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排序方式: 共有136条查询结果,搜索用时 15 毫秒
91.
AE Clarke S Bernatsky KH Costenbader MB Urowitz DD Gladman PR Fortin M Petri S Manzi DA Isenberg A Rahman D Wallace C Gordon C Peschken MA Dooley EM Ginzler C Aranow SM Edworthy O Nived S Jacobsen G Ruiz-Irastorza E Yelin SG Barr L Criswell G Sturfelt L Dreyer I Blanco L Gottesman CH Feldman R Ramsey-Goldman 《Arthritis research & therapy》2012,14(Z3):A16
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93.
Establishing the linkage between an individual biochemical activity and the gene(s) specifying that activity has been facilitated by advances in mass spectrometry and affinity purification methods. In addition, a genomic protein array has been produced in yeast by fusing each yeast open reading frame to glutathione-S-transferase, thus linking each protein with its cognate gene. Purification and biochemical assay of pools of glutathione-S-transferase-open-reading-frame proteins allows analysis of the entire proteome for biochemical activities, followed by simple deconvolution to identify the responsible open reading frame. An alternative method to analyze large sets of proteins is the use of protein microarrays in which over 10,000 individual proteins can be immobilized and assayed on a single slide. 相似文献
94.
Latifu?A?Sanni Catherine?EM?Allsopp Lieke?Reubsaet Ambaliou?Sanni Chris?Newbold Virander?S?Chauhan Jean?LanghorneEmail author 《Malaria journal》2002,1(1):7
Background
Plasmodium falciparum erythrocyte membrane protein-1, a variant antigen of the malaria parasite, is potentially a target for the immune response. It would be important to determine whether there are CD4 T cells that recognise conserved regions. However, within the relatively conserved region, there is variation. It is not possible to test T cell responses from small field samples with all possible peptides.Methods
We have aligned sequences that are relatively conserved between several PfEMP1 molecules, and chosen a representative sequence similar to most of the PfEMP1 variants. Using these peptides as pools representing CIDRα, CIDRβ and DBLβ-δ domains, DBLα domain, and EXON 2 domain of PfEMP1, we measured the CD4 T cell responses of malaria-exposed donors from Benin, West Africa by a FACS based assay.Results
All the three peptide pools elicited a CD4 T cell response in a proportion of malaria-exposed and non-exposed donors. CD4 T cell proliferation occurs at a relatively higher magnitude to peptide pools from the DBLα and EXON 2 in the malaria-exposed donors living in Benin than in the UK malaria-unexposed donors.Conclusions
These findings suggest that an immunological recall response to conserved peptides of a variant antigen can be measured. Further testing of individual peptides in a positive pool will allow us to determine those conserved sequences recognised by many individuals. These types of assays may provide information on conserved peptides of PfEMP1 which could be useful for stimulating T cells to provide help to P. falciparum specific B cells.95.
Alexandrov A Vignali M LaCount DJ Quartley E de Vries C De Rosa D Babulski J Mitchell SF Schoenfeld LW Fields S Hol WG Dumont ME Phizicky EM Grayhack EJ 《Molecular & cellular proteomics : MCP》2004,3(9):934-938
We developed a method to co-express protein pairs from collections of otherwise identical Escherichia coli plasmids expressing different ORFs by incorporating a 61-nucleotide sequence (LINK) into the plasmid to allow generation of tandem plasmids. Tandem plasmids are formed in a ligation-independent manner, propagate efficiently, and produce protein pairs in high quantities. This greatly facilitates co-expression for structural genomics projects that produce thousands of clones bearing identical origins and antibiotic markers. 相似文献
96.
Tpt1p is an essential protein responsible for the 2'-phosphotransferase step of tRNA splicing in Saccharomyces cerevisiae, in which the splice junction 2'-phosphate of ligated tRNA is transferred to NAD to form mature tRNA and ADP-ribose 1'-2' cyclic phosphate. We showed previously that Tpt1p is a member of a family of functional 2'-phosphotransferases found in eukaryotes, eubacteria, and archaea, that the Escherichia coli protein (KptA) is highly specific for 2'-phosphorylated RNAs despite the lack of obvious natural substrates, and that KptA acts on a trinucleotide substrate through an intermediate in which RNA is ADP-ribosylated at the 2'-phosphate. This mechanism is similar to a proposed mechanism of NAD-dependent histone deacetylases. We present evidence here that this mechanism is conserved in S. cerevisiae, and we identify residues important for the second step of the reaction, during which the intermediate is resolved into products. We examined 21 Tpt1 protein variants mutated in conserved residues or blocks of residues and show that one of them, Tpt1 K69A/R71S protein, accumulates large amounts of intermediate with trinucleotide substrate due to a very slow second step. This intermediate can be trapped on beads when formed with biotin-NAD. We also show that Tpt1 K69A/R71S protein forms an intermediate with the natural ligated tRNA substrate and demonstrate that, as expected, this mutation is lethal in yeast. The high degree of conservation of these residues suggests that the entire Tpt1p family is involved in a similar two-step chemical reaction. 相似文献
97.
A highly specific phosphatase that acts on ADP-ribose 1''-phosphate, a metabolite of tRNA splicing in Saccharomyces cerevisiae
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One molecule of ADP-ribose 1″,2″-cyclic phosphate (Appr>p) is formed during each of the approximately 500000 tRNA splicing events per Saccharomyces cerevisiae generation. The metabolism of Appr>p remains poorly defined. A cyclic phosphodiesterase (Cpd1p) has been shown to convert Appr>p to ADP-ribose-1″-phosphate (Appr1p). We used a biochemical genomics approach to identify two yeast phosphatases that can convert Appr1p to ADP-ribose: the product of ORF YBR022w (now Poa1p), which is completely unrelated to other known phosphatases; and Hal2p, a known 3′-phosphatase of 5′,3′-pAp. Poa1p is highly specific for Appr1p, and thus likely acts on this molecule in vivo. Poa1 has a relatively low KM for Appr1p (2.8 μM) and a modest kcat (1.7 min−1), but no detectable activity on several other substrates. Furthermore, Poa1p is strongly inhibited by ADP-ribose (KI, 17 μM), modestly inhibited by other nucleotides containing an ADP-ribose moiety and not inhibited at all by other tested molecules. In contrast, Hal2p is much more active on pAp than on Appr1p, and several other tested molecules were Hal2p substrates or inhibitors. poa1-Δ mutants have no obvious growth defect at different temperatures in rich media, and analysis of yeast extracts suggests that ~90% of Appr1p processing activity originates from Poa1p. 相似文献
98.
van Lent PL Nabbe KC Blom AB Sloetjes A Holthuysen AE Kolls J Van De Loo FA Holland SM Van Den Berg WB 《Arthritis research & therapy》2005,7(4):R885-R895
In previous studies we have found that FcγRI determines chondrocyte death and matrix metalloproteinase (MMP)-mediated cartilage
destruction during IFN-γ-regulated immune complex arthritis (ICA). Binding of immune complexes (ICs) to FcγRI leads to the
prominent production of oxygen radicals. In the present study we investigated the contribution of NADPH-oxidase-driven oxygen
radicals to cartilage destruction by using p47phox-/- mice lacking a functional NADPH oxidase complex. Induction of a passive ICA in the knee joints of p47phox-/- mice resulted in a significant elevation of joint inflammation at day 3 when compared with wild-type (WT) controls as studied
by histology. However, when IFN-γ was overexpressed by injection of adenoviral IFN-γ in the knee joint before ICA induction,
a similar influx of inflammatory cells was found at days 3 and 7, comprising mainly macrophages in both mouse strains. Proteoglycan
depletion from the cartilage layers of the knee joints in both groups was similar at days 3 and 7. Aggrecan breakdown in cartilage
caused by MMPs was further studied by immunolocalisation of MMP-mediated neoepitopes (VDIPEN). VDIPEN expression in the cartilage
layers of arthritic knee joints was markedly lower (between 30 and 60%) in IFN-γ-stimulated arthritic p47phox-/- mice at day 7 than in WT controls, despite significant upregulation of mRNA levels of various MMPs such as MMP-3, MMP-9,
MMP-12 and MMP-13 in synovia and MMP-13 in cartilage layers as measured with quantitative RT-PCR. The latter observation suggests
that oxygen radicals are involved in the activation of latent MMPs. Chondrocyte death, determined as the percentage of empty
lacunae in articular cartilage, ranged between 20 and 60% at day 3 and between 30 and 80% at day 7 in WT mice, and was completely
blocked in p47phox-/- mice at both time points. FcγRI mRNA expression was significantly lower, and FcγRII and FcγRIII were higher, in p47phox-/- mice than in controls. NADPH-oxidase-driven oxygen radical production determines chondrocyte death and aggravates MMP-mediated
cartilage destruction during IFN-γ-stimulated IC-mediated arthritis. Upregulation of FcγRI by oxygen radicals may contribute
to cartilage destruction. 相似文献
99.
Two proteins that form a complex are required for 7-methylguanosine modification of yeast tRNA
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7-methylguanosine (m7G) modification of tRNA occurs widely in eukaryotes and bacteria, is nearly always found at position 46, and is one of the few modifications that confers a positive charge to the base. Screening of a Saccharomyces cerevisiae genomic library of purified GST-ORF fusion proteins reveals two previously uncharacterized proteins that copurify with m7G methyltransferase activity on pre-tRNA(Phe). ORF YDL201w encodes Trm8, a protein that is highly conserved in prokaryotes and eukaryotes and that contains an S-adenosylmethionine binding domain. ORF YDR165w encodes Trm82, a less highly conserved protein containing putative WD40 repeats, which are often implicated in macromolecular interactions. Neither protein has significant sequence similarity to yeast Abd1, which catalyzes m7G modification of the 5' cap of mRNA, other than the methyltransferase motif shared by Trm8 and Abd1. Several lines of evidence indicate that both Trm8 and Trm82 proteins are required for tRNA m7G-methyltransferase activity: Extracts derived from strains lacking either gene have undetectable m7G methyltransferase activity, RNA from strains lacking either gene have much reduced m7G, and coexpression of both proteins is required to overproduce activity. Aniline cleavage mapping shows that Trm8/Trm82 proteins modify pre-tRNAPhe at G46, the site that is modified in vivo. Trm8 and Trm82 proteins form a complex, as affinity purification of Trm8 protein causes copurification of Trm82 protein in approximate equimolar yield. This functional two-protein family appears to be retained in eukaryotes, as expression of both corresponding human proteins, METTL1 and WDR4, is required for m7G-methyltransferase activity. 相似文献
100.