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The 5'-untranslated region of the ornithine decarboxylase (ODC) mRNA contains an internal ribosomal entry site (IRES). Mutational analysis of the ODC IRES has led to the identification of sequences necessary for cap-independent translation of the ODC mRNA. To discover novel IRES trans-acting factors (ITAFs), we performed a proteomics screen for proteins that regulate ODC translation using the wild-type ODC mRNA and a mutant version with an inactive IRES. We identified two RNA-binding proteins that associate with the wild-type ODC IRES but not the mutant IRES. One of these RNA-binding proteins, PCBP2, is an established activator of viral and cellular IRESs. The second protein, ZNF9 (myotonic dystrophy type 2 protein), has not been shown previously to bind IRES-like elements. Using a series of biochemical assays, we validated the interaction of these proteins with ODC mRNA. Interestingly ZNF9 and PCBP2 biochemically associated with each other and appeared to function as part of a larger holo-ITAF ribonucleoprotein complex. Our functional studies showed that PCBP2 and ZNF9 stimulate translation of the ODC IRES. Importantly these results may provide insight into the normal role of ZNF9 and why ZNF9 mutations cause myotonic dystrophy. 相似文献
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Among the three main categories of small silencing RNAs in insects and mammals-siRNAs, miRNAs, and piRNAs-siRNAs were thought to arise primarily from exogenous sources, whereas miRNAs and piRNAs arise from endogenous loci. Recent work in flies and mice reveals several classes of endogenous siRNAs (endo-siRNAs) that contribute to functions previously reserved for miRNAs and piRNAs, including gene regulation and transposon suppression. 相似文献
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While anthropomorphizing nonhuman animals has been shown to increase identification with them and, by extension, concern for their wellbeing, little research has directly tested whether identifying with nonhuman animals is similarly associated with concern for their wellbeing. We tested hypotheses related to this premise across three cross-sectional studies. In study 1 (n = 224), we tested the hypothesis that therians—a group of people who self-identify with nonhuman animals, show greater concern for nonhuman animal rights than non-therian furries—people with a fan-like interest in media featuring anthropomorphized animal characters. In study 2 (n = 206), we further tested this hypothesis using implicit and explicit measures of identification with nonhuman animals to predict behavioral intentions to support nonhuman animal rights. In study 3 (n = 182), we tested the generalizability of our findings in a sample of undergraduate students. Taken together, the studies show that explicit, but not implicit, identification with nonhuman animals predicts greater support for their rights. The implications of these findings for research on anthropomorphism and animal rights activism are discussed, as well as the limitations of these findings and possible avenues for future research. 相似文献
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Yeast Asc1p and mammalian RACK1 are functionally orthologous core 40S ribosomal proteins that repress gene expression 总被引:6,自引:0,他引:6
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Gerbasi VR Weaver CM Hill S Friedman DB Link AJ 《Molecular and cellular biology》2004,24(18):8276-8287
Translation of mRNA into protein is a fundamental step in eukaryotic gene expression requiring the large (60S) and small (40S) ribosome subunits and associated proteins. By modern proteomic approaches, we previously identified a novel 40S-associated protein named Asc1p in budding yeast and RACK1 in mammals. The goals of this study were to establish Asc1p or RACK1 as a core conserved eukaryotic ribosomal protein and to determine the role of Asc1p or RACK1 in translational control. We provide biochemical, evolutionary, genetic, and functional evidence showing that Asc1p or RACK1 is indeed a conserved core component of the eukaryotic ribosome. We also show that purified Asc1p-deficient ribosomes have increased translational activity compared to that of wild-type yeast ribosomes. Further, we demonstrate that asc1Delta null strains have increased levels of specific proteins in vivo and that this molecular phenotype is complemented by either Asc1p or RACK1. Our data suggest that one of Asc1p's or RACK1's functions is to repress gene expression. 相似文献
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Involvement of rabphilin-3A-like (RPH3AL), or Noc2, the potential effector of Ras-associated binding proteins Rab3A and Rab27A in the regulation of exocytotic processes in the endocrine pancreas has been demonstrated in experimental models. Noc2 expression together with other regulatory molecules of the exocytotic machinery in human tissues, however, has not been studied. We evaluated immunohistochemical expression of the key molecules of the exocytotic machinery, Noc2, Rab3A, Rab27A, and RIM2, together with the characteristic islet cell hormones, insulin and glucagon in normal and endocrine tumor tissues of human pancreas. Normal pancreatic islets were stained for all of these proteins and showed strong cytoplasmic localization. A similar pattern of strong cytoplasmic expression of these proteins was observed in the majority of endocrine tumors. By contrast, the exocrine portions of normal appearing pancreas completely lacked Rab27A staining and showed decreased expression of the proteins, Noc2, Rab3A, and RIM2. The staining pattern of Noc2 and Rab27A was similar to the staining pattern of glucagon-producing cells within the islets. The concomitant expression of Noc2 with these molecules suggests that Noc2 may serve as an effector for Rab3A and Rab27A and that it is involved in the regulation of exocytosis of the endocrine pancreas in humans. 相似文献
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Molecular phylogeny of Neotropical bioluminescent beetles (Coleoptera: Elateroidea) in southern and central Brazil
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Bioluminescence in beetles is found mainly in the Elateroidea superfamily (Elateridae, Lampyridae and Phengodidae). The Neotropical region accounts for the richest diversity of bioluminescent species in the world with about 500 described species, most occurring in the Amazon, Atlantic rainforest and Cerrado (savanna) ecosystems in Brazil. The origin and evolution of bioluminescence, as well as the taxonomic status of several Neotropical taxa in these families remains unclear. In order to contribute to a better understanding of the phylogeny and evolution of bioluminescent Elateroidea we sequenced and analyzed sequences of mitochondrial NADH2 and the nuclear 28S genes and of the cloned luciferase sequences of Brazilian species belonging to the following genera: (Lampyridae) Macrolampis, Photuris, Amydetes, Bicellonycha, Aspisoma, Lucidota, Cratomorphus; (Elateridae) Conoderus, Pyrophorus, Hapsodrilus, Pyrearinus, Fulgeochlizus; and (Phengodidae) Pseudophengodes, Phrixothrix, Euryopa and Brasilocerus. Our study supports a closer phylogenetic relationship between Elateridae and Phengodidae as other molecular studies, in contrast with previous morphologic and molecular studies that clustered Lampyridae/Phengodidae. Molecular data also supported division of the Phengodinae subfamily into the tribes Phengodini and Mastinocerini. The position of the genus Amydetes supports the status of the Amydetinae as a subfamily. The genus Euryopa is included in the Mastinocerini tribe within the Phengodinae/Phengodidae. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
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The ability to discriminate between galactose and N- acetylgalactosamine,
observed in some lectins, is crucial for their biological activity as well
as their usefulness as tools in biology and medicine. However, the
molecular basis of differential binding of lectins to these two sugars is
poorly understood. Peanut agglutinin (PNA) is one of the few
galactose-specific legume lectins which does not bind N-
acetylgalactosamine at all and is, therefore, ideal for the study of the
basis of specificity towards C-2 substituted derivatives of
galactopyranosides. Examination of the three-dimensional structure of PNA
in complex with lactose revealed the presence of both a longer loop and
bulkier residues in the region surrounding the C-2 hydroxyl of the
galactopyranoside ring, which can sterically prevent the accommodation of a
bulky substituent in this position. One such residue, is a glutamic acid at
position 129 which protrudes into the binding site and perhaps directly
obstructs any substitution at the C-2 position. Two mutants in bacterially
expressed PNA were therefore constructed. These were E129D and E129A, in
which Glu129 was replaced by Asp and Ala, respectively. The specificity of
the mutants for galactose, galactosamine, and N- acetylgalactosamine was
examined through observing the inhibition of hemagglutination and binding
of the lectin to immobilized asialofetuin. The results showed that the
affinity of E129A and E129D for C-2-substituted derivatives of the
galactose varies. The mutant E129D showed significant binding towards N-
acetylgalactosamine, suggesting that the residue Glu 129 is crucial in
imparting exclusive galactose-specificity upon PNA. This study not only
attempts to provide an explanation for the inability of PNA to accommodate
C-2-substituted derivatives at its primary subsite, but also seeks to
present a basis for engineering lectins with altered specificities.
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