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81.
Michelle C. W. Tang Shelley A. Jacobs Deidre M. Mattiske Yu May Soh Alison N. Graham An Tran Shu Ly Lim Damien F. Hudson Paul Kalitsis Moira K. O’Bryan Lee H. Wong Jeffrey R. Mann 《PLoS genetics》2015,11(2)
Histones package DNA and regulate epigenetic states. For the latter, probably the most important histone is H3. Mammals have three near-identical H3 isoforms: canonical H3.1 and H3.2, and the replication-independent variant H3.3. This variant can accumulate in slowly dividing somatic cells, replacing canonical H3. Some replication-independent histones, through their ability to incorporate outside S-phase, are functionally important in the very slowly dividing mammalian germ line. Much remains to be learned of H3.3 functions in germ cell development.Histone H3.3 presents a unique genetic paradigm in that two conventional intron-containing genes encode the identical protein. Here, we present a comprehensive analysis of the developmental effects of null mutations in each of these genes. H3f3a mutants were viable to adulthood. Females were fertile, while males were subfertile with dysmorphic spermatozoa. H3f3b mutants were growth-deficient, dying at birth. H3f3b heterozygotes were also growth-deficient, with males being sterile because of arrest of round spermatids. This sterility was not accompanied by abnormalities in sex chromosome inactivation in meiosis I. Conditional ablation of H3f3b at the beginning of folliculogenesis resulted in zygote cleavage failure, establishing H3f3b as a maternal-effect gene, and revealing a requirement for H3.3 in the first mitosis. Simultaneous ablation of H3f3a and H3f3b in folliculogenesis resulted in early primary oocyte death, demonstrating a crucial role for H3.3 in oogenesis.These findings reveal a heavy reliance on H3.3 for growth, gametogenesis, and fertilization, identifying developmental processes that are particularly susceptible to H3.3 deficiency. They also reveal partial redundancy in function of H3f3a and H3f3b, with the latter gene being generally the most important. 相似文献
82.
83.
Mechanisms of Salmonella entry into host cells 总被引:1,自引:0,他引:1
Salmonella enterica is an enteric bacterial pathogen that causes a variety of food and water-borne diseases ranging from gastroenteritis to typhoid fever. Ingested bacteria colonize the intestinal epithelium by triggering their own phagocytosis, using a sophisticated array of effector proteins that are injected into the host cell cytoplasm through a type III secretion apparatus. The synergistic action of these secreted effectors leads to a dramatic reorganization of the host actin cytoskeleton, resulting in vigorous membrane protrusion and the engulfment of attached bacteria. Analysis of these effector proteins and identification of their cellular targets has provided insight into the molecular mechanisms by which bacteria can subvert the host signalling and cytoskeletal machinery for their own purposes. This review is intended to summarize our current understanding of the tools used by Salmonella to enter host cells, with a focus on effectors that modulate the actin cytoskeleton. 相似文献
84.
Baker MA Lane DJ Ly JD De Pinto V Lawen A 《The Journal of biological chemistry》2004,279(6):4811-4819
Porin isoform 1 or VDAC (voltage-dependent anion-selective channel) 1 is the predominant protein in the outer mitochondrial membrane. We demonstrated previously that a plasma membrane NADH-ferricyanide reductase activity becomes up-regulated upon mitochondrial perturbation, and therefore suggested that it functions as a cellular redox sensor. VDAC1 is known to be expressed in the plasma membrane; however, its function there remained a mystery. Here we show that VDAC1, when expressed in the plasma membrane, functions as a NADH-ferricyanide reductase. VDAC1 preparations purified from both plasma membrane and mitochondria fractions exhibit NADH-ferricyanide reductase activity, which can be immunoprecipitated with poly- and monoclonal antibodies directed against VDAC(1). Transfecting cells with pl-VDAC1-GFP, which carries an N-terminal signal peptide, directs VDAC1 to the plasma membrane, as shown by confocal microscopy and FACS analysis, and significantly increases the plasma membrane NADH-ferricyanide reductase activity of the transfected cells. This novel enzymatic activity of the well known VDAC1 molecule may provide an explanation for its role in the plasma membrane. Our data suggest that a major function of VDAC1 in the plasma membrane is that of a NADH(-ferricyanide) reductase that may be involved in the maintenance of cellular redox homeostasis. 相似文献
85.
Hong-Brown LQ Brown CR Kazi AA Navaratnarajah M Lang CH 《American journal of physiology. Cell physiology》2012,302(10):C1557-C1565
Leucine (Leu) and insulin both stimulate muscle protein synthesis, albeit at least in part via separate signaling pathways. While alcohol (EtOH) suppresses insulin-stimulated protein synthesis in cultured myocytes, its ability to disrupt Leu signaling and Rag GTPase activity has not been determined. Likewise, little is known regarding the interaction of EtOH and Leu on the AMPK/TSC2/Rheb pathway. Treatment of myocytes with EtOH (100 mM) decreased protein synthesis, whereas Leu (2 mM) increased synthesis. In combination, EtOH suppressed the anabolic effect of Leu. The effects of EtOH and Leu were associated with coordinate changes in the phosphorylation state of mTOR, raptor, and their downstream targets 4EBP1 and S6K1. As such, EtOH suppressed the ability of Leu to activate these signaling components. The Rag signaling pathway was activated by Leu but suppressed by EtOH, as evidenced by changes in the interaction of Rag proteins with mTOR and raptor. Overexpression of constitutively active (ca)RagA and caRagC increased mTORC1 activity, as determined by increased S6K1 phosphorylation. Furthermore, the caRagA-caRagC heterodimer blocked the inhibitory effect of EtOH. EtOH and Leu produced differential effects on AMPK signaling. EtOH enhanced AMPK activity, resulting in increased TSC2 (S1387) and eEF2 phosphorylation, whereas Leu had the opposite effect. EtOH also decreased the interaction of Rheb with mTOR, and this was prevented by Leu. Collectively, our results indicate that EtOH inhibits the anabolic effects that Leu has on protein synthesis and mTORC1 activity by modulating both Rag GTPase function and AMPK/TSC2/Rheb signaling. 相似文献
86.
Jing Chen Jim Ly Eveline Schroth Stan Hnatiuk Etienne Frenette Marie-France Blain 《Radiation and environmental biophysics》2009,48(2):153-158
Vapour barrier membranes are often used as soil gas retarder in building construction. While vapour permeance characteristics
of these membranes are well known and specified in Canadian standards, their radon diffusion coefficients are yet not available.
This study provides test results of radon diffusion coefficients for 10 vapour barrier membranes commonly used in Canadian
building construction. 相似文献
87.
88.
Emily M. Stocking Leah Aluisio John R. Atack Pascal Bonaventure Nicholas I. Carruthers Christine Dugovic Anita Everson Ian Fraser Xiaohui Jiang Perry Leung Brian Lord Kiev S. Ly Kirsten L. Morton Diane Nepomuceno Chandravadan R. Shah Jonathan Shelton Akinola Soyode-Johnson Michael A. Letavic 《Bioorganic & medicinal chemistry letters》2010,20(9):2755-2760
Pre-clinical characterization of novel substituted pyrrolidines that are high affinity histamine H3 receptor antagonists is described. These compounds efficiently penetrate the CNS and occupy the histamine H3 receptor in rat brain following oral administration. One compound, (2S,4R)-1-[2-(4-cyclobutyl-[1,4]diazepane-1-carbonyl)-4-(3-fluoro-phenoxy)-pyrrolidin-1-yl]-ethanone, was extensively profiled and shows promise as a potential clinical candidate. 相似文献
89.
Christopher E. Heise Jeremy Murray Katherine E. Augustyn Brandon Bravo Preeti Chugha Frederick Cohen Anthony M. Giannetti Paul Gibbons Rami N. Hannoush Brian R. Hearn Priyadarshini Jaishankar Cuong Q. Ly Kinjalkumar Shah Karen Stanger Micah Steffek Yinyan Tang Xianrui Zhao Joseph W. Lewcock Adam R. Renslo John Flygare Michelle R. Arkin 《PloS one》2012,7(12)
Inhibition of caspase-6 is a potential therapeutic strategy for some neurodegenerative diseases, but it has been difficult to develop selective inhibitors against caspases. We report the discovery and characterization of a potent inhibitor of caspase-6 that acts by an uncompetitive binding mode that is an unprecedented mechanism of inhibition against this target class. Biochemical assays demonstrate that, while exquisitely selective for caspase-6 over caspase-3 and -7, the compound’s inhibitory activity is also dependent on the amino acid sequence and P1’ character of the peptide substrate. The crystal structure of the ternary complex of caspase-6, substrate-mimetic and an 11 nM inhibitor reveals the molecular basis of inhibition. The general strategy to develop uncompetitive inhibitors together with the unique mechanism described herein provides a rationale for engineering caspase selectivity. 相似文献
90.
Pedro Barbosa Liudmila Zhaunova Simona Debilio Verdiana Steccanella Van Kelly Tony Ly Hiroyuki Ohkura 《The Journal of cell biology》2021,220(2)
Meiosis creates genetic diversity by recombination and segregation of chromosomes. The synaptonemal complex assembles during meiotic prophase I and assists faithful exchanges between homologous chromosomes, but how its assembly/disassembly is regulated remains to be understood. Here, we report how two major posttranslational modifications, phosphorylation and ubiquitination, cooperate to promote synaptonemal complex assembly. We found that the ubiquitin ligase complex SCF is important for assembly and maintenance of the synaptonemal complex in Drosophila female meiosis. This function of SCF is mediated by two substrate-recognizing F-box proteins, Slmb/βTrcp and Fbxo42. SCF-Fbxo42 down-regulates the phosphatase subunit PP2A-B56, which is important for synaptonemal complex assembly and maintenance. 相似文献