EC:2.7.7.48 - FACTA Search

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

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

Interferons alpha and beta induce an efficient antiviral state against influenza virus in mouse cells that possess the Mx gene, but not in mouse cells that lack this gene. In Mx-containing cells treated with interferon the amount of viral mRNA synthesized as a result of primary transcription is drastically reduced. Only two viral mRNAs could be detected by Northern analysis and by translating the poly(A)+ RNA from infected cells in wheat germ extracts: a reduced amount of the mRNA for nonstructural protein 1 and an even lower amount of the mRNA for the matrix protein. The other viral mRNAs were not made in detectable amounts. In addition, the rate of viral mRNA synthesis catalyzed by the inoculum transcriptase, measured by in vitro RNA synthesis catalyzed by permeabilized cells, was severely inhibited. In contrast, interferon treatment of cells lacking the Mx gene had little or no effect on either the steady-state level or the rate of synthesis of viral mRNAs made by the inoculum transcriptase. These results indicate that the interferon-induced Mx gene product, a 75,000-molecular-weight protein that accumulates in the nucleus, inhibits influenza viral mRNA synthesis which occurs in the nucleus. No Mx-specific effect acting directly on viral protein synthesis in the cytoplasm was observed.
...
PMID:Inhibition of influenza viral mRNA synthesis in cells expressing the interferon-induced Mx gene product. 241 49

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.
...
PMID:The antiviral activity of tetrazole phosphonic acids and their analogues. 241 98

Inhibitory effect of 3'-azide-3'deoxy-ribavirin-5'-triphosphate on activity of RNA-dependent RNA polymerase from influenza A virus as well as on DNA-dependent RNA polymerase II from mice liver nuclei was studied. The drug inhibited effectively RNA synthesis catalyzed by these enzymes, whereas its most selective inhibitory action was found in reaction with RNA polymerase from influenza A virus.
...
PMID:[Inhibitory effect of 3'-azido-3'-azido-3'-deoxy- ribavirin-5'-triphosphate on RNA synthesis catalyzed by RNA polymerase from influenza A virus and by cellular DNA-dependent RNA polymerase II]. 247 5

The matrix protein (M1) of influenza A virus, which has a critical role in viral assembly and can inhibit the viral transcriptase complex, has the ability to bind RNA. The RNA-binding property of M1 is specific for single-stranded RNA, like that of influenza nucleoprotein (NP) and shows similar sensitivity to pH and to salt concentration. M1:RNA complexes are stable, once formed, to competition from excess single-stranded RNA. The possible location of the RNA-binding regions in the M1 protein is discussed.
...
PMID:RNA-binding properties of influenza A virus matrix protein M1. 247 6

The three large RNA segments of influenza C virus C/JJ/50 were cloned and sequenced, and the deduced amino acid sequences were compared with those of the polymerase (P) proteins of influenza A and B viruses. The coding strategy of the C virus RNA segments is the same as that for the large A and B virus segments as one long open reading frame is present in each segment. RNA segment 1 of influenza C virus encodes the equivalent of the PB2 protein; it has an approximate 25% sequence identity with the corresponding (cap binding) influenza A and B virus PB2 proteins. The PB1 protein of influenza C virus, coded for by segment 2, has an approximate 40% sequence identity with the corresponding proteins of influenza A and B viruses including the Asp-Asp sequence motif found in many RNA polymerase molecules. The PB1 polymerase is thus the most highly conserved protein among the influenza A, B, and C viruses. Although the protein coded for by RNA 3 of influenza C virus shows an approximate 25% sequence identity with the acid polymerase (PA) proteins of the A and B viruses, its sequence does not display any acid charge features at neutral pH. This protein is thus referred to as the P3 (rather than the PA) protein of influenza C virus.
...
PMID:Comparison of the three large polymerase proteins of influenza A, B, and C viruses. 276 62

Even when neutralized by saturating amounts of monoclonal IgG directed against the haemagglutinin, influenza virus attaches to cells with kinetics similar to those of infectious virus. It then enters those cells and is uncoated; its RNA becomes localized within the nucleus and its lipid envelope and associated proteins remain in the cytoplasm. In this report we show that despite the apparent normality of these early stages of virus-cell interaction, neutralized virus underwent no detectable primary transcription. In contrast, there was only a slight inhibition of transcription by neutralized virus in vitro which was insufficient to account for the loss in infectivity, despite using mRNA to measure the production of capped oligonucleotides or to prime the elongation step. To test whether the absence of primary transcription in vivo resulted from non-accessibility of the genome rather than an effect on the transcriptase complex itself, we examined the susceptibility to RNase of virion RNA after inoculation of cells with neutralized virus. Data clearly show that, unlike RNA of infectious virus, RNA of neutralized virus did not become sensitive to RNase and we conclude that neutralization of influenza virus by IgG results in failure of virus to undergo a secondary uncoating process which is necessary for the activity of the virion transcriptase complex. Finally we show that by treatment of virions in vitro with detergent it is possible to produce a core structure which is stable and has some of the properties expected of a structure resulting from primary uncoating.
...
PMID:IgG-neutralized influenza virus undergoes primary, but not secondary uncoating in vivo. 276 31

We determined the origin and evolutionary pathways of the PB1 genes of influenza A viruses responsible for the 1957 and 1968 human pandemics and obtained information on the variable or conserved region of the PB1 protein. The evolutionary tree constructed from nucleotide sequences suggested the following: (i) the PB1 gene of the 1957 human pandemic strain, A/Singapore/1/57 (H2N2), was probably introduced from avian species and was maintained in humans until 1968; (ii) in the 1968 pandemic strain, A/NT/60/68 (H3N2), the PB1 gene was not derived from the previously circulating virus in humans but probably from another avian virus; and (iii) a current human H3N2 virus inherited the PB1 gene from an A/NT/60/68-like virus. Nucleotide sequence analysis also showed that the avian PB1 gene was introduced into pigs. Hence, transmission of the PB1 gene from avian to mammalian species is a relatively frequent event. Comparative analysis of deduced amino acid sequences disclosed highly conserved regions in PB1 proteins, which may be key structures required for PB1 activities.
...
PMID:Avian-to-human transmission of the PB1 gene of influenza A viruses in the 1957 and 1968 pandemics. 279 13

The two variants of influenza A/Victoria/35/72 (H3N2) virus resistant simultaneously to remantadine, deitiforin, adapromine and amantadine were obtained while passaging the virus in presence of remantadine or deitiforin. Both variants differed from the parental strain in optimal pH for hemolysis, transcriptase activity and in amino acid sequence of M2 protein. Maximal hemolytic activity of the parental strain is registered at pH 5.2, for the variants cultured in the presence of remantadine or deitiforin at pH 5.5 and 5.8, respectively. In contrast to NH4OH, remantadine and deitiforin do not exert inhibition of virus-induced hemolysis. Transcriptase activity of resistant variants is about 50% higher as compared with parental strain (enzyme source--whole virus particles or RNP). The M2 protein of the remantadine variant has 2 amino acid substitutions: 31 (Ser----Asn) and 59 (Met----Leu); the deitiforin variant has 3 substitutions: 14 (Met----Leu), 30 (Ala----Val) and 59 (Met----Leu). The phenotypic resistance of the virus seems to be determined by the mutations in the hydrophobic protein region (30,31); the other substitutions (14,59) may modify conformational structure and functional activity of the viral proteins.
...
PMID:[The change in functional activity and primary structure of the M2 protein in variants of the influenza virus resistant to remantadine and deitiforin: common and individual differences from the original strain]. 281

Acidic chloroform-methanol soluble proteins possessing hydrophobic properties and capable of inhibiting in vitro transcriptase activity of influenza virus RNP were detected in native and partially purified human leukocyte interferon (IFN) preparations. Purification of IFN resulted in the removal of at least a portion of such proteins; however, no proteins have been found in highly-purified IFN preparations.
...
PMID:Studies of proteins soluble in acidic chloroform-methanol isolated from crude human leukocyte interferon preparations. 286 58

All rimantadine-resistant variants of influenza virus prepared by consecutive passages in the presence of rimantadine had increased virion transcriptase activity as compared to the original strains. The increased virion transcriptase activity of rimantadine-resistant strains was unrelated to the possible role of M1 protein, since RNPs isolated from the virions of these variants also revealed higher transcriptase activity as compared to RNPs isolated from rimantadine-sensitive virus. The study of rimantadine-resistant recombinant X-4 which inherited from the resistant fowl plague virus (FPV) only the gene 7 coding for M proteins provided additional evidence for the suggestion that the increased virion transcriptase activity of rimantadine-resistant influenza virus variants is coincidental rather than directly associated with such resistance.
...
PMID:Virion transcriptase activity of rimantadine-sensitive and rimantadine-resistant variants of human influenza virus. 289 38

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>