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)

Diacylglycerol kinase (DGK) plays an important role in signal transduction through modulating the balance between two signaling lipids, diacylglycerol and phosphatidic acid. Here we identified a tenth member of the DGK family designated DGK kappa. The kappa-isozyme (1271 amino acids, calculated molecular mass, 142 kDa) contains a pleckstrin homology domain, two cysteine-rich zinc finger-like structures, and a separated catalytic region as have been found commonly for the type II isozymes previously cloned (DGKdelta and DGKeta). The new DGK isozyme has additionally 33 tandem repeats of Glu-Pro-Ala-Pro at the N terminus. Reverse transcriptase-PCR showed that the DGK kappa mRNA is most abundant in the testis, and to a lesser extent in the placenta. DGK kappa, when expressed in HEK293 cells, was persistently localized at the plasma membrane even in the absence of cell stimuli. Deletion analysis revealed that the short C-terminal sequence (amino acid residues 1199-1268) is necessary and sufficient for the plasma membrane localization. Interestingly, DGK kappa, but not other type II DGKs, was specifically tyrosine-phosphorylated at Tyr78 through the Src family kinase pathway in H2O2-treated cells. Moreover, H2O2 selectively inhibited DGK kappa activity in a Src family kinase-independent manner, suggesting that the isozyme changes the balance of signaling lipids in the plasma membrane in response to oxidative stress. The expression patterns, subcellular distribution, and regulatory mechanisms of DGK kappa are distinct from those of DGKdelta and DGKeta despite high structural similarity, suggesting unique functions of the individual type II isozymes.
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PMID:Identification and characterization of a novel human type II diacylglycerol kinase, DGK kappa. 1621 Mar 24

We previously reported that nucleolin, a representative nucleolar marker, interacts with nonstructural protein 5B (NS5B) of hepatitis C virus (HCV) through two independent regions of NS5B, amino acids 208 to 214 and 500 to 506. We also showed that truncated nucleolin that harbors the NS5B-binding region inhibited the RNA-dependent RNA polymerase activity of NS5B in vitro, suggesting that nucleolin may be involved in HCV replication. To address this question, we focused on NS5B amino acids 208 to 214. We constructed one alanine-substituted clustered mutant (CM) replicon, in which all the amino acids in this region were changed to alanine, as well as seven different point mutant (PM) replicons, each of which harbored an alanine substitution at one of the amino acids in the region. After transfection into Huh7 cells, the CM replicon and the PM replicon containing NS5B W208A could not replicate, whereas the remaining PM replicons were able to replicate. In vivo immunoprecipitation also showed that the W208 residue of NS5B was essential for its interaction with nucleolin, strongly suggesting that this interaction is essential for HCV replication. To gain further insight into the role of nucleolin in HCV replication, we utilized the small interfering RNA (siRNA) technique to investigate the knockdown effect of nucleolin on HCV replication. Cotransfection of replicon RNA and nucleolin siRNA into Huh7 cells moderately inhibited HCV replication, although suppression of nucleolin did not affect cell proliferation. Taken together, our findings strongly suggest that nucleolin is a host component that interacts with HCV NS5B and is indispensable for HCV replication.
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PMID:Effect of hepatitis C virus (HCV) NS5B-nucleolin interaction on HCV replication with HCV subgenomic replicon. 1653

The RNA-dependent RNA polymerase of influenza virus is a heterotrimer formed by the PB1, PB2, and PA subunits. Although PA is known to be required for polymerase activity, its precise role is still unclear. Here, we investigated the function of the N-terminal region of PA. Protease digestion of purified recombinant influenza virus A/PR/8/34 PA initially suggested that its N-terminal region is folded into a 25-kDa domain. We then systematically introduced point mutations into evolutionarily conserved amino acids in the N-terminal region of influenza virus A/WSN/33. Most alanine-scanning mutations between residues L109 and F117 caused PA degradation, mediated by a proteasome-ubiquitin pathway, and as a consequence interfered with polymerase activity. Three further PA mutations, K102A, D108A, and K134A, were investigated in detail. Mutation K102A caused a general decrease both in transcription and replication in vivo, whereas mutations D108A and K134A selectively inhibited transcription. Both the D108A and K134A mutations completely inhibited endonuclease activity in vitro, explaining their selective defect in transcription. K102A, on the other hand, resulted in a significant decrease in both cap binding and viral RNA promoter-binding activity and consequently inhibited both transcription and replication. These results suggest that the N-terminal region of PA is involved in multiple functions of the polymerase, including protein stability, endonuclease activity, cap binding, and promoter binding.
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PMID:Amino acid residues in the N-terminal region of the PA subunit of influenza A virus RNA polymerase play a critical role in protein stability, endonuclease activity, cap binding, and virion RNA promoter binding. 1687 36

Burkholderia cenocepacia, a member of the B. cepacia complex, is an opportunistic pathogen that causes serious infections in patients with cystic fibrosis. We identified a six-gene cluster in chromosome 1 encoding a two-component regulatory system (BCAL2831 and BCAL2830) and an HtrA protease (BCAL2829) hypothesized to play a role in the B. cenocepacia stress response. Reverse transcriptase PCR analysis of these six genes confirmed they are cotranscribed and comprise an operon. Genes in this operon, including htrA, were insertionally inactivated by recombination with a newly created suicide plasmid, pGPOmegaTp. Genetic analyses and complementation studies revealed that HtrA(BCAL2829) was required for growth of B. cenocepacia upon exposure to osmotic stress (NaCl or KCl) and thermal stress (44 degrees C). In addition, replacement of the serine residue in the active site with alanine (S245A) and deletion of the HtrA(BCAL2829) PDZ domains demonstrated that these areas are required for protein function. HtrA(BCAL2829) also localizes to the periplasmic compartment, as shown by Western blot analysis and a colicin V reporter assay. Using the rat agar bead model of chronic lung infection, we also demonstrated that inactivation of the htrA gene is associated with a bacterial survival defect in vivo. Together, our data demonstrate that HtrA(BCAL2829) is a virulence factor in B. cenocepacia.
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PMID:Burkholderia cenocepacia requires a periplasmic HtrA protease for growth under thermal and osmotic stress and for survival in vivo. 1722 Mar 10

The phosphoprotein P of Borna disease virus (BDV) is an essential cofactor of the viral RNA-dependent RNA polymerase. It is preferentially phosphorylated at serine residues 26 and 28 by protein kinase C epsilon (PKCepsilon) and, to a lesser extent, at serine residues 70 and 86 by casein kinase II (CKII). To determine whether P phosphorylation is required for viral polymerase activity, we generated P mutants lacking either the PKCepsilon or the CKII phosphate acceptor sites by replacing the corresponding serine residues with alanine (A). Alternatively, these sites were replaced by aspartic acid (D) to mimic phosphorylation. Functional characterization of the various mutants in the BDV minireplicon assay revealed that D substitutions at the CKII sites inhibited the polymerase-supporting activity of P, while A substitutions maintained wild-type activity. Likewise, D substitutions at the PKC sites did not impair the cofactor function of BDV-P, whereas A substitutions at these sites led to increased activity. Interestingly, recombinant viruses could be rescued only when P mutants with modified PKCepsilon sites were used but not when both CKII sites were altered. PKCepsilon mutant viruses showed a reduced capacity to spread in cell culture, while viral RNA and protein expression levels in persistently infected cells were almost normal. Further mutational analyses revealed that substitutions at individual CKII sites were, with the exception of a substitution of A for S86, detrimental for viral rescue. These data demonstrate that, in contrast to other viral P proteins, the cofactor activity of BDV-P is negatively regulated by phosphorylation.
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PMID:Functional characterization of the major and minor phosphorylation sites of the P protein of Borna disease virus. 1737 20

Replication of picornavirus genomes is accomplished by the virally encoded RNA-dependent RNA polymerase (RdRP). Although the primary structure of this enzyme exhibits a high level of conservation, there are several significant differences among different picornavirus genera. In particular, a comparative alignment indicates that the C-terminal sequences of cardiovirus RdRP (known also as 3D(pol)), are 1-amino-acid residue (arginine or tryptophan) longer than that of the enterovirus or rhinovirus enzymes. Here, it is shown that alterations of the last codon of the RdRP-encoding sequence of mengovirus RNA leading to deletion of the C-terminal Trp460 or its replacement by Ala or Phe dramatically impaired viral RNA replication and, in the former case, resulted in a quasi-infectious phenotype (i.e., the mutant RNA might generate a low yield of pseudorevertants acquiring a Tyr residue in place of the deleted Trp460). The replacement of Trp460 by His or Tyr did not appreciably alter the viral growth potential. Homology modeling of three-dimensional structure of mengovirus RdRP suggested that Trp460 may be involved in interaction between the thumb and palm domains of the enzyme. Specifically, Trp460 of the thumb may form a hydrogen bond with Thr219 and hydrophobically interact with Val216 of the palm. The proposed interactions were consistent with the results of in vivo SELEX experiment, which demonstrated that infectious virus could contain Ser or Thr at position 219 and hydrophobic Val, Leu, Ile, as well as Arg (whose side chain has a nonpolar part) at position 216. A similar thumb-palm domain interaction may be a general feature of several RdRPs and its possible functional significance is discussed.
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PMID:Significance of the C-terminal amino acid residue in mengovirus RNA-dependent RNA polymerase. 1746 26

Haemophilus parasuis is an important opportunistic pathogen in swine of high health status, but to date no proven virulence factors have been described. As virulence factors are known to be regulated during disease, the objective of this study was to identify genes of a virulent serovar 5 strain with altered expression after iron restriction or in the presence of porcine cerebrospinal fluid (CSF), conditions that reflect in vivo growth conditions. Using differential-display reverse-transcriptase-mediated polymerase chain reaction, we found that homologues of genes encoding fructose bisphosphate aldolase (fba), adenylosuccinate synthetase (purA), 2',3'-cyclic nucleotide phosphodiesterase (cpdB), lipoprotein signal peptidase (lspA), pyrophosphate reductase (lytB), superoxide dismutase (sodC), tyrosyl t-RNA synthetase (tyrS), cysteine synthetase (cysK), an unknown protein, and a homologue of a hydrolase of the haloacid dehydrogenase superfamily were upregulated in response to iron restriction. In addition, the purA, cpdB, lspA, lytB, and sodC homologues, cDNAs homologous with a Na+/alanine symporter, fatty acid ligase (fadD), diadenosine tetraphosphatase (apaH), and an unknown protein were upregulated in response to CSF. In screening for the presence of these differentially expressed genes to assess their usefulness as diagnostic markers of high virulence potential, we detected homologues of all of these genes in all of the reference strains of the 15 established serovars. The hydrolase homologue, however, was expressed only in representative H. parasuis strains associated with a high virulence potential, suggesting that this enzyme may play a role in pathogenesis.
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PMID:Differential expression of Haemophilus parasuis genes in response to iron restriction and cerebrospinal fluid. 1769 92

Segment B of bisegmented infectious bursal disease virus (IBDV) encodes virus protein 1 (VP1), possessing RNA-dependent RNA polymerase (RdRp) activity. This multidomain protein includes an RdRp domain with a non-canonical order of three sequence motifs forming the active site: C-A-B. The A-B-C order of the motifs, as found in RdRps of the majority of viruses, was converted by relocation (permutation) of motif C to a C-A-B order. Due to the unusual location and unproven significance, the motif was named 'C?'. This motif includes an Ala-Asp-Asn tripeptide that replaces the C motif Gly-Asp-Asp sequence, widely considered a hallmark of RdRps. In this study, functional significance of the C? motif was investigated by using purified His-tagged VP1 mutants with either a double replacement (ADN to GDD) or two single-site mutants (ADD or GDN). All mutants showed a significant reduction of RdRp activity in vitro, in comparison to that of VP1. Only the least-affected GDN mutant gave rise to viable, albeit partially impaired, progeny using a reverse-genetics system. Experiments performed to investigate whether the C motif was implicated in the control of metal dependence revealed that, compared with Mn2+ and Mg2+, Co2+ stimulated RdRp unconventionally. No activity was observed in the presence of several divalent cations. Of two Co2+ salts with Cl- and SO4(2-) anions, the former was a stronger stimulant for RdRp. When cell-culture medium was supplemented with 50 microM Co2+, an increase in IBDV progeny yield was observed. The obtained results provide evidence that the unusual Co2+ dependence of the IBDV RdRp might be linked to the permuted organization of the motif.
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PMID:Evidence for functional significance of the permuted C motif in Co2+-stimulated RNA-dependent RNA polymerase of infectious bursal disease virus. 1787 36

Picornaviruses have a peptide termed VPg covalently linked to the 5'-end of the genome. Attachment of VPg to the genome occurs in at least two steps. First, Tyr-3 of VPg, or some precursor thereof, is used as a primer by the viral RNA-dependent RNA polymerase, 3Dpol, to produce VPg-pUpU. Second, VPg-pUpU is used as a primer to produce full-length genomic RNA. Production of VPg-pUpU is templated by a single adenylate residue located in the loop of an RNA stem-loop structure termed oriI by using a slide-back mechanism. Recruitment of 3Dpol to and its stability on oriI have been suggested to require an interaction between the back of the thumb subdomain of 3Dpol and an undefined region of the 3C domain of viral protein 3CD. We have performed surface acidic-to-alanine-scanning mutagenesis of 3C to identify the surface of 3C with which 3Dpol interacts. This analysis identified numerous viable poliovirus mutants with reduced growth kinetics that correlated to reduced kinetics of RNA synthesis that was attributable to a change in VPg-pUpU production. Importantly, these 3C derivatives were all capable of binding to oriI as well as wild-type 3C. Synthetic lethality was observed for these mutants when placed in the context of a poliovirus mutant containing 3Dpol-R455A, a residue on the back of the thumb required for VPg uridylylation. These data were used to guide molecular docking of the structures for a poliovirus 3C dimer and 3Dpol, leading to a structural model for the 3C(2)-3Dpol complex that extrapolates well to all picornaviruses.
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PMID:Picornavirus genome replication. Identification of the surface of the poliovirus (PV) 3C dimer that interacts with PV 3Dpol during VPg uridylylation and construction of a structural model for the PV 3C2-3Dpol complex. 1799 57

In this study, a putative N-acetylmuramyl-l-alanine amidase gene (bb0666) was identified in the genome of the Lyme disease spirochete Borrelia burgdorferi. This protein shares c. 30% identity with its counterparts from other bacteria. Reverse transcriptase-PCR analysis showed that bb0666 along with two other genes (bb0665 and bb0667) are cotranscribed with the motility and chemotaxis genes. This newly identified operon is termed as pami. Sequence and primer extension analyses showed that pami was regulated by a sigma(70)-like promoter, which is designated as P(ami). Transcriptional analysis using a gene encoding green fluorescence protein as a reporter demonstrated that P(ami) functions in both Escherichia coli and B. burgdorferi. Genetic studies showed that the Deltabb0666 mutant grows in long chains of unseparated cells, whose phenotype is similar to its counterparts in E. coli. Taken together, these results demonstrate that bb0666 is a homolog of MurNac-LAAs that contributes to the cell division of B. burgdorferi.
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PMID:Transcription and genetic analyses of a putative N-acetylmuramyl-L-alanine amidase in Borrelia burgdorferi. 1902 70


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