Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The biosynthesis of the hemes, chlorophylls, corrins and other tetrapyrroles begins with the synthesis of 5-aminolevulinic acid (ALA). The pathway is highly conserved except for the synthesis of ALA which is derived from glycine and succinyl CoA (C4) in most eukaryotes and from glutamate (C5) in most bacteria and in green plants. In C5, glutamyl-tRNA synthetase (GTS) converts glutamate to glutamyl-tRNA (glu-tRNA), which is reduced by glutamyl-tRNA reductase (GTR) to glutamyl-1-semialdehyde (GSA), which is converted by aminotransferase (GSA-AT) to ALA. Since GTS is also involved in protein synthesis and GSA can be converted to ALA non-enzymatically, it is highly probable that control of ALA synthesis and thus of the whole pathway resides in the GTR step. In Escherichia coli, GTR is the gene product of hemA. BL21(DE3), a protease-deficient strain which contains the T7 RNA polymerase gene in front of a lac promoter, was transformed with a pET14b-based vector, pWC01, harboring hemA in front of a T7 promoter and ORF1 which is transcribed in the opposite direction. The transformed strain, WC1201, secreted ALA and porphyrins into the medium. Induction of expression of hemA by WC1201 was optimized for concentration of inducer (IPTG, 5 mM), temperature (37 degrees C), presence of betaine and sorbitol (no change) and time of induction (2h). GTR was observable as a 46 kDa band by Brilliant blue G staining of SDS-PAGE gels. Sonicates of the induction mixture exhibited strong ALA synthesis activity which was enhanced by tRNAglu. Most of the activity was in the supernatant of the sonicate indicating that GTR is a soluble enzyme. The induced strain had more GTS activity than the uninduced strain which had more GTS activity than its parent wild-type strain. Autoradiography on native gradient PAGE showed that GTR expressed in vivo by induction of WC1201 had a molecular weight of approx. 117 kDa. Gel filtration of the induced sonicate showed a peak of enzymatic activity at about 126 kDa. When pET14b- or pUC19-based plasmids harboring hemA and ORF1, or importantly, a pUC19-based plasmid harboring only hemA and not ORF1, were expressed in an in vitro transcription-translation system, native gradient PAGE showed a product with a molecular weight of approximately 175 kDA. This expression was higher in the presence of tRNAglu. When the 117 kDa and 175 kDa proteins were excised from their native gels respectively, and run on SDS PAGE, autoradiography showed bands at 46 kDa. We conclude that GTR is present in both high molecular weight species. Since overexpression of hemA from pET14b-based plasmids is associated with increased glutamyl-tRNA synthetase activity, the 175 kDa species may represent different complexes of GTR, GTS and glutamyl-tRNA as observed in Chlamydomonas and the 117-126 kDa species may be an dimer of GTR associated with glu-tRNA or a complex of GTR, GTS and glu-tRNA. These possibilities are being investigated.
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PMID:Expression of glutamyl-tRNA reductase in Escherichia coli. 895 Jan 86

Murine gammaherpesvirus 68 (MHV-68) is a virus of wild rodents and is a convenient small animal model for studies of gammaherpesvirus pathogenesis. We have sequenced 6162 bp at the left end of the MHV-68 genome and identified two unique open reading frames (ORFs) (ORF2 and ORF3) and an ORF (ORF1) which displays similarity to poxvirus members of the serpin family. Interspersed with the ORFs is a family of eight novel tRNA-like sequences sharing tRNA-like predicted secondary structures and RNA polymerase III promoter elements. These sequences are expressed to high levels during lytic infection and are processed into mature tRNAs with post-transcriptionally added 3' CCA termini, indicating their recognition as tRNAs by cellular machinery. Acidic Northern analysis of four tRNAs tested has demonstrated that they are not aminoacylated by aminoacyl-tRNA synthetases present in the infected cell. Thus, it is currently unclear what biological function these uncharged viral tRNA-like sequences may fulfil. In situ hybridization analysis has shown that in addition to being expressed within productively infected tissues during acute stages of infection, the tRNA-like sequences are abundantly expressed within splenic germinal centres of latently infected mice. Therefore, the MHV-68 viral tRNAs represent a marker for latent infection and constitute the first report of tRNA-like sequences encoded by a virus of eukaryotes.
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PMID:Murine gammaherpesvirus 68 encodes tRNA-like sequences which are expressed during latency. 922 45

Biological, morphological and serological properties of grapevine berry inner necrosis virus (GINV), the casual virus of grapevine berry inner necrosis disease occurring in Japan, were compared with those of several known trichoviruses. Host range and particle length of GINV were quite similar to those of apple chlorotic leaf spot trichovirus (ACLSV). In ultrathin sections of the infected tissues, GINV particles existed in aggregated masses in the cytoplasm of vascular parenchyma and mesophyll cells. No virus specific inclusion bodies, such as pinwheels, viroplasmas or vesicles were observed. Serological relationships were not found between GINV and ACLSV, grapevine virus A or grapevine virus B. The cDNAs of the 3'-terminal region of the GINV genome were synthesized from poly (A)+RNAs extracted from infected tissues by PCR-selected cDNA subtraction and 3'-RACE PCR. The sequence of the 3'-terminal 2469 nucleotides contained three open reading frames (ORF) encoding a protein with the conserved motifs of RNA polymerase (ORF1), a 39 kDa putative movement protein (ORF2) and a 22 kDa protein (ORF3). The 22 kDa protein expressed in Escherichia coli reacted with antiserum against GINV, indicating that it is the coat protein of GINV. Polymerase and coat protein amino acid sequence comparisons and phylogenetic analyses with nine species of the genera Trichovirus and Capillovirus indicated that GINV is a new trichovirus relatively close to ACLSV.
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PMID:Grapevine berry inner necrosis, a new trichovirus: comparative studies with several known trichoviruses. 926 48

The mRNA encoding the M2 protein of respiratory syncytial (RS) virus contains two open reading frames (ORFs). ORF1 encodes the 22-kDa structural protein, M2, and ORF2 has the potential to encode a 10-kDa protein (90 amino acids). Using a vaccinia virus T7 expression system, we examined the RNA synthetic activities of mono- and dicistronic subgenomic replicons of RS virus by direct metabolic labeling of RNA in the presence and absence of the products of ORF1 and ORF2. In the absence of ORF1 and ORF2, the negative- and positive-sense products of genomic RNA replication and positive-sense polyadenylated mRNA(s) were synthesized. Expression of the whole M2 transcription unit (containing ORF1 and ORF2) or ORF1 alone caused an increase in the synthesis of polyadenylated mRNA, the majority of which was due to a substantial increase in the quantity of polycistronic mRNAs generated by the polymerase failing to terminate at gene end signals. In agreement with previous reports, the ORF2 product was found to inhibit viral RNA replication and mRNA transcription. These data show that the M2 protein functions as a transcriptional antiterminator that enhances the ability of the viral RNA polymerase to read through intergenic junctions. The role of such a function during the viral life cycle is discussed.
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PMID:The product of the respiratory syncytial virus M2 gene ORF1 enhances readthrough of intergenic junctions during viral transcription. 942 Feb 54

A total of 6,226 fecal samples collected from 1980 to 1996 in the Australian states of Victoria, New South Wales, and Tasmania from individuals with gastroenteritis were tested for small round-structured viruses (SRSVs) and classical human caliciviruses (ClHuCVs) by electron microscopy. There were 223 samples positive for SRSVs, and nine positive for ClHuCVs. SRSVs were detected in individuals of all ages and were commonly associated with gastroenteritis outbreaks in nursing homes and hospitals. SRSVs were detected throughout the year, but were more common in the period from late winter to early summer in Australia (August to December). There were peaks of virus activity in the early 1980s and more recently in 1995 and 1996. Analyses by RT-PCR and sequencing of a segment of ORF1 encoding the putative RNA polymerase for SRSVs and ClHuCVs showed the presence of viruses belonging to several genogroups. Viruses of genogroup 1 (Norwalk/Southampton-like) and genogroup 3 (ClHuCVs) were relatively rare. Viruses of genogroup 2 (Snow Mountain-like) were common, and could be divided into two subgroups, one containing Toronto/Mexico-like viruses, the other Lordsdale/Camberwell-like viruses. The majority of viruses detected belonged to this latter subgroup.
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PMID:Small round-structured (Norwalk-like) viruses and classical human caliciviruses in southeastern Australia, 1980-1996. 966 41

Genomic RNA of olive latent virus 1 (OLV-1) contains five open reading frames (ORFs) encoding proteins of 23, 82, 8, 6 and 30 (CP) kDa. A full-length cDNA copy of OLV-1RNA was prepared and cloned in a low-copy-number vector (pMUC-19) downstream of or T7 RNA polymerase promoter. Transcripts derived from this template, denoted pMUC-OLV, were highly infectious when inoculated in local and systemic hosts and infected tissues contained virus-like particles. Genes required for replication and virus movement were mapped by site-directed and deletion mutogenesis of the pMUC-OLV. ORF1 and ORF2 mutants were not viable, suggesting that replication requires the 23 and 82 kDa proteins. The 8 and 6 kDa polypeptides were involved in cell-to-cell movement, since their absence did not interfere with RNA replication but prevented systemic infection of inoculated plants. Mutant clones in R and S domains of the CP gene could replicate, but they did not systemically infect Nicotiana benthamiana, indicating that the CP gene is required for OLV-1 long-distance translocation. Mutant clones with large deletions in the CP gene were not viable, probably due to loss of 3'-proximal sequences required for RNA replication.
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PMID:Synthesis of infectious transcripts of olive latent virus 1: genes required for RNA replication and virus movement. 1044 44

Porcine enteric calicivirus (PEC) is associated with diarrhea in pigs, and to date it is the only cultivable enteric calicivirus (tissue culture-adapted [TC] PEC/Cowden). Based on sequence analysis of cDNA clones and reverse transcription-PCR products, TC PEC/Cowden has an RNA genome of 7,320 bp, excluding its 3' poly(A)(+) tail. The genome is organized in two open reading frames (ORFs), similar to the organizations of the human Sapporo-like viruses (SLVs) and the lagoviruses. ORF1 encodes the polyprotein that is fused to and contiguous with the capsid protein. ORF2 at the 3' end encodes a small basic protein of 164 amino acids. Among caliciviruses, PEC has the highest amino acid sequence identities in the putative RNA polymerase (66%), 2C helicase (49.6%), 3C-like protease (43.7%), and capsid (39%) regions with the SLVs, indicating that PEC is genetically most closely related to the SLVs. The complete RNA genome of wild-type (WT) PEC/Cowden was also sequenced. Sequence comparisons revealed that the WT and TC PEC/Cowden have 100% nucleotide sequence identities in the 5' terminus, 2C helicase, ORF2, and the 3' nontranslated region. TC PEC/Cowden has one silent mutation in its protease, two amino acid changes and a silent mutation in its RNA polymerase, and five nucleotide substitutions in its capsid that result in one distant and three clustered amino acid changes and a silent mutation. These substitutions may be associated with adaptation of TC PEC/Cowden to cell culture. The cultivable PEC should be a useful model for studies of the pathogenesis, replication, and possible rescue of uncultivable human enteric caliciviruses.
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PMID:Molecular characterization of a porcine enteric calicivirus genetically related to Sapporo-like human caliciviruses. 1051 74

A virus with isometric virus particles (ca. 25 nm) was isolated from an apple tree and named Apple latent spherical virus (ALSV). Virus particles purified from infected Chenopodium quinoa formed two bands with densities of 1.41 and 1.43 g/cm(3) in CsCl equilibrium density-gradient centrifugation, indicating that the virus is composed of two components. The virus had two ssRNA species (RNA1 and RNA2) and three capsid proteins (Vp25, Vp24 and Vp20). The complete nucleotide sequences of RNA1 and RNA2 were determined to be 6815 nt and 3384 nt excluding the 3' poly(A) tail, respectively. RNA1 contains two partially overlapping ORFs encoding polypeptides of molecular mass 23 kDa ('23K'; ORF1) and 235 kDa ('235K'; ORF2); RNA2 has a single ORF encoding a polypeptide of 108 kDa ('108K'). The 235K protein has, in order, consensus motifs of the protease cofactor, the NTP-binding helicase, the cysteine protease and the RNA polymerase, in good agreement with the gene arrangement of viruses in the COMOVIRIDAE: The 108K protein contains an LPL movement protein (MP) motif near the N terminus. Direct sequencing of the N-terminal amino acids of the three capsid proteins showed that Vp25, Vp20 and Vp24 are located in this order in the C-terminal region of the 108K protein. The cleavage sites of the 108K polyprotein were Q/G (MP/Vp25 and Vp25/Vp20) and E/G (Vp20/Vp24). Phylogenetic analysis of the ALSV RNA polymerase domain showed that ALSV falls into a cluster different from the nepo-, como- and fabavirus lineages.
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PMID:Nucleotide sequence and genome organization of apple latent spherical virus: a new virus classified into the family Comoviridae. 1064 54

Genomic characterization of Norwalk-like human caliciviruses (NLVs) originating from outbreaks and sporadic cases of acute gastroenteritis has revealed surprisingly high levels of diversity, even in the RNA polymerase gene, which is anticipated to be highly conserved. Since information on antigenic relationship is limited, due to the lack of a tissue culture system for these viruses, strains mostly are described on the basis of their genetic relatedness. However, the lack of uniformly applied criteria has led to a confusing array of strains with different groups employing different names for similar genetic lineages. Our goal was to conduct a structured analysis of genomic relationships among NLV strains in an attempt to provide an interim framework for genotyping. We assembled a panel of 31 potentially distinct genogroup I (GGI) and genogroup II (GGII) NLVs that reflected the diversity seen in strains detected by our laboratories and in published sequences. Phylogenetic analysis of sequences from regions of the open reading frames (ORF) 1, 2 and 3 was performed in order to investigate genomic relationships. The strains sequenced fell into seven phylogenetic groups in GGI and at least five phylogenetic groups in GGII, based on greater than 80% nucleotide identity in the region of ORF2 encoding the N-terminus of the capsid protein, and consistent clustering with high bootstrap values irrespective of the method used. Analysis of the ORF1 and ORF3 regions supported for most strains the clustering as established for those derived from ORF2. In the ORF1 region, used by most laboratories for diagnostic RT-PCR, clustering was consistent when a putative genotype border was set at 15% nucleotide mismatches for viruses in GGI and at 10% for viruses in GGII. Two strains grouped within different clusters based on ORF1 and ORF2 indicating that recombination may have occurred. We discuss the implications of these observations for the classification and typing of NLVs.
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PMID:Genetic polymorphism across regions of the three open reading frames of "Norwalk-like viruses". 1075 50

We cloned the genome RNA of the Chiba virus (ChV; Hu/NLV/Chiba 407/1987/JP) and determined its complete nucleotide sequence. The genome is predicted to be a positive-sense, single-stranded RNA of 7697 bases, excluding a poly(A) tract. Comparison of the nucleotide and amino acid sequences with those of other members of the species Norwalk virus (NV) revealed that ChV belongs to genogroup I NV. The ChV genome contains three open reading frames (ORFs). A large 5'-terminal ORF (ORF1) encodes a polyprotein with 1785 amino acids that are likely processed into functional proteins, including RNA helicase, VPg, protease, and RNA-dependent RNA polymerase. ORF2 encodes the capsid protein with 544 amino acids, and a small 3'-terminal ORF (ORF3) encodes a basic protein with 208 amino acids. The amino acid sequences of five cleavage sites in ORF1 are highly conserved compared with those of other members of NV. When expressed in Escherichia coli, the glutathione-S-transferase (GST) fusion protein of the ChV protease connected via a short peptide containing a human rhinovirus 3C protease cleavage site was cleaved into GST and the protease; however, this cleavage did not occur when the Cys mutation was introduced into the putative active site of the protease. Moreover, the ChV protease recognized and cleaved the predicted proteolytic sites between VPg and protease and between protease and RNA polymerase. Therefore, the ChV protease expressed in E. coli retained an enzymatic activity and a substrate specificity similar to that of the human rhinovirus 3C protease.
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PMID:Complete nucleotide sequence of the chiba virus genome and functional expression of the 3C-like protease in Escherichia coli. 1111 71


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