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261.
Fukata Y Tzingounis AV Trinidad JC Fukata M Burlingame AL Nicoll RA Bredt DS 《The Journal of cell biology》2005,169(3):399-404
Dynamic regulation of alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptors (AMPARs) underlies aspects of synaptic plasticity. Although numerous AMPAR-interacting proteins have been identified, their quantitative and relative contributions to native AMPAR complexes remain unclear. Here, we quantitated protein interactions with neuronal AMPARs by immunoprecipitation from brain extracts. We found that stargazin-like transmembrane AMPAR regulatory proteins (TARPs) copurified with neuronal AMPARs, but we found negligible binding to GRIP, PICK1, NSF, or SAP-97. To facilitate purification of neuronal AMPAR complexes, we generated a transgenic mouse expressing an epitope-tagged GluR2 subunit of AMPARs. Taking advantage of this powerful new tool, we isolated two populations of GluR2 containing AMPARs: an immature complex with the endoplasmic reticulum chaperone immunoglobulin-binding protein and a mature complex containing GluR1, TARPs, and PSD-95. These studies establish TARPs as the auxiliary components of neuronal AMPARs. 相似文献
262.
Contrasting evolutionary rates in the duplicate chaperonin genes of Mycobacterium tuberculosis and M. leprae 总被引:3,自引:0,他引:3
A phylogenetic analysis of chaperonin (heat shock protein 60) sequences
from prokaryotes and eukaryotes indicated that a single gene duplication
event in the common ancestor of Mycobacterium tuberculosis, M. leprae, and
Streptomyces albus gave rise to the duplicate chaperonin genes found in
these species (designated HSP65 and GroEL in the mycobacterial species).
Comparison of rates of synonymous and nonsynonymous nucleotide substitution
in different gene regions suggested that the 5' end of the HSP65 gene was
homogenized by an ancient recombination event between M. tuberculosis and
M. leprae. In S. albus, the two duplicated chaperonin genes have evolved at
essentially the same rate. In both M. tuberculosis and M. leprae, however,
the GroEL gene has evolved considerably more rapidly at nonsynonymous
nucleotide sites than has the HSP65 gene. Because this difference is not
seen at synonymous sites, it must be due to a difference in selective
constraint on the proteins encoded by the two genes, rather than to a
difference in mutation rate. The difference between GroEL and HSP65 is
striking in regions containing epitopes recognized by T cells of the
vertebrate host; in certain cross-reactive epitopes conserved across all
organisms, nonsynonymous sites in GroEL have evolved twice as fast as those
in HSP65. It is suggested that these differences are correlated with
differences in the way in which the duplicate chaperonins of M.
tuberculosis and M. leprae interact with the host immune system.
相似文献
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María Lorena Falcone Ferreyra Jordane Biarc Alma L Burlingame Paula Casati 《Plant signaling & behavior》2010,5(10):1222-1225
Ribosomal protein L10 (RPL10) is a ubiquitous protein that participates in joining the 40S and 60S ribosomal subunits into a functional 80S ribosome; however, increasing evidence indicates that RPL10 from various organisms has multiple extra-ribosomal functions, besides being a constituent of ribosome and its role in translation. Arabidopsis thaliana contains in its genome three genes encoding RPL10, named RPL10A, RPL10B and RPL10C. Previously, we found that in maize and in A. thaliana, UV-B induces a reduction in protein biosynthesis, probably as a consequence of ribosomal damage; however, cellular recovery occurs in the absence of UV-B. Here, we show that RPL10s are differentially regulated by UV-B in a dosage and time dependent manner: RPL10C is induced, RPL10B is downregulated at high UV-B intensity and RPL10A is not UV-B regulated. In addition, by co-immunoprecipitation studies using RPL10 antibodies and proteins from control and UV-B irradiated Arabidopsis plants, we demonstrate that RPL10 associates with different proteins under the two different conditions, including nuclear proteins, suggesting that at least one isoform may have extra-ribosomal roles.Key words: UV-B exposure, translation, ribosomal protein, co-immunoprecipitation 相似文献
266.
Ji‐Pei YUE Hang SUN David A. BAUM Jian‐Hua LI Ihsan A. AL‐SHEHBAZ Richard REE 《植物分类学报:英文版》2009,47(5):402-415
Abstract The Hengduan Mountains region of south‐west China is a noted biodiversity hotspot, but the geographic origins and historical assembly of its rich endemic flora, including the sky‐island species of Solms‐laubachia Muschl. (Brassicaceae), have been little studied. Previous molecular studies on the phylogeny of Solms‐laubachia showed it to be paraphyletic, leading to considerable expansion not only of its taxonomic limits, but also its geographic range, with the inclusion of taxa from outside the Hengduan region. However, these studies provided little resolution of interspecific relationships, preventing inferences about historical biogeography within the clade. In the present study, new sequence data from two nuclear genes (LEAFY and G3pdh) and two chloroplast intergenic spacers (petN–psbM and psbM–trnD) were combined with existing markers to increase phylogenetic signals. Phaeonychium villosum (Maxim.) Al‐Shehbaz was found to be nested within Solms‐laubachia s.l. In general, phylogenetic relationships appear to be a good predictor of geography, with the Hengduan Mountain endemics embedded in a paraphyletic grade of species from the western Himalayas and central Asia, but they also imply morphological homoplasy. Incongruence was detected between the nuclear and chloroplast gene trees, perhaps resulting from incomplete lineage sorting of ancestral polymorphisms. The crown age of Solms‐laubachia s.l. was estimated to be approximately 1.42–3.68 mya, using Bayesian relaxed molecular clock analysis. Historical biogeographic analysis using a parametric dispersal–extinction–cladogenesis model inferred central Asia and the western Himalayas as most probable ancestral range of Solms‐laubachia s.l., and estimated higher rates of eastward expansion than westward during the diversification of descendant lineages. In summary, our results suggest that Solms‐laubachia s.l. originated during the Pliocene in central Asia, and subsequently migrated eastward into the Hengduan Mountains, colonizing sky‐island, alpine scree‐slope habitats that may have provided novel ecological opportunity and accelerated speciation, ultimately establishing this region as the present center of diversity of the genus. 相似文献
267.
Wenjing Sun Ningling Ge Yang Yu Susan Burlingame Xiaonan Li Ming Zhang Shenglong Ye Songbin Fu Jianhua Yang 《The Journal of biological chemistry》2010,285(11):7911-7918
MEKK3 serves as a critical intermediate signaling molecule in lysophosphatidic acid-mediated nuclear factor-κB (NF-κB) activation. However, the precise regulation for MEKK3 activation at the molecular level is still not fully understood. Here we report the identification of two regulatory phosphorylation sites at Thr-516 and Ser-520 within the kinase activation loop that is essential for MEKK3-mediated IκB kinase β (IKKβ)/NF-κB activation. Substitution of these two residues with alanine abolished the ability of MEKK3 to activate IKKβ/NF-κB, whereas replacement with acidic residues rendered MEKK3 constitutively active. Furthermore, substitution of these two residues with alanine abolished the ability of MEKK3 to mediate lysophosphatidic acid-induced optimal IKKβ/NF-κB activation. 相似文献
268.
Zhou Q Cadrin M Herrmann H Chen CH Chalkley RJ Burlingame AL Omary MB 《The Journal of biological chemistry》2006,281(24):16453-16461
Keratin polypeptide 20 (K20) is an intermediate filament protein with preferential expression in epithelia of the stomach, intestine, uterus, and bladder and in Merkel cells of the skin. K20 expression is used as a marker to distinguish metastatic tumor origin, but nothing is known regarding its regulation and function. We studied K20 phosphorylation as a first step toward understanding its physiologic role. K20 phosphorylation occurs preferentially on serine, with a high stoichiometry as compared with keratin polypeptides 18 and 19. Mass spectrometry analysis predicted that either K20 Ser(13) or Ser(14) was a likely phosphorylation site, and Ser(13) was confirmed as the phospho-moiety using mutation and transfection analysis and generation of an anti-K20-phospho-Ser(13) antibody. K20 Ser(13) phosphorylation increases after protein kinase C activation, and Ser(13)-to-Ala mutation interferes with keratin filament reorganization in transfected cells. In physiological contexts, K20 degradation and associated Ser(13) hyperphosphorylation occur during apoptosis, and chemically induced mouse colitis also promotes Ser(13) phosphorylation. Among mouse small intestinal enterocytes, K20 Ser(13) is preferentially phosphorylated in goblet cells and undergoes dramatic hyperphosphorylation after starvation and mucin secretion. Therefore, K20 Ser(13) is a highly dynamic protein kinase C-related phosphorylation site that is induced during apoptosis and tissue injury. K20 Ser(13) phosphorylation also serves as a unique marker of small intestinal goblet cells. 相似文献
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