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151.
François Binet Gaëlle Mawambo Nicholas Sitaras Nicolas Tetreault Eric Lapalme Sandra Favret Agustin Cerani Dominique Leboeuf Sophie Tremblay Flavio Rezende Aimee M. Juan Andreas Stahl Jean-Sebastien Joyal Éric Milot Randal J. Kaufman Martin Guimond Timothy E. Kennedy Przemyslaw Sapieha 《Cell metabolism》2013,17(3):353-371
Highlights? Canonical ER stress pathways are activated in central neurons during hypoxia/ischemia ? The ER stress endoribonuclease IRE1α degrades the neurovascular guidance cue netrin-1 ? Neuronal-derived netrin-1 activates a reparative proangiogenic program in microglial cells ? Neuronal ER stress prevents reparative angiogenesis in the ischemic neural retina 相似文献
152.
Anne Lopes Sophie Sacquin-Mora Viktoriya Dimitrova Elodie Laine Yann Ponty Alessandra Carbone 《PLoS computational biology》2013,9(12)
Large-scale analyses of protein-protein interactions based on coarse-grain molecular docking simulations and binding site predictions resulting from evolutionary sequence analysis, are possible and realizable on hundreds of proteins with variate structures and interfaces. We demonstrated this on the 168 proteins of the Mintseris Benchmark 2.0. On the one hand, we evaluated the quality of the interaction signal and the contribution of docking information compared to evolutionary information showing that the combination of the two improves partner identification. On the other hand, since protein interactions usually occur in crowded environments with several competing partners, we realized a thorough analysis of the interactions of proteins with true partners but also with non-partners to evaluate whether proteins in the environment, competing with the true partner, affect its identification. We found three populations of proteins: strongly competing, never competing, and interacting with different levels of strength. Populations and levels of strength are numerically characterized and provide a signature for the behavior of a protein in the crowded environment. We showed that partner identification, to some extent, does not depend on the competing partners present in the environment, that certain biochemical classes of proteins are intrinsically easier to analyze than others, and that small proteins are not more promiscuous than large ones. Our approach brings to light that the knowledge of the binding site can be used to reduce the high computational cost of docking simulations with no consequence in the quality of the results, demonstrating the possibility to apply coarse-grain docking to datasets made of thousands of proteins. Comparison with all available large-scale analyses aimed to partner predictions is realized. We release the complete decoys set issued by coarse-grain docking simulations of both true and false interacting partners, and their evolutionary sequence analysis leading to binding site predictions. Download site: http://www.lgm.upmc.fr/CCDMintseris/ 相似文献
153.
154.
Laurence Drouilhet Camille Mansanet Julien Sarry Kamila Tabet Philippe Bardou Florent Woloszyn Jérome Lluch Grégoire Harichaux Catherine Viguié Danielle Monniaux Loys Bodin Philippe Mulsant Stéphane Fabre 《PLoS genetics》2013,9(9)
Prolific sheep have proven to be a valuable model to identify genes and mutations implicated in female fertility. In the Lacaune sheep breed, large variation in litter size is genetically determined by the segregation of a fecundity major gene influencing ovulation rate, named FecL and its prolific allele FecLL. Our previous work localized FecL on sheep chromosome 11 within a locus of 1.1 Mb encompassing 20 genes. With the aim to identify the FecL gene, we developed a high throughput sequencing strategy of long-range PCR fragments spanning the locus of FecLL carrier and non-carrier ewes. Resulting informative markers defined a new 194.6 kb minimal interval. The reduced FecL locus contained only two genes, insulin-like growth factor 2 mRNA binding protein 1 (IGF2BP1) and beta-1,4-N-acetyl-galactosaminyl transferase 2 (B4GALNT2), and we identified two SNP in complete linkage disequilibrium with FecLL. B4GALNT2 appeared as the best positional and expressional candidate for FecL, since it showed an ectopic expression in the ovarian follicles of FecLL/FecLL ewes at mRNA and protein levels. In FecLL carrier ewes only, B4GALNT2 transferase activity was localized in granulosa cells and specifically glycosylated proteins were detected in granulosa cell extracts and follicular fluids. The identification of these glycoproteins by mass spectrometry revealed at least 10 proteins, including inhibin alpha and betaA subunits, as potential targets of B4GALNT2 activity. Specific ovarian protein glycosylation by B4GALNT2 is proposed as a new mechanism of ovulation rate regulation in sheep, and could contribute to open new fields of investigation to understand female infertility pathogenesis. 相似文献
155.
156.
Wouter L. W. Hazenbos Kimberly K. Kajihara Richard Vandlen J. Hiroshi Morisaki Sophie M. Lehar Mark J. Kwakkenbos Tim Beaumont Arjen Q. Bakker Qui Phung Lee R. Swem Satish Ramakrishnan Janice Kim Min Xu Ishita M. Shah Binh An Diep Tao Sai Andrew Sebrell Yana Khalfin Angela Oh Chris Koth S. Jack Lin Byoung-Chul Lee Magnus Strandh Klaus Koefoed Peter S. Andersen Hergen Spits Eric J. Brown Man-Wah Tan Sanjeev Mariathasan 《PLoS pathogens》2013,9(10)
Infection of host tissues by Staphylococcus aureus and S. epidermidis requires an unusual family of staphylococcal adhesive proteins that contain long stretches of serine-aspartate dipeptide-repeats (SDR). The prototype member of this family is clumping factor A (ClfA), a key virulence factor that mediates adhesion to host tissues by binding to extracellular matrix proteins such as fibrinogen. However, the biological siginificance of the SDR-domain and its implication for pathogenesis remain poorly understood. Here, we identified two novel bacterial glycosyltransferases, SdgA and SdgB, which modify all SDR-proteins in these two bacterial species. Genetic and biochemical data demonstrated that these two glycosyltransferases directly bind and covalently link N-acetylglucosamine (GlcNAc) moieties to the SDR-domain in a step-wise manner, with SdgB appending the sugar residues proximal to the target Ser-Asp repeats, followed by additional modification by SdgA. GlcNAc-modification of SDR-proteins by SdgB creates an immunodominant epitope for highly opsonic human antibodies, which represent up to 1% of total human IgG. Deletion of these glycosyltransferases renders SDR-proteins vulnerable to proteolysis by human neutrophil-derived cathepsin G. Thus, SdgA and SdgB glycosylate staphylococcal SDR-proteins, which protects them against host proteolytic activity, and yet generates major eptopes for the human anti-staphylococcal antibody response, which may represent an ongoing competition between host and pathogen. 相似文献
157.
Sophie Garnier Vinh Truong Jessy Brocheton Tanja Zeller Maxime Rovital Philipp S. Wild Andreas Ziegler The Cardiogenics Consortium Thomas Munzel Laurence Tiret Stefan Blankenberg Panos Deloukas Jeannette Erdmann Christian Hengstenberg Nilesh J. Samani Heribert Schunkert Willem H. Ouwehand Alison H. Goodall Fran?ois Cambien David-Alexandre Trégou?t 《PLoS genetics》2013,9(1)
158.
Julien R. C. Bergeron Liam J. Worrall Nikolaos G. Sgourakis Frank DiMaio Richard A. Pfuetzner Heather B. Felise Marija Vuckovic Angel C. Yu Samuel I. Miller David Baker Natalie C. J. Strynadka 《PLoS pathogens》2013,9(4)
The T3SS injectisome is a syringe-shaped macromolecular assembly found in pathogenic Gram-negative bacteria that allows for the direct delivery of virulence effectors into host cells. It is composed of a “basal body”, a lock-nut structure spanning both bacterial membranes, and a “needle” that protrudes away from the bacterial surface. A hollow channel spans throughout the apparatus, permitting the translocation of effector proteins from the bacterial cytosol to the host plasma membrane. The basal body is composed largely of three membrane-embedded proteins that form oligomerized concentric rings. Here, we report the crystal structures of three domains of the prototypical Salmonella SPI-1 basal body, and use a new approach incorporating symmetric flexible backbone docking and EM data to produce a model for their oligomeric assembly. The obtained models, validated by biochemical and in vivo assays, reveal the molecular details of the interactions driving basal body assembly, and notably demonstrate a conserved oligomerization mechanism. 相似文献
159.
Frédéric Relaix Josiane Demignon Christine Laclef Julien Pujol Marc Santolini Claire Niro Mounia Lagha Didier Rocancourt Margaret Buckingham Pascal Maire 《PLoS genetics》2013,9(4)
In mammals, several genetic pathways have been characterized that govern engagement of multipotent embryonic progenitors into the myogenic program through the control of the key myogenic regulatory gene Myod. Here we demonstrate the involvement of Six homeoproteins. We first targeted into a Pax3 allele a sequence encoding a negative form of Six4 that binds DNA but cannot interact with essential Eya co-factors. The resulting embryos present hypoplasic skeletal muscles and impaired Myod activation in the trunk in the absence of Myf5/Mrf4. At the axial level, we further show that Myod is still expressed in compound Six1/Six4:Pax3 but not in Six1/Six4:Myf5 triple mutant embryos, demonstrating that Six1/4 participates in the Pax3-Myod genetic pathway. Myod expression and head myogenesis is preserved in Six1/Six4:Myf5 triple mutant embryos, illustrating that upstream regulators of Myod in different embryonic territories are distinct. We show that Myod regulatory regions are directly controlled by Six proteins and that, in the absence of Six1 and Six4, Six2 can compensate. 相似文献
160.
Marie Maraninchi Delphine Feron Ingrid Fruitier‐Arnaudin Audrey Bégu‐Le Corroller Juan P. Nogueira Julien Mancini René Valéro Jean M. Piot Bernard Vialettes 《Obesity (Silver Spring, Md.)》2013,21(2):378-381