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51.
Robert Lam Vladimir Romanov Kathy Johns Kevin P. Battaile Jean Wu‐Brown Jennifer L. Guthrie Robert P. Hausinger Emil F. Pai Nickolay Y. Chirgadze 《Proteins》2010,78(13):2839-2848
Urease plays a central role in the pathogenesis of Helicobacter pylori in humans. Maturation of this nickel metalloenzyme in bacteria requires the participation of the accessory proteins UreD (termed UreH in H. pylori), UreF, and UreG, which form sequential complexes with the urease apoprotein as well as UreE, a metallochaperone. Here, we describe the crystal structure of C‐terminal truncated UreF from H. pylori (residues 1–233), the first UreF structure to be determined, at 1.55 Å resolution using SAD methods. UreF forms a dimer in vitro and adopts an all‐helical fold congruent with secondary structure prediction. On the basis of evolutionary conservation analysis, the structure reveals a probable binding surface for interaction with other urease components as well as key conserved residues of potential functional relevance. Proteins 2010. © 2010 Wiley‐Liss, Inc. 相似文献
52.
Lipinski MJ Amigues Y Blasi M Broad TE Cherbonnel C Cho GJ Corley S Daftari P Delattre DR Dileanis S Flynn JM Grattapaglia D Guthrie A Harper C Karttunen PL Kimura H Lewis GM Longeri M Meriaux JC Morita M Morrin-O'donnell RC Niini T Pedersen NC Perrotta G Polli M Rittler S Schubbert R Strillacci MG Van Haeringen H Van Haeringen W Lyons LA 《Animal genetics》2007,38(4):371-377
Seventeen commercial and research laboratories participated in two comparison tests under the auspices of the International Society for Animal Genetics to develop an internationally tested, microsatellite-based parentage and identification panel for the domestic cat (Felis catus). Genetic marker selection was based on the polymorphism information content and allele ranges from seven random-bred populations (n = 261) from the USA, Europe and Brazil and eight breeds (n = 200) from the USA. Nineteen microsatellite markers were included in the comparison test and genotyped across the samples. Based on robustness and efficiency, nine autosomal microsatellite markers were ultimately selected as a single multiplex 'core' panel for cat identification and parentage testing. Most markers contained dinucleotide repeats. In addition to the autosomal markers, the panel included two gender-specific markers, amelogenin and zinc-finger XY, which produced genotypes for both the X and Y chromosomes. This international cat parentage and identification panel has a power of exclusion comparable to panels used in other species, ranging from 90.08% to 99.79% across breeds and 99.47% to 99.87% in random-bred cat populations. 相似文献
53.
Barnes I Shapiro B Lister A Kuznetsova T Sher A Guthrie D Thomas MG 《Current biology : CB》2007,17(12):1072-1075
The interval since circa 50 Ka has been a period of significant species extinctions among the large mammal fauna. However, the relative roles of an increasing human presence and a synchronous series of complex environmental changes in these extinctions have yet to be fully resolved. Recent analyses of fossil material from Beringia have clarified our understanding of the spatiotemporal pattern of Late Pleistocene extinctions, identifying periods of population turnover well before the last glacial maximum (LGM: circa 21 Ka) or subsequent human expansion. To examine the role of pre-LGM population changes in shaping the genetic structure of an extinct species, we analyzed the mitochondrial DNA of woolly mammoths in western Beringia and across its range. We identify genetic signatures of a range expansion of mammoths, from eastern to western Beringia, after the last interglacial (circa 125 Ka), and then an extended period during which demographic inference indicates no population-size increase. The most marked change in diversity at this time is the loss of one of two major mitochondrial lineages. 相似文献
54.
Cardiac fibroblasts influence cardiomyocyte phenotype in vitro 总被引:2,自引:0,他引:2
LaFramboise WA Scalise D Stoodley P Graner SR Guthrie RD Magovern JA Becich MJ 《American journal of physiology. Cell physiology》2007,292(5):C1799-C1808
Cardiac fibroblasts impact myocardial development and remodeling through intercellular contact with cardiomyocytes, but less is known about noncontact, profibrotic signals whereby fibroblasts alter cardiomyocyte behavior. Fibroblasts and cardiomyocytes were harvested from newborn rat ventricles and separated by serial digestion and gradient centrifugation. Cardiomyocytes were cultured in 1) standard medium, 2) standard medium diluted 1:1 with PBS, or 3) standard medium diluted 1:1 with medium conditioned 72 h by cardiac fibroblasts. Serum concentrations were held constant under all media conditions, and complete medium exchanges were performed daily. Cardiomyocytes began contracting within 24 h at clonal or mass densities with <5% of cells expressing vimentin. Immunocytochemical analysis revealed progressive expression of -smooth muscle actin in cardiomyocytes after 24 h in all conditions. Only cardiomyocytes in fibroblast-conditioned medium stopped contracting by 72 h. There was a significant, sustained increase in vimentin expression specific to these cultures (means ± SD: conditioned 46.3 ± 6.0 vs. control 5.3 ± 2.9%, P < 0.00025) typically with cardiac myosin heavy chain coexpression. Proteomics assays revealed 10 cytokines (VEGF, GRO/KC, monocyte chemoattractant protein-1, leptin, macrophage inflammatory protein-1, IL-6, IL-10, IL-12p70, IL-17, and tumor necrosis factor-) at or below detection levels in unconditioned medium that were significantly elevated in fibroblast-conditioned medium. Latent transforming growth factor- and RANTES were present in unconditioned medium but rose to higher levels in conditioned medium. Only granulocyte-macrophage colony-stimulating factor was present above threshold levels in standard medium but decreased with fibroblast conditioning. These data indicated that under the influence of fibroblast-conditioned medium, cardiomyocytes exhibited marked hypertrophy, diminished contractile capacity, and phenotype plasticity distinct from the dedifferentiation program present under standard culture conditions. proteomics; myosin heavy chain; vimentin; myofibroblast; primary culture; dedifferentiation; plasticity 相似文献
55.
56.
Glycosylation, the addition of covalently linked sugars, is a major post-translational modification of proteins that can significantly affect processes such as cell adhesion, molecular trafficking, clearance, and signal transduction. In eukaryotes, the most common glycosylation modifications in the secretory pathway are additions at consensus asparagine residues (N-linked); or at serine or threonine residues (O-linked) (Figure 1). Initiation of N-glycan synthesis is highly conserved in eukaryotes, while the end products can vary greatly among different species, tissues, or proteins. Some glycans remain unmodified ("high mannose N-glycans") or are further processed in the Golgi ("complex N-glycans"). Greater diversity is found for O-glycans, which start with a common N-Acetylgalactosamine (GalNAc) residue in animal cells but differ in lower organisms. The detailed analysis of the glycosylation of proteins is a field unto itself and requires extensive resources and expertise to execute properly. However a variety of available enzymes that remove sugars (glycosidases) makes possible to have a general idea of the glycosylation status of a protein in a standard laboratory setting. Here we illustrate the use of glycosidases for the analysis of a model glycoprotein: recombinant human chorionic gonadotropin beta (hCGβ), which carries two N-glycans and four O-glycans. The technique requires only simple instrumentation and typical consumables, and it can be readily adapted to the analysis of multiple glycoprotein samples. Several enzymes can be used in parallel to study a glycoprotein. PNGase F is able to remove almost all types of N-linked glycans. For O-glycans, there is no available enzyme that can cleave an intact oligosaccharide from the protein backbone. Instead, O-glycans are trimmed by exoglycosidases to a short core, which is then easily removed by O-Glycosidase. The Protein Deglycosylation Mix contains PNGase F, O-Glycosidase, Neuraminidase (sialidase), β1-4 Galactosidase, and β-N-Acetylglucosaminidase. It is used to simultaneously remove N-glycans and some O-glycans. Finally, the Deglycosylation Mix was supplemented with a mixture of other exoglycosidases (α-N-Acetylgalactosaminidase, α1-2 Fucosidase, α1-3,6 Galactosidase, and β1-3 Galactosidase), which help remove otherwise resistant monosaccharides that could be present in certain O-glycans. SDS-PAGE/Coomasie blue is used to visualize differences in protein migration before and after glycosidase treatment. In addition, a sugar-specific staining method, ProQ Emerald-300, shows diminished signal as glycans are successively removed. This protocol is designed for the analysis of small amounts of glycoprotein (0.5 to 2 μg), although enzymatic deglycosylation can be scaled up to accommodate larger quantities of protein as needed. 相似文献
57.
Intragenic Hill-Robertson interference influences selection intensity on synonymous mutations in Drosophila 总被引:4,自引:1,他引:3
Natural selection influences synonymous mutations and synonymouscodon usage in many eukaryotes to improve the efficiency oftranslation in highly expressed genes. Recent studies of genecomposition in eukaryotes have shown that codon usage also variesindependently of expression levels, both among genes and atthe intragenic level. Here, we investigate rates of evolution(Ks) and intensity of selection (s) on synonymous mutationsin two groups of genes that differ greatly in the length oftheir exons, but with equivalent levels of gene expression andrates of crossing-over in Drosophila melanogaster. We estimates using patterns of divergence and polymorphism in 50 Drosophilagenes (100 kb of coding sequence) to take into account possiblevariation in mutation trends across the genome, among genesor among codons. We show that genes with long exons exhibithigher Ks and reduced s compared to genes with short exons.We also show that Ks and s vary significantly across long exons,with higher Ks and reduced s in the central region comparedto flanking regions of the same exons, hence indicating thatthe difference between genes with short and long exons can bemostly attributed to the central region of these long exons.Although amino acid composition can also play a significantrole when estimating Ks and s, our analyses show that the differencesin Ks and s between genes with short and long exons and acrosslong exons cannot be explained by differences in protein composition.All these results are consistent with the Interference Selection(IS) model that proposes that the Hill-Robertson (HR) effectcaused by many weakly selected mutations has detectable evolutionaryconsequences at the intragenic level in genomes with recombination.Under the IS model, exon size and exon-intron structure influencethe effectiveness of selection, with long exons showing reducedeffectiveness of selection when compared to small exons andthe central region of long exons showing reduced intensity ofselection compared to flanking coding regions. Finally, ourresults further stress the need to consider selection on synonymousmutations and its variationamong and across genes andexonsin studies of protein evolution. 相似文献
58.
Several commercially available pharmaceutical compounds have been shown to block the IKr current of the cardiac action potential. This effect can cause a prolongation of the electrocardiogram QT interval and a delay in ventricular repolarization. The Food and Drug Administration recommends that all new potential drug candidates be assessed for IKr block to avoid a potentially lethal cardiac arrhythmia known as torsades de pointes. Direct compound interaction with the human ether-a-go-go- related gene (hERG) product, a delayed rectifier potassium channel, has been identified as a molecular mechanism of IKr block. One strategy to identify compounds with hERG liability is to monitor hERG current inhibition using electrophysiology techniques. The authors describe the Ion Works HT instrument as a tool for screening cell lines expressing hERG channels. Based on current amplitude and stability criteria, a cell line was selected and used to perform a 300-compound screen. The screen was able to identify compounds with hERG activity within projects that spanned different therapeutic areas. The cell line selection and optimization, as well as the screening abilities of the Ion Works HT system, provide a powerful means of assessing hERGactive compounds early in the drug discovery pipeline. 相似文献
59.
Snu114 is a U5 snRNP protein essential for pre-mRNA splicing. Based on its homology with the ribosomal translocase EF-G, it is thought that GTP hydrolysis by Snu114 induces conformational rearrangements in the spliceosome. We recently identified allele-specific genetic interactions between SNU114 and genes encoding three other U5 snRNP components, Prp8 and two RNA-dependent ATPases, Prp28 and Brr2, required for destabilization of U1 and U4 snRNPs prior to catalysis. To shed more light onto the function of Snu114, we have now directly analyzed snRNP and spliceosome assembly in SNU114 mutant extracts. The Snu114-60 C-terminal truncation mutant, which is synthetically lethal with the ATPase mutants prp28-1 and brr2-1, assembles spliceosomes but subsequently blocks U4 snRNP release. Conversely, mutants in the GTPase domain fail to assemble U5 snRNPs. These mutations prevent the interaction of Snu114 with Prp8 as well as with U5 snRNA. Since Prp8 is thought to regulate the activity of the DEAD-box ATPases, this strategy of snRNP assembly could ensure that Prp8 activity is itself regulated by a GTP-dependent mechanism. 相似文献
60.
Huizinga R Easton AS Donachie AM Guthrie J van Rijs W Heikema A Boon L Samsom JN Jacobs BC Willison HJ Goodyear CS 《PloS one》2012,7(3):e34416