Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Computer-assisted analysis of the putative polypeptide products encoded by the two open reading frames present in a large virus-like double-stranded RNA, L-dsRNA, associated with hypovirulence of the chestnut blight fungus, Cryphonectria parasitica, revealed five distinct domains with significant sequence similarity to previously described conserved domains within plant potyvirus-encoded polyproteins. These included the putative RNA-dependent RNA polymerase, RNA helicase, two papain-like cysteine proteases related to the potyvirus helper-component protease, and a cysteine-rich domain of unknown function similar to the N-terminal portion of the potyvirus helper-component protein. Phylogenetic trees derived from the alignment of the polymerase domains of L-dsRNA, a subset of positive-stranded RNA viruses, and double-stranded RNA viruses, using three independent algorithms, suggested that the hypovirulence-associated dsRNA and potyvirus genomes share a common ancestry. However, comparison of the organization of the conserved domains within the encoded polyproteins of the respective viruses indicated that the proposed subsequent evolution involved extensive genome rearrangement.
Proc Natl Acad Sci U S A 1991 Dec 01
PMID:Evidence for common ancestry of a chestnut blight hypovirulence-associated double-stranded RNA and a group of positive-strand RNA plant viruses. 196 31

A full-length molecular clone of equine infectious anemia virus (EIAV) was isolated from a persistently infected canine fetal thymus cell line (Cf2Th). Upon transfection of equine dermis cells, the clone, designated CL22, yielded infectious EIAV particles (CL22-V) that replicated in vitro in both Cf2Th cells and an equine dermis cell strain. Horses infected with CL22-V developed an antibody response to viral proteins and possessed viral DNA in peripheral blood mononuclear cells, as determined by polymerase chain reaction assays. In addition, horses infected with CL22-V became persistently infected and were capable of transmitting the infection by transfer of whole blood to uninfected horses. However, CL22-V, like the parental canine cell-adapted virus, did not cause clinical signs in infected horses. Reverse transcriptase assays of CL22-V- and virulent EIAV-infected equine mononuclear cell cultures indicated that the lack of virulence of CL22-V was not due to an inability to infect and replicate in equine mononuclear cells in vitro.
J Virol 1990 Dec
PMID:Equine infectious anemia virus derived from a molecular clone persistently infects horses. 217 67

The interferon-induced murine Mx1 protein, which is localized in the nucleus, most likely specifically blocks influenza virus replication by inhibiting nuclear viral mRNA synthesis, including the mRNA synthesis catalyzed by inoculum (parental) virion nucleocapsids (R. M. Krug, M. Shaw, B. Broni, G. Shapiro, and O. Haller, J. Virol. 56:201-206, 1985). We tested two possible mechanisms for this inhibition. First, we determined whether the transport of parental nucleocapsids into the nucleus was inhibited in murine cells expressing the nuclear Mx1 protein. To detect the Mx1 protein, we prepared rabbit antibodies against the Mx1 protein with a CheY-Mx fusion protein expressed in bacteria. The fate of parental nucleocapsids was monitored by immunofluorescence with an appropriate dilution of monoclonal antibody to the nucleocapsid protein. The protein synthesis inhibitor anisomycin was added to the cells 30 min prior to infection, so that the only nucleocapsids protein molecules in the cells were those associated with nucleocapsids of the parental virus. These nucleocapsids were efficiently transported into the nuclei of murine cells expressing the Mx1 protein, indicating that this protein most likely acts after the parental nucleocapsids enter the nucleus. The second possibility was that the murine Mx1 protein might act in the nucleus to inhibit viral mRNA synthesis indirectly via new cap-binding activities that sequestered cellular capped RNAs away from the viral RNA transcriptase. We show that the same array of nuclear cap-binding proteins was present in Mx-positive and Mx-negative cells treated with interferon. Interestingly, a large amount of a 43-kDa cap-binding activity appeared after interferon treatment of both Mx-positive and Mx-negative cells. Hence, the appearance of new cap-binding activities was unlikely to account for the Mx-specific inhibition of viral mRNA synthesis. These results are most consistent with the possibility that the Mx1 protein acts directly to inhibit the viral transcriptase in the nucleus.
J Virol 1990 Dec
PMID:Parental influenza virion nucleocapsids are efficiently transported into the nuclei of murine cells expressing the nuclear interferon-induced Mx protein. 224 97

Affinity labelling with aldehyde-containing analogs of initiation substrates of nuclear fraction of tick-borne encephalitis virus (TBEV) infected cells results in a labelling of a single polypeptide with a molecular mass of 68 kDa which was immunologically identified as TBEV NS3 protein. A single-hit hydroxylamine hydrolysis, using limited and long-term CNBr cleavages allowed one to identify Lys1800 and/or Lys1803 as the label attachment sites. These amino acid residues are situated in the proximity of the 'B'-site of NTP-binding motif of viral RNA replicase.
FEBS Lett 1990 Dec 17
PMID:Mapping of the region of the tick-borne encephalitis virus replicase adjacent to initiating substrate binding center. 226 72

5-(Phosphonomethyl)-1H-tetrazole and a number of related tetrazoles have been prepared and their effects on the replication of Herpes Simplex Viruses-1 and -2 have been investigated as well as their abilities to inhibit the DNA polymerases induced by these viruses and the RNA transcriptase activity of influenza virus A. Contrary to an earlier report, 5-(phosphonomethyl)-1H-tetrazole was not an efficient inhibitor of the replication of HSV-1 and HSV-2 in tissue culture. Analogues of 5-(phosphonomethyl)-1H-tetrazole were also devoid of significant antiviral activity. Only 5-(phosphonomethyl)-1H-tetrazole and 5-(thiophosphonomethyl)-1H-tetrazole inhibited the influenza virus transcriptase, and both were more effective as inhibitors than phosphonoacetic acid under the same conditions. The DNA polymerases induced by HSV-1 and HSV-2 were inhibited slightly by 5-(phosphonomethyl)-1H-tetrazole and to a lesser extent by its N-ethyl analogue and 3-(phosphonomethyl)-1H-1,2,4-triazole. None of these compounds were as effective as phosphonoacetic acid. 5-(Thiophosphonomethyl)-1H-tetrazole was a better inhibitor of the DNA polymerase induced by HSV-1 than 5-(phosphonomethyl)-1H-tetrazole.
Nucleic Acids Res 1985 Dec 09
PMID:The antiviral activity of tetrazole phosphonic acids and their analogues. 241 98

Reverse transcriptase was purified from human immunodeficiency virus (HIV). It utilized the artificial primer-template poly(rA)-oligo(dT)12-18 more efficiently than activated calf thymus DNA, poly(rI)-oligo(dC)12-18, poly(rC)-oligo(dG)12-18, or poly(rCm)-oligo(dG)12-18. Maximum activity was observed at pH 7.0 to 7.6 in the presence of 5 mM MgCl2 and 100 mM KCl. 3'-Azido-3'-deoxythymidine triphosphate competed with dTTP for binding to HIV reverse transcriptase. Different kinetic constants were obtained with different primer-templates. Km and Ki values of 2.8 and 0.04 microM, respectively, were obtained with poly(rA)-oligo(dT)12-18. The corresponding values were 1.2 and 0.3 microM, respectively, with activated calf thymus DNA and 0.3 and 0.01 microM, respectively, with extracted virus and native template. Inhibition of the host cell DNA polymerases alpha and beta was considerably weaker. The Km and Ki values obtained with activated calf thymus DNA as the primer-template were 2.4 and 230 microM, respectively, for DNA polymerase alpha and 6.0 and 73 microM, respectively, for DNA polymerase beta. 3'-Azido-3'-deoxythymidine triphosphate could also serve as an alternate substrate for HIV reverse transcriptase. The resulting incorporation of 3'-azido-3'-deoxythymidine triphosphate into poly(rA)-oligo(dT)12-18 caused chain termination and premature deceleration of the reaction. The terminated primer could not be elongated when incubated with dTTP and HIV reverse transcriptase.
Antimicrob Agents Chemother 1987 Dec
PMID:3'-Azido-3'-deoxythymidine triphosphate as an inhibitor and substrate of purified human immunodeficiency virus reverse transcriptase. 244 66

Reverse transcriptase from the simian immunodeficiency virus (SIV) was found to have kinetic behavior similar to that of enzyme from the human immunodeficiency virus (HIV). Michaelis constants for the substrates TTP and dGTP and inhibition constants for the inhibitors 3'-azido-3'-deoxythymidine 5'-triphosphate, 2',3'-dideoxythymidine 5'-triphosphate, and 2'-3'-dideoxyguanosine 5'-triphosphate were obtained for SIV reverse transcriptase and were found to be similar to the corresponding values for HIV reverse transcriptase. Thus, the interaction of SIV reverse transcriptase with nucleotide analogs appears to be indistinguishable from that of the HIV enzyme, suggesting that SIV/simian acquired immunodeficiency syndrome (SAIDS) is a potentially good model of AIDS.
Antimicrob Agents Chemother 1988 Dec
PMID:Kinetics and inhibition of reverse transcriptase from human and simian immunodeficiency viruses. 246 88

The finding that ribozymes can catalyze RNA chain elongation has led to the proposal that an early self-replicating system could have consisted of RNA alone. In such a chain elongation reaction, the Tetrahymena ribozyme was found to select 3',5'-linked substrates from a pool that contained a large molar excess of 2',5'-linked dinucleotides. The enzyme neither reacted with nor was inhibited by 2',5' phosphodiester linkages. The ability to exclude incorrectly linked substrates would have conferred an important selective advantage to a primordial RNA molecule with RNA replicase activity.
J Mol Evol 1989 Dec
PMID:Specificity for 3',5'-linked substrates in RNA-catalyzed RNA polymerization. 248 70

The nucleotide sequence of gene segment 1, which encodes VP1 of porcine rotavirus strain Gottfried, was determined. VP1 is associated with single-shelled rotavirus particles and has been linked to virus transcriptase and replicase enzymatic activities. Gene segment 1 is 3302 nucleotides long with a single open reading frame capable of coding for a protein of 1088 amino acids (calculated mol wt 125 kDa). The predicted amino acid sequence revealed that VP1 is basic, with a net positive charge of 18 at pH 7.0. It shares five consensus sequences with several well-characterized RNA-dependent RNA polymerases. Gottfried VP1 also shares consensus sequences with certain GTP-binding proteins; however, we could not detect any GTP-binding activity in VP1. Our preliminary experiments suggest that VP3, another polypeptide located in single-shelled rotavirus particles, possesses GTP-binding activity. These results suggest that mRNA synthesis and capping enzyme activities are related to VP1 and VP3, respectively.
Virology 1989 Dec
PMID:Nucleotide sequence of gene segment 1 of a porcine rotavirus strain. 255 53

Monoclonal antibodies (McAbs) were generated against two tobacco etch virus (TEV)-encoded nonstructural proteins, the 49-kilodalton (kDa) proteinase and the 58-kDa putative RNA-dependent RNA polymerase. This process was facilitated by the fact that these two TEV nonstructural proteins cocrystallize in the nuclei of virus-infected cells to form nuclear inclusion (NI) bodies which can be purified readily. The anti-NI McAbs were shown by Western blot analysis to be specific for either the TEV 49-kDa or the 58-kDa protein. Those McAbs reactive with the 49-kDa proteinase were characterized further with respect to the 49-kDa domain with which they reacted and with respect to their ability to inhibit the autocatalytic or self-processing activity of the 49-kDa proteinase. The 49-kDa antigens were synthesized from a TEV cDNA sequence using cell-free transcription and translation systems. Each anti-49-kDa McAb was used in immunoprecipitation studies with a series of 49-kDa antigens which represented a nested set of 49-kDa proteins with common amino termini but varying in length. Immunoprecipitation results showed that all of the anti-49-kDa proteinase McAbs reacted with one of five binding regions, designated A through E from the carboxy terminus of the proteinase, which were 77, 38, 81, 18, and 61 amino acids long, respectively. The 38-amino-acid binding region B contained the proposed catalytic cysteine 339 residue and was recognized by only one McAb, 4911. McAb 4911 was the only anti-49-kDa McAb capable of inhibiting the self-processing reaction in which the 49-kDa proteinase is released from its 75-kDa polyprotein precursor.
Virology 1989 Dec
PMID:Generation and characterization of monoclonal antibodies reactive with the 49-kDa proteinase of tobacco etch virus. 268 99


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