EC:2.7.7.48 - FACTA Search

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Query: EC:2.7.7.48 (transcriptase)
9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cross-linking of ribonucleoside triphosphates (NTPs) to specific binding sites on the poliovirus RNA-dependent RNA polymerase has been performed by ultraviolet irradiation and by reduction of oxidized nucleotide-protein complexes. The latter method approached a cross-linking efficiency of 1 NTP/molecule of enzyme. Nucleotide competition experiments suggested that the same binding site is occupied by all NTPs. Analysis of peptides produced by proteinase Glu-C and trypsin digestion and labeled with [32P]GTP indicated that a lysine residue between Met-189 and Lys-228 in the polymerase was cross-linked to NTP. Nucleotide binding was exploited for rapid purification of the enzyme by GTP-agarose affinity chromatography. In addition, a set of cloned, modified polymerase molecules with reduced or absent polymerization activity was analyzed for binding efficiency to a GTP-agarose column. Some mutations eliminated GTP binding, whereas others generated proteins with varying affinities for GTP. Incubation of the poliovirus polymerase with high concentrations of NTP, particularly GTP, resulted in a dramatic protection against heat denaturation and activity loss. These data suggest that nucleotide binding results in an alteration of the enzyme conformation or the stabilization of an ordered conformation.
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PMID:Nucleotide binding by the poliovirus RNA polymerase. 132 24

Grapevine fanleaf nepovirus (GFLV) has a bipartite plus-sense RNA genome. Its structural and functional proteins originate from polyprotein maturation by at least one virus-encoded proteinase. Here we describe the cloning of the 24-kDa proteinase cistron located between the virus-linked protein (VPg) and the RNA-dependent RNA polymerase cistron in GFLV RNA1 (nucleotides 3966 to 4622). Proteinase expressed from this clone is able to cleave GFLV polyprotein P2 in order to produce the coat protein and a 66-kDa protein which is further processed to the 38-kDa presumed movement protein. The GFLV 24-kDa proteinase sequence contains sequence similarities with other nepovirus and comovirus proteinases, particularly at the level of the conserved domains corresponding to the hypothetical catalytic triad and to the substrate-binding pocket (amino acids 192 to 200). Site-directed mutagenesis of residues His43, Glu87, and Leu197 abolished proteinase activity. Inactivation of the enzyme is also observed if the catalytic residue Cys179 was substituted by isoleucine, but replacement by a serine at the same position produced a mutant with an activity identical to that of native proteinase. All our data show that GFLV cysteine proteinase presents structure similarities to the proteinases of cowpea mosaic virus and potyviruses but is most closely related to trypsin.
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PMID:Effects of site-directed mutagenesis on the presumed catalytic triad and substrate-binding pocket of grapevine fanleaf nepovirus 24-kDa proteinase. 151 63

The nucleotide sequence of the genomic RNA1, 7342 nucleotides (nt) of grapevine fanleaf virus strain F13 (GFLV-F13) has been determined from cDNA clones. The complete sequence contained only one long open reading frame (ORF) of 6852 nucleotides extending from nucleotide 243 to 7101. The putative polyprotein encoded by this ORF is 2284 amino acids in length with an Mr of 253K. The location of genome-linked protein and comparison of the primary structure of the 253K polyprotein to that of other closely related viral proteins of the picronavirus-like family allows the proposal of a scheme for the genetic organization of GFLV-F13 RNA1. The primary structure of the polyprotein includes a putative RNA-dependent RNA polymerase of 92K and a cysteine protease of 25K. This protease shares not only major structural homologies, particularly in the substrate-binding pocket, with the trypsin-like serine proteases of other picorna-like viruses, but also their specificity in terms of cleavage. The large region of Mr 133K upstream of the VPg was found to contain at least two domains, one of which could be easily aligned with the NTP-binding sequence pattern and another which may have the characteristics of a protease cofactor. Thus, the 253K protein possesses the same general genetic organization as the corresponding protein of other picorna-like viruses.
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PMID:Complete nucleotide sequence and genetic organization of grapevine fanleaf nepovirus RNA1. 165 53

Proteolytic processing of poliovirus polyprotein is carried out by the products of two viral genes, 2A and 3C. 2A protease catalyzes cleavage of the polyprotein of type 1 poliovirus at two sites, one a cis cleavage at the 2A N-terminus and the other a trans cleavage within the 3D polymerase. In addition to polyprotein cleavage activity, 2A protease also indirectly induces cleavage of the p220 component of the cap-binding protein complex, which results in selective inhibition of host protein synthesis. Molecular genetic and biochemical analyses of 2A protease were performed to test its putative homology to small trypsin-like serine proteases and to examine the roles of individual amino acids in the reaction mechanism of 2A protease. A recombinant plasmid containing poliovirus 1C, 1D, and 2A gene sequences was expressed in a cell-free transcription/translation system, resulting in synthesis of a precursor protein that underwent efficient self-processing and produced mature 2A protease. To identify residues involved in the catalytic center and/or substrate-binding loops, we generated a series of 2A mutants by site-specific mutagenesis of this plasmid. Mutants were then expressed in vitro and tested for autocatalytic cis cleavage activity, trans cleavage of the 1D/2A junction, and trans-activation of p220-specific protease. Our data suggest that the conserved His20, Asp38, and Cys109 residues recently proposed to be equivalent to the catalytic triad of known serine proteases may comprise the catalytic triad of 2A protease. Surprisingly, Asp38 could be replaced with glutamic acid and retain autocatalytic function. Other amino acid substitutions at Tyr88, Tyr89, and Thr124 suggested that these residues lie in loops involved in substrate binding. Biochemical studies with protease inhibitors indicate that 2A protease activity is blocked by inhibitors specific for serine and cysteine proteases. Overall, the results are consistent with the hypothesis that 2A proteinase is structurally similar to the trypsin-like family of serine proteases with the substitution of cysteine 109 as the active site nucleophile.
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PMID:Identification of essential amino acid residues in the functional activity of poliovirus 2A protease. 185 Sep 21

When wheat-germ RNA polymerase II is subjected to mild proteolytic attack in the presence of trypsin, the resulting form of the enzyme migrates as a single species on electrophoresis in native polyacrylamide gels, with an apparent Mr significantly smaller than that of the native enzyme. Analysis by denaturing gel electrophoresis of the truncated eukaryotic polymerase revealed that the two largest subunits of the native enzyme, i.e. the 220,000-Mr and 140,000-Mr subunits, were cleaved, giving rise to shorter polypeptide chains of Mr 172,800, 155,000, 143,000, 133,800, 125,000 and 115,000. The use of affinity-purified antibodies directed against each of the two large subunits of the native enzyme allowed us to probe for possible precursor/product relationships between the 220,000-Mr and 140,000-Mr subunits of wheat-germ RNA polymerase II and their breakdown products generated in the presence of trypsin. None of the smaller subunits of the plant RNA polymerase II appeared to be sensitive to trypsin attack. The results indicate that the truncated RNA polymerase retained a multimeric structure, and therefore that the proteolyzed largest subunits of the enzyme remained associated with the smaller ones. Furthermore, in transcription of a poly[d(A-T)] template, the catalytic activity of the proteolyzed form of wheat-germ RNA polymerase II was identical to that of the native enzyme. Therefore, the protein domains that can be deleted by the action of trypsin from the two large subunits of the plant transcriptase are not involved in DNA binding and/or nucleotide binding, and do not play an important role in template-directed catalysis of phosphodiester bond formation.
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PMID:Analysis of wheat-germ RNA polymerase II by trypsin cleavage. The integrity of the two largest subunits of the enzyme is not mandatory for basal transcriptional activity. 224 2

Polypeptides have been defined by studying structural and nonstructural proteins. The rotavirus outer capsid is made up of three proteins: VP7, VP3 and VP9. VP7 is a glycoprotein involved in cell attachment and viral maturation. VP3 is associated with hemagglutination and trypsin activation of virus infectivity; both contain type-specific neutralization determinants. A biological function has not yet been completely defined for VP9. VP6, the main protein of the inner capsid is necessary for mRNA synthesis by the viral transcriptase and determines the subgroup antigenic specificity. These two capsids surround the core which consists of three proteins VP1, VP2, and the product of segment 3, associated with RNA polymerase. Four non-structural polypeptides have been identified (NCVP5, NCVP4, NCVP2, NCVP3); very little is known about their biological role.
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PMID:[Rotaviruses: structure and function of the principal polypeptides]. 255 46

The protein synthesis elongation factors Tu and Ts are responsible for binding aminoacyl-transfer ribonucleic acid (RNA) to the ribosome. In addition, they perform an undefined function, as the EF-Tu.Ts complex, in the RNA phage RNA replicases. In an effort to obtain insight into these two apparently unrelated roles, we purified the elongation factors from Caulobacter crescentus and compared them to the analogous Escherichia coli polypeptides. Although most physical and functional characteristics were found to be similar, significant differences were found in the molecular weight of EF-Ts and relative affinities of guanine nucleotides, sensitivity to trypsin cleavage, and rate of heat denaturation of EF-Tu. The antibiotic kirromycin was active with EF-Tu from both bacterial species. When C. crescentus EF-Tu.Ts was substituted for the E. coli elongation factors in Q beta phage RNA replicase, an enzyme capable of apparently normal RNA synthetic activity was formed.
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PMID:Protein synthesis elongation factors Tu and Tu.Ts from Caulobacter crescentus: sensitivity to kirromycin and activity in Q beta replicase. 610 49

Langerhans cells (LC) belong to the dendritic cell lineage and are the principal antigen-presenting cells of squamous epithelia. Short-term cultured LC (cLC) exhibit a marked augmented capacity to stimulate allogeneic T cells and acquire the ability to activate naive T cells, probably in relation to enhanced expression of accessory signals. In this study, we evaluated the expression of B7 costimulatory molecule (CD80) in human freshly isolated (fLC) and cLC at both the protein and mRNA level. Staining of frozen skin sections did not reveal any epidermal dendritic cell reactive with either of two different anti-B7 monoclonal antibodies. fLC in suspension did not exhibit any B7 staining as evaluated by two-color flow-cytometry analysis and immunoelectron microscopy. In contrast, LC that were cultured for 24-72 h displayed strong surface B7 reactivity with a characteristic patchy pattern. Treatment with dispase and trypsin did not reduce B7 staining of cLC. Following warming to 37 degrees C, cLC tagged with anti-B7 monoclonal antibody and gold-conjugated secondary antibody could internalize surface B7 by using the organelles of receptor-mediated endocytosis. B7 mRNA, detected by the reverse-transcriptase polymerase chain reaction technique, was expressed at a low level in purified (> 90% HLA-DR+) fLC but not in LC-depleted epidermal cells, and was markedly upregulated in purified cLC. The results indicate that 1) fLC do not express B7 protein on their surface, but acquire B7 during culture, 2) surface B7 is not sensitive to trypsin, 3) B7 expression is regulated primarily at the mRNA level, and 4) membrane B7 can be internalized within cLC. B7 molecule on CLC may be relevant to their increased antigen-presenting cell potency and ability to stimulate naive T lymphocytes.
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PMID:Expression of B7 costimulatory molecule in cultured human epidermal Langerhans cells is regulated at the mRNA level. 751 82

We have established a dermal fibroblast-like stromal cell line, DFB-1, and a clone, 12E2, from epidermal sheets prepared from the skin of BALB/c mouse ears by trypsin digestion. They were suggested to be fibroblasts or myofibroblasts, as 1) they were polygonal or spindle-shaped under the phase-contrast microscope, 2) they did not possess any tonofilaments or desmosomes, and 3) they did not express any marker for bone marrow-derived cells or macrophages. Interestingly, these cells showed a unique phenomenon of "pseudo-emperiporesis," which was first recognized in the interaction between thymic nurse cells and thymocytes. Namely, two T-cell clones and one T-cell hybridoma migrated beneath the cytoplasmic projections of the fibroblast-like cutaneous stromal cells in culture. Furthermore, secretion of interleukin 7 by these cells was confirmed by bioassay using an IL-7-dependent cell line and by inhibition with anti-interleukin 7 antibody, and the expression of interleukin 7 mRNA was also demonstrated in these cells by a combination of reverse-transcriptase polymerase chain reaction and Southern blot analysis. These data strongly suggest the presence of unique stromal cells even in the skin, probably at the upper dermis, which can function like the nurse cells in the thymus. These stromal cells may play a crucial role in cutaneous immunophysiology.
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PMID:Cultured murine dermal cells can function like thymic nurse cells. 751 55

Trypsin inhibitors in serum-free conditioned media (SFCM) of various human carcinoma cell lines were analyzed by reverse zymography. Most of the cells secreted high-molecular-weight trypsin inhibitors (HMTI) larger than 100 kDa. The cell lines of colorectal carcinoma origin had a tendency to secrete HMTI whose molecular weight was a little higher than that of the other cell lines. Analysis of SFCM of subclones with different histological differentiation and metastatic/invasive potentials derived from a single pancreatic carcinoma cell line SUIT-2 showed that the HMTI activity in SFCM was correlated to the degree of histological differentiation in vivo and tended to be inversely correlated to their metastatic/invasive capabilities. Immunoblotting analysis revealed that these HMTI were protease nexin-II/amyloid beta protein precursors (PN-II/APP). Semi-quantificative reverse-transcriptase/polymerase-chain reaction study for PN-II/APP mRNAs suggested that the differences in PN-II/APP activities in SFCM between the subclones might be post-transcriptional or post-secretional events. In addition, SFCM of a highly metastatic subclone contained 43-kDa protein which reacted to anti-APP monoclonal antibody (MAb) suggesting that the subclone may have APP-degrading activity.
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PMID:Reverse-zymographic analysis of protease nexin-II/amyloid beta protein precursor of human carcinoma cell lines, with special reference to the grade of differentiation and metastatic phenotype. 781 44

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