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61.
Newey SE Howman EV Ponting CP Benson MA Nawrotzki R Loh NY Davies KE Blake DJ 《The Journal of biological chemistry》2001,276(9):6645-6655
Dystrophin coordinates the assembly of a complex of structural and signaling proteins that are required for normal muscle function. A key component of the dystrophin protein complex is alpha-dystrobrevin, a dystrophin-associated protein whose absence results in neuromuscular junction defects and muscular dystrophy. To gain further insights into the role of alpha-dystrobrevin in skeletal muscle, we used the yeast two-hybrid system to identify a novel alpha-dystrobrevin-binding partner called syncoilin. Syncoilin is a new member of the intermediate filament superfamily and is highly expressed in skeletal and cardiac muscle. In normal skeletal muscle, syncoilin is concentrated at the neuromuscular junction, where it colocalizes and coimmunoprecipitates with alpha-dystrobrevin-1. Expression studies in mammalian cells demonstrate that, while alpha-dystrobrevin and syncoilin associate directly, overexpression of syncoilin does not result in the self-assembly of intermediate filaments. Finally, unlike many components of the dystrophin protein complex, we show that syncoilin expression is up-regulated in dystrophin-deficient muscle. These data suggest that alpha-dystrobrevin provides a link between the dystrophin protein complex and the intermediate filament network at the neuromuscular junction, which may be important for the maintenance and maturation of the synapse. 相似文献
62.
Copley RR Russell RB Ponting CP 《Protein science : a publication of the Protein Society》2001,10(2):285-292
Sequence similarity is the most common measure currently used to infer homology between proteins. Typically, homologous protein domains show sequence similarity over their entire lengths. Here we identify Asp box motifs, initially found as repeats in sialidases and neuraminidases, in new structural and sequence contexts. These motifs represent significantly similar sequences, localized to beta hairpins within proteins that are otherwise different in sequence and three-dimensional structure. By performing a combined sequence- and structure-based analysis we detect Asp boxes in more than nine protein families, including bacterial ribonucleases, sulfite oxidases, reelin, netrins, some lipoprotein receptors, and a variety of glycosyl hydrolases. Although the function common to each of these proteins, if any, remains unclear, we discuss possible functions of Asp boxes on the basis of previously determined experimental results and discuss different evolutionary scenarios for the origin of Asp-box containing proteins. 相似文献
63.
Helen J Blair Stuart Tompson Yu-Ning Liu Jennifer Campbell Katie MacArthur Chris P Ponting Victor L Ruiz-Perez Judith A Goodship 《BMC biology》2011,9(1):14
Background
Evc is essential for Indian Hedgehog (Hh) signalling in the cartilage growth plate. The gene encoding Evc2 is in close proximity in divergent orientation to Evc and mutations in both human genes lead to the chondrodysplasia Ellis-van Creveld syndrome. 相似文献64.
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66.
Letícia Muraro Wildner Maria Luiza Bazzo Susie Coutinho Liedke Christiane Louren?o Nogueira Gabriela Segat Simone Gon?alves Senna Aline Daiane Schlindwein Jaquelline Germano de Oliveira Darcita B Rovaris Claudio A Bonjardim Erna G Kroon Paulo CP Ferreira 《Memórias do Instituto Oswaldo Cruz》2014,109(3):356-361
The identification of mycobacteria is essential because tuberculosis (TB) and
mycobacteriosis are clinically indistinguishable and require different therapeutic
regimens. The traditional phenotypic method is time consuming and may last up to 60
days. Indeed, rapid, affordable, specific and easy-to-perform identification methods
are needed. We have previously described a polymerase chain reaction-based method
called a mycobacteria mobility shift assay (MMSA) that was designed for
Mycobacterium tuberculosis complex (MTC) and nontuberculous mycobacteria
(NTM) species identification. The aim of this study was to assess the MMSA for the
identification of MTC and NTM clinical isolates and to compare its performance with
that of the PRA-hsp65 method. A total of 204 clinical isolates (102
NTM and 102 MTC) were identified by the MMSA and PRA-hsp65. For
isolates for which these methods gave discordant results, definitive species
identification was obtained by sequencing fragments of the 16S rRNA and
hsp65 genes. Both methods correctly identified all MTC isolates. Among
the NTM isolates, the MMSA alone assigned 94 (92.2%) to a complex or species, whereas
the PRA-hsp65 method assigned 100% to a species. A 91.5% agreement
was observed for the 94 NTM isolates identified by both methods. The MMSA provided
correct identification for 96.8% of the NTM isolates compared with 94.7% for
PRA-hsp65. The MMSA is a suitable auxiliary method for routine
use for the rapid identification of mycobacteria. 相似文献
67.
Vitamin K epoxide reductase (VKOR) recycles reduced vitamin K, which is used subsequently as a co-factor in the gamma-carboxylation of glutamic acid residues in blood coagulation enzymes. VKORC1, a subunit of the VKOR complex, has recently been shown to possess this activity. Here, we show that VKORC1 is a member of a large family of predicted enzymes that are present in vertebrates, Drosophila, plants, bacteria and archaea. Four cysteine residues and one residue, which is either serine or threonine, are identified as likely active-site residues. In some plant and bacterial homologues the VKORC1 homologous domain is fused with domains of the thioredoxin family of oxidoreductases. These might reduce disulfide bonds of VKORC1-like enzymes as a prerequisite for their catalytic activities. 相似文献
68.
A family of membrane-associated proteins related to yeast Lag1p and mammalian TRAM has been identified. The family includes the protein product of CLN8, a gene mutated in progressive epilepsy with mental retardation. Mouse CLN8 is also mutated in the mnd/mnd mouse, a model for neuronal ceroid lipofuscinoses. The identification of these homologues has potential implications for our understanding of ceramide synthesis, lipid regulation and protein translocation in the endoplasmic reticulum. 相似文献
69.
Dystrophin coordinates the assembly of a complex of structural and signalling proteins that is required for normal muscle function. A key component of the dystrophin-associated protein complex (DPC) is alpha-dystrobrevin, a dystrophin-related and -associated protein whose absence results in muscular dystrophy and neuromuscular junction defects [1,2]. The current model of the DPC predicts that dystrophin and dystrobrevin each bind a single syntrophin molecule [3]. The syntrophins are PDZ-domain-containing proteins that facilitate the recruitment of signalling proteins such as nNOS (neuronal nitric oxide synthase) to the DPC [4]. Here we show, using yeast two-hybrid analysis and biochemical binding studies, that alpha-dystrobrevin in fact contains two independent syntrophin-binding sites in tandem. The previously undescribed binding site is situated within an alternatively spliced exon of alpha-dystrobrevin, termed the variable region-3 (vr3) sequence, which is specifically expressed in skeletal and cardiac muscle [5,6]. Analysis of the syntrophin-binding region of dystrobrevin reveals a tandem pair of predicted alpha helices with significant sequence similarity. These alpha helices, each termed a syntrophin-binding motif, are also highly conserved in dystrophin and utrophin. Together these data show that there are four potential syntrophin-binding sites per dystrophin complex in skeletal muscle: two on dystrobrevin and two on dystrophin or utrophin. Furthermore, alternative splicing of dystrobrevin provides a mechanism for regulating the stoichiometry of syntrophin association with the DPC. This is likely to have important consequences for the recruitment of specific signalling molecules to the DPC and ultimately for its function. 相似文献
70.