Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cilium of a vertebrate photoreceptor cell connects the phototransductive outer segment of the cell to the inner segment. Previous studies have shown that, within the connecting cilium, there is a small cluster of actin filaments, which play a critical role in the formation of new disk membranes. Here, we have detected a polypeptide in rat rod outer segments that is recognized by myosin heavy chain antibodies and was found to possess other characteristics of conventional non-muscle myosin heavy chain: it comigrates in SDS-PAGE with non-muscle myosin heavy chain; it associates with the cytoskeleton of rod outer segments in an ATP-sensitive manner; and it binds to purified actin filaments in the absence of ATP. Myosin ATPase activity was also detected in isolated rod outer segments. Electron immunomicroscopy revealed that myosin is present in the small actin-containing domain within the connecting cilium at the site of disk membrane morphogenesis. These results pose the possibility that an actin-myosin contractile mechanism functions in the formation of new photoreceptor disk membranes.
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PMID:Association of myosin with the connecting cilium of rod photoreceptors. 142 4

We have used an antibody to a previously identified 180 kDa (Hmp1) protein in Escherichia coli to clone the corresponding gene, which encodes a polypeptide of 114 kDa that has a mobility equivalent to 180 kDa in SDS/PAGE. We have demonstrated that the 180 kDa polypeptide is the primary gene product and not due to aggregation with other molecules. Moreover, our data indicate that the highly charged C-terminal region of the protein is responsible for its anomalous behaviour when analysed by SDS/PAGE. The hmp1 gene is in fact identical to ams (abnormal mRNA stability), also designated rne (RnaseE), and reported to have an ORF of 91 kDa. This discrepancy with the data in this paper can be ascribed to the omission of two bases in the previously reported sequence, generating an apparent stop codon. We previously demonstrated that the 180 kDa Hmp1/Ams protein cross reacted with both a polyclonal antibody and a monoclonal antibody raised against a yeast heavy chain myosin. However, we could detect no homology with myosin genes in the ams/hmp1 sequence. From the DNA sequence data, we identified a putative nucleotide binding site and a transmembrane domain in the N-terminal half of the molecule. In the C-terminal half, which appears to constitute a separate domain dominated by proline and charged amino acids, we also identified a region homologous to the highly conserved 70 kDa snRNP protein, involved in RNA splicing in eukaryotes. This feature would be consistent with reports that ams encodes RNaseE, an enzyme required for the processing of several stable RNAs in E. coli.
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PMID:Cloning and analysis of the entire Escherichia coli ams gene. ams is identical to hmp1 and encodes a 114 kDa protein that migrates as a 180 kDa protein. 818 58

During the course of characterizing polymerase chain reaction products corresponding to protein kinases of a higher plant, Arabidopsis thaliana, we found a DNA fragment that potentially codes for a polypeptide with mosaic sequences of two classes of protein kinases, a tyrosine-specific and a serine/threonine-specific one. Overlapping complementary DNA (cDNA) clones coinciding with this fragment were isolated from an A. thaliana cDNA library. From their sequence analyses a protein kinase was predicted composed of 410 amino acid residues (APK1, Arabidopsis protein kinase 1), in which the kinase domain was flanked by short non-kinase domains. Upon expression of APK1 in Escherichia coli cells, several bacterial proteins became reactive with anti-phosphotyrosine antibody but not with the same antibody preincubated with phosphotyrosine, convincing us that APK1 phosphorylated tyrosine residues. APK1 purified from an over-producing E. coli strain showed serine/threonine kinase activity, and no tyrosine kinase activity, towards APK1 itself, casein, enolase, and myosin light chains. APK1 was thus concluded to be a novel type of protein kinase, which could phosphorylate tyrosine, serine, and threonine residues, though tyrosine phosphorylation seemed to occur only on limited substrates. Since the structure of the APK1 N-terminal portion was indicative of N-myristoylation, APK1 might associate with membranes and thereby contribute to signal transduction. The A. thaliana genome contained two APK1 genes close to each other (APK1a and APK1b).
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PMID:Novel protein kinase of Arabidopsis thaliana (APK1) that phosphorylates tyrosine, serine and threonine. 145 Mar 80

A cDNA clone was isolated by screening of a lambda gt11 endothelial expression library with serum from a patient with myasthenia gravis (MG). Rabbit antisera raised against the recombinant protein and human MG sera reactive with the clone immunoblotted an M(r) integral of 250,000 polypeptide (gravin) present in endothelial cells and several adherent cells. Gravin was not detected in platelets, leukocytes, U937, or human erythroleukemic (HEL) cell lines, but was expressed in HEL cells after induction with phorbol myristate acetate. Northern blot analysis showed two transcripts of approximately 6.7 and 8.4 kb in endothelial cells but not U937 or HEL cells. Indirect immunofluorescence of permeabilized cells revealed a trabecular network of gravin staining with a distinct linear component. Antibodies to gravin, were present in sera from 22:72 (31%) of MG patients. In contrast 0:50 normal sera and 1:72 sera from patients with other autoimmune diseases contained antigravin antibodies. Gravin is not likely to be a nonerythroid spectrin, talin, myosin, or actin-binding protein based on the lack of reactivity of antigravin with these polypeptides in immunoblots. The nucleotide sequence of the immunoreactive clone indicated that it encodes a highly acidic polypeptide fragment that contains the carboxyl terminus of the protein. Neither amino acid nor nucleotide sequences were present in Genbank, EMBL, or Swissprot databases as of March, 1992. These data indicate that gravin is an inducible, cell type-specific cytoplasmic protein and that auto-antibodies to gravin may be highly specific for MG.
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PMID:Molecular cloning and preliminary characterization of a novel cytoplasmic antigen recognized by myasthenia gravis sera. 152 45

Myosin I, an actin-dependent force-generating enzyme, has been purified from three mammalian sources: bovine adrenal medulla, adrenal cortex, and brain. The purification procedure includes extraction of tissue with ATP at low ionic strength and coprecipitation with actin, followed by gel filtration on Sepharose 4B, anion-exchange chromatography on Q Sepharose, and affinity chromatography on ATP-agarose. Mammalian myosin I molecules are composed of a heavy chain of 116 kDa and multiple low molecular weight polypeptides identified as calmodulin. The structural and enzymatic properties of adrenal medulla myosin I were further characterized. This enzyme exhibits high K+,EDTA- and Ca(2+)-ATPase specific activities (about 0.2 mumol.min-1 per mg of protein), whereas the Mg(2+)-ATPase activity is very low (1-3 nmol.min-1.mg-1). The Mg(2+)-ATPase of medulla myosin I is activated by F-actin in a Ca(2+)-dependent manner: activity is stimulated 40-fold in the presence of EGTA and 90-fold in the presence of 10 microM Ca2+. Two structural domains of the myosin I heavy chain were identified. A 74-kDa chymotryptic fragment contains the catalytic site, while a 36-kDa polypeptide contains the calmodulin-binding sites. These results indicate that mammalian myosin I is more closely related to myosin I from the avian intestinal brush border than to the enzymes isolated from the protozoans Acanthamoeba and Dictyostelium.
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PMID:Purification and characterization of a mammalian myosin I. 153 Sep 90

Motor proteins in cells include myosin, which is actin-based, and kinesin, dynein and dynamin, which are microtubule-based. Several proteins have recently been identified that have amino-acid sequences with similarity to the motor domains of either myosin or kinesin, but are otherwise dissimilar. This has led to the suggestion that these may all be motor proteins, but that they are specialized for moving different cargos. Genetic analysis can address the question of the different functions of these new proteins. Studies of a temperature-sensitive mutation (myo2-66) in a gene of the myosin superfamily (MYO2) have implicated the Myo2 protein (Myo2p) in the process of polarized secretion in yeast (Saccharomyces cerevisiae). To understand more about the role of Myo2p, we have looked for 'multicopy suppressors' (heterologous genes that, when overexpressed, can correct the temperature sensitivity of the myo2-66 mutant). Here we report the identification of such a suppressor (SMY1) that (surprisingly) encodes a predicted polypeptide sharing sequence similarity with the motor portion of proteins in the kinesin superfamily.
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PMID:Suppression of a myosin defect by a kinesin-related gene. 154 81

The topography of rapid equilibrium complexes formed between G-actin and myosin subfragment-1, which are the first kinetic intermediates in the polymerization process into F-acto-S1 filaments, has been probed by chemical cross-linking. In the absence of ATP, cross-linking of G-actin-S1 complexes by 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide (EDC) yielded a major 165-170-kDa and a fainter 200-205-kDa doublet polypeptide. The actin:S1 molar ratio was 1 in the EDC-cross-linked complexes, using either double labeling techniques or the method combining EDC + N-hydroxysuccinimide. Chemical cleavages of the covalently cross-linked complexes by formic acid and N-hydroxylamine (Sutoh, K. (1983) Biochemistry 22, 1579-1585) showed that in the main cross-linked 165-kDa polypeptide, the 1-12 acidic N-terminal region of actin was covalently linked to the lysine-rich region connecting the central 50-kDa domain to the C-terminal 20-kDa domain of S1, as in F-acto-S1 complexes. G-actin, but not F-actin, was covalently cross-linked to S1 by N,N'-paraphenylenedimaleimide (p-PDM). A major 195-kDa and a minor 165-kDa polypeptide were obtained, could be separated from actin and S1 by DEAE-cellulose chromatography, and did not exhibit actin-activated Mg-ATPase activity. Both EDC-cross-linked and p-PDM-cross-linked complexes between G-actin and S1 could be incorporated into F-acto-S1 decorated filaments. The C-terminal cysteine 374 of actin is involved in the p-PDM cross-linked 195-kDa complex. Accordingly, a covalent photocross-linked 200-kDa conjugate was formed between S1 heavy chain and benzophenone-G-actin, obtained by covalent modification of Cys374 by benzophenonemaleimide (Tao, T., Lamkin, M., and Scheiner, C. J. (1985) Arch. Biochem. Biophys. 240, 627-634). These results demonstrate that (i) G-actin-S1 and F-actin-S1 complexes display a large similarity in the EDC-cross-linked electrostatic close contacts and (ii) a change in the environment of Cys374 is linked to the polymerization into F-actin-S1 decorated filaments.
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PMID:Interaction between G-actin and myosin subfragment-1 probed by covalent cross-linking. 162 3

Previous studies have shown that the non-alpha-helical, amino-terminal head region of vimentin is essential for the formation and stability of vimentin intermediate filaments (IFs). In order to specify its target site on companion protein subunits, it was cut off from vimentin at amino acid position 96 with lysine-specific endoproteinase and allowed to react with intact vimentin and other IF proteins. In solution of high salt concentration (500 mM KCl), the isolated polypeptide (vim NT) showed a high affinity for all cytoplasmic IF proteins tested, but not for nuclear lamins. Employing limited digestion of the IF proteins with different proteinases, the binding site was shown to reside in their alpha-helical rod domains. Other polypeptides possessing alpha-helical regions with the potential to form coiled-coil structures like tropomyosin and myosin subfragment 2 did not react with vim NT. The binding to IF proteins was strongly inhibited by phosphorylation of vim NT and totally abolished in the presence of 200 mM arginine hydrochloride, whereas the same concentration of lysine hydrochloride was ineffective. Limited chymotryptic digestion of vim NT produced polypeptides that were unable to react with the alpha-helical region of vimentin at high salt concentration. Consistent with these observations, vim NT strongly inhibited filament formation in vitro from protofilamentous vimentin. A 14-mer oligopeptide comprising the amino acids 3 to 16 of the amino terminus also inhibited filament formation, though to a lesser extent. Conversely, vim NT and, with a lower efficiency, the 14-mer oligopeptide also severely affected the structure of preformed vimentin filaments by unraveling them. Phosphorylated vim NT was considerably less active in this respect. Further digestion of the rod domain of vimentin with chymotrypsin yielded 17.4 and 21 kDa polypeptides, which were tentatively characterized as originating from the carboxy- and amino-terminal half of the rod domain, respectively. Both formed salt-stable complexes with vim NT, the smaller polypeptide with a higher efficiency than the larger one. These results suggest that the staggered, antiparallel arrangement of the two coiled-coils in the protofilaments of IF proteins is, at least in part, determined by the twofold, symmetrical association of the amino-terminal head regions of one coiled-coil rope structure with the carboxy-terminal halves of the alpha-helical rod domains of the other coiled-coil and that similar interactions occur during filament assembly and in the intact filament.
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PMID:Salt-stable interaction of the amino-terminal head region of vimentin with the alpha-helical rod domain of cytoplasmic intermediate filament proteins and its relevance to protofilament structure and filament formation and stability. 162 50

In this study, myosin heavy chain from sea urchin pluteus larvae was characterized by analysis of a 2.5-kb cDNA clone. DNA sequence of 1465 bp demonstrated a 71% similarity in the deduced amino acid sequence to the embryonic rat skeletal muscle sequence. Antibodies generated against a polypeptide encoded by the open reading frame of the cDNA clone specifically identified a 210-kDa myosin protein which accumulated in 8-12 muscle cells differentiating bilateral to the esophagus beginning at early larval stages. This same myosin also accumulated in cells of the endodermal epithelium that comprise the three sphincters of the larval gut. Thus, a gene encoding myosin heavy chain is expressed in dissimilar cell types of the macromere lineage, and the pattern of accumulation in the gut identifies functionally distinct cells of the endodermal epithelium.
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PMID:Myosin heavy chain accumulates in dissimilar cell types of the macromere lineage in the sea urchin embryo. 169 86

Actin, a major cytoskeletal component of all eukaryotic cells, is one of the most highly conserved proteins. It is involved in various cellular processes such as motility, cytoplasmic streaming, chromosome segregation and cytokinesis. The actin from the yeast Saccharomyces cerevisiae, encoded by the essential ACT1 gene, is 89% identical to mouse cytoplasmic actin and is involved in the organization and polarized growth of the cell surface. We report here the characterization of ACT2, a previously undescribed yeast split gene encoding a putative protein (391 amino acids, relative molecular mass (Mr) 44,073) that is 47% identical to yeast actin. The requirement of the ACT2 gene for vegetative growth of yeast cells and the existence of related genes in other eukaryotes indicate an important and conserved role for these actin-like proteins. Superimposition of the Act2 polypeptide onto the three-dimensional structure of known actins reveals that most of the divergence occurred in loops involved in actin polymerization, DNase I and myosin binding, leaving the core domain mainly unaffected. To our knowledge, the Act2 protein from S. cerevisiae is the first highly divergent actin molecule described. Structural and physiological data suggest that the Act2 protein might have an important role in cytoskeletal reorganization during the cell cycle.
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PMID:New yeast actin-like gene required late in the cell cycle. 172 53


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