Four carotenoid-binding sites per monomer have been observed. The xanthophyll-cycle carotenoid at the monomer-monomer interface may be involved in the non-radiative dissipation of excessive energy, one of the photoprotective strategies that have evolved in plants. 相似文献
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Trigger factor in complex with the ribosome forms a molecular cradle for nascent proteins 总被引:1,自引:0,他引:1
During protein biosynthesis, nascent polypeptide chains that emerge from the ribosomal exit tunnel encounter ribosome-associated chaperones, which assist their folding to the native state. Here we present a 2.7 A crystal structure of Escherichia coli trigger factor, the best-characterized chaperone of this type, together with the structure of its ribosome-binding domain in complex with the Haloarcula marismortui large ribosomal subunit. Trigger factor adopts a unique conformation resembling a crouching dragon with separated domains forming the amino-terminal ribosome-binding 'tail', the peptidyl-prolyl isomerase 'head', the carboxy-terminal 'arms' and connecting regions building up the 'back'. From its attachment point on the ribosome, trigger factor projects the extended domains over the exit of the ribosomal tunnel, creating a protected folding space where nascent polypeptides may be shielded from proteases and aggregation. This study sheds new light on our understanding of co-translational protein folding, and suggests an unexpected mechanism of action for ribosome-associated chaperones. 相似文献
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Sex determination and gametogenesis are key processes in human reproduction, and any defect can lead to
infertility. We describe here the molecular mechanisms of male sex determination and testis formation; defects in
sex determination lead to a female phenotype despite the presence of a Y chromosome, more rarely to a male
phenotype with XX chromosomes, or to intersex phenotypes. Interestingly, these phenotypes are often associated
with other developmental malformations. In testis, spermatozoa are produced from renewable stem cells in a complex
differentiation process called spermatogenesis. Gene expression during spermatogenesis differs to a surprising
degree from gene expression in somatic cells, and we discuss here mechanistic differences and their effect on the
differentiation process and male fertility.Received 23 January 2004; received after revision 30 March 2004; accepted 6 April 2004 相似文献
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Gelsolin superfamily proteins: key regulators of cellular functions 总被引:10,自引:0,他引:10
Silacci P Mazzolai L Gauci C Stergiopulos N Yin HL Hayoz D 《Cellular and molecular life sciences : CMLS》2004,61(19-20):2614-2623
Cytoskeletal rearrangement occurs in a variety of cellular processes and involves a wide spectrum of proteins. Among these, the gelsolin superfamily proteins control actin organization by severing filaments, capping filament ends and nucleating actin assembly [1]. Gelsolin is the founding member of this family, which now contains at least another six members: villin, adseverin, capG, advillin, supervillin and flightless I. In addition to their respective role in actin filament remodeling, these proteins have some specific and apparently non-overlapping particular roles in several cellular processes, including cell motility, control of apoptosis and regulation of phagocytosis (summarized in table 1). Evidence suggests that proteins belonging to the gelsolin superfamily may be involved in other processes, including gene expression regulation. This review will focus on some of the known functions of the gelsolin superfamily proteins, thus providing a basis for reflection on other possible and as yet incompletely understood roles for these proteins. 相似文献