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)

We report on an adult patient with de novo acute myeloid leukemia (AML) with a t(11;22)(q23;q11.2) involving CDCREL1 and MLL genes. Reverse transcriptase (RT)-polymerase chain reaction (PCR) followed by direct sequencing analysis revealed the MLL-CDCREL1 fusion transcript in his leukemic cells. Analysis of the fusion transcript showed that exon 6 of MLL was fused to exon 4 of CDCREL1, which contains an AT-hook domain of MLL and a GTP binding domain of CDCREL1. To investigate the roles of CDCREL1 further, we examined the expression of the CDCREL1 gene in various cell lines. Expression of CDCREL1 was detected in 11 (85%) of 13 AML cell lines and 3 (21%) of 14 acute lymphoblastic leukemia (ALL) cell lines, but none of 11 EB virus transformed B-cell lines by RT-PCR. The expression rate of CDCREL1 was significantly higher in AML cell lines than in ALL cell lines (P = 0.0035). Platelet glycoprotein 1B beta (GP1B beta), which is located downstream of CDCREL1 and is cotranscribed with CDCREL1 due to a nonconsensus polyadenylation sequence, was expressed in all these cell lines. The higher expression rate of CDCREL1 in AML cell lines than in ALL cell lines suggests that this gene may play some role in myeloid leukemogenesis.
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PMID:The CDCREL1 gene fused to MLL in de novo acute myeloid leukemia with t(11;22)(q23;q11.2) and its frequent expression in myeloid leukemia cell lines. 1117 Feb 79

Although K-ras is mutated in many human and mouse lung adenocarcinomas, the function of K-ras p21 in lung is not known. We sought evidence for the prevalent hypothesis that K-ras p21 activates raf, which in turn passes the signal through the extracellular signal regulated kinases (Erks) to stimulate cell division, and that this pathway is upregulated when K-ras is mutated. Results from both mouse lung tumors and immortalized cultured E10 and C10 lung type II cells failed to substantiate this hypothesis. Lung tumors did not have more total K-ras p21 or K-ras p21 GTP than normal lung tissue, nor were high levels of these proteins found in tumors with mutant K-ras. Activated K-ras p21-GTP levels did not correlate with proliferating cell nuclear antigen. Special features of tumors with mutant K-ras included small size of carcinomas compared with carcinomas lacking this mutation, and correlation of proliferating cell nuclear antigen with raf-1. In nontransformed type II cells in culture, both total and activated K-ras p21 increased markedly at confluence but not after serum stimulation, whereas both Erk1/2 and the protein kinase Akt were rapidly activated by the serum treatment. Reverse transcriptase-polymerase chain reaction (RT-PCR) assays of K-ras mRNA indicated an increase in confluent and especially in postconfluent cells. Together the findings indicate that normal K-ras p21 activity is associated with growth arrest of lung type II cells, and that the exact contribution of mutated K-ras p21 to tumor development remains to be discovered.
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PMID:K-ras p21 expression and activity in lung and lung tumors. 1119 63

The 3'-terminal tRNA-like structure in turnip yellow mosaic virus (TYMV) RNA can be adenylated by tRNA nucleotidyltransferase and subsequently aminoacylated by valyl-tRNA synthetase. Here we present evidence that TYMV Val-RNA can form a stable complex with eukaryotic wheat germ elongation factor EF-1alpha and GTP: the Val-RNA is protected by EF-1alpha.. GTP against digestion by RNase A. By affinity chromatography of TYMV Val-RNA fragments on immobilized EF-1alpha . GTP, it has been established that the valylated aminoacyl RNA domain, which in TYMV RNA is formed by the 3' half of the tRNA-like region, is sufficient for complex formation with EF-1alpha . GTP. The aminoacyl RNA domain is equivalent in tRNAs to the continuous helix formed by the acceptor stem and the T stem and loop. In line with these results, the aminoacyl RNA domain in TYMV Val-RNA complexed to EF-1 alpha . GTP is resistant to digestion by RNase A. It is also shown that the TYMV RNA replicase (RNA-dependent RNA polymerase) isolated from TYMV-infected Chinese cabbage leaves does not contain tRNA nucleotidyltransferase, valyl-tRNA synthetase or EF-1alpha. This suggests that interaction of TYMV RNA with EF-1alpha is not mandatory for replicase activity.
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PMID:Interaction of turnip yellow mosaic virus Val-RNA with eukaryotic elongation factor EF-1 [alpha]. Search for a function. 1168 31

The plant-specific Rop family GTPases are versatile molecular switches in many processes during plant growth, development, and responses to the environment. To understand how Rop achieves its functional versatility in signaling, we performed a genome-wide identification of putative Rop targets using a combination of the yeast two-hybrid method, bioinformatic tools, and a robust functional assay in pollen. In this study, we have identified 11 Arabidopsis genes encoding novel proteins, termed RICs (for Rop-interactive CRIB motif-containing proteins), that contain a CRIB (for Cdc42/Rac-interactive binding) motif required for their specific interaction with GTP-bound Rop1. RICs are divergent and classified into five groups that share little sequence homology outside of the conserved Rop-interactive domain. Overexpression in tobacco pollen tubes of the nine Ric genes that are expressed in Arabidopsis pollen causes distinct phenotypes, implying distinct functions for various RICs. RIC3 (group III) and RIC4 (group V) both cause depolarized growth like Rop1 and display Rop1-enhanced localization to the tip of pollen tubes, suggesting that these RICs may be two distinct targets of Rop1. In contrast, RIC10 (group I) promotes pollen tube elongation but does not affect pollen tube growth polarity and shows Rop1-independent localization to the cytoplasm, suggesting that RIC10 may participate in a Rop1-independent pathway probably controlled by a different Rop. Expression of all other RICs causes various degrees of growth inhibition in pollen tubes. Furthermore, these inhibitory RICs also exhibit distinct patterns of localization in pollen tubes. Our results suggest that various RICs have evolved to interact with Rops differentially and to perform distinct functions in pollen tubes. Reverse transcriptase-mediated polymerase chain reaction analysis showed that six of the nine RICs are expressed in various parts of Arabidopsis plants. On the basis of these observations, we propose that RICs function as Rop GTPase targets that control various Rop-dependent signaling pathways in plants.
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PMID:A genome-wide analysis of Arabidopsis Rop-interactive CRIB motif-containing proteins that act as Rop GTPase targets. 1175 91

The biochemical properties of hepatitis C virus (HCV) RNA-dependent RNA polymerase (RdRp) truncated with C-terminal 21 amino acids and expressed in insect cells were analyzed. The enzyme carried copy-back and de novo RNA synthesis activity but not terminal nucleotidyl transferase activity. k(pol) and K(m) for de novo RNA synthesis were calculated as 10.0 pmol/microg/h and 2.5 microM under 0.5 mM GTP and 2.0 pmol/microg/h and 3.5 microM under 50 microM GTP, respectively. Those for copy-back RNA synthesis were similar under both conditions (k(pol), 1.8 pmol/microg/h; K(m), 3.0 microM). De novo RNA synthesis was activated by 0.5 mM GTP. However, the ratio of GTP to three other NTPs was important for activation. Our HCV RdRp showed high activity for the complementary sequence of the HCV internal ribosomal entry site and a synergistic effect of Mg(2+) to Mn(2+).
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PMID:Kinetic analysis of C-terminally truncated RNA-dependent RNA polymerase of hepatitis C virus. 1181 88

The 94-kDa virion-associated RNA-dependent RNA polymerase (RdRp) is present in infectious pancreatic necrosis virus in two forms: (i) as a free polypeptide (VP1) and (ii) as a genome linked protein (VPg) (J. G. Calvert et al., 1991, J. Gen. Virol. 72, 2563-2567). VP1 was guanylylated in vitro by incubating purified virus in the presence of [alpha2P]GTP. During further incubation in an in vitro RNA polymerase reaction mixture (in the presence of unlabeled GTP), the radiolabeled VP1-pG complex was "chased" via nascent RNA strands and replicative intermediates to a VP1-dsRNA complex. Labeled VP1-pG was recovered from the intermediate as well as from the final reaction products by digestion with RNase A and RNase V1, a dsRNA-specific nuclease. Analysis of the reaction products indicated that only the plus strands of the two genome segments were being synthesized in vitro which remained base-paired to their templates. The results suggest that in vitro transcription by the virion RdRp is primed by VP1 and then proceeds via an asymmetric, semiconservative, strand-displacement mechanism.
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PMID:Protein-primed RNA synthesis in vitro by the virion-associated RNA polymerase of infectious pancreatic necrosis virus. 1183

We have cloned and characterized the Drosophila X virus (DXV) genome segment B and its encoded VP1, the putative RNA-dependent RNA polymerase (RdRp) present in the virion. The 2991-bp open reading frame encodes the largest birnavirus VP1 at 977 aa, with a calculated M(r) of 112.8 kDa. As with the VP1 proteins of the type species of the other two genera in the family Birnaviridae, namely, infectious pancreatic necrosis virus (genus Aquabirnavirus) and infectious bursal disease virus (genus Avibirnavirus), the DXV (genus Entomobirnavirus) VP1 protein contains a consensus GTP-binding site and appears to possess self-guanylylation activity. All of the birnavirus VP1 proteins contain conserved RdRp motifs that reside in the catalytic "palm" domain of all classes of polymerases. However, the birnavirus RdRps lack the highly conserved Gly-Asp-Asp (GDD) sequence, a component of the proposed catalytic site of this enzyme family that exists in the conserved motif VI of the palm domain of other RdRps. All three birnavirus RdRps do contain downstream DD motifs that could function as part of the catalytic triad. These motifs are, however, located in spatially distinct regions of the various birnavirus VP1 proteins. These results suggest that the VP1 proteins of birnaviruses form a defined subgroup of polymerases that either are lacking the conserved RdRp motif VI or have repositioned this motif to different structural regions.
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PMID:Birnavirus VP1 proteins form a distinct subgroup of RNA-dependent RNA polymerases lacking a GDD motif. 1206 23

The hepatitis C virus (HCV) NS5B protein encodes an RNA-dependent RNA polymerase (RdRp), the primary catalytic enzyme of the HCV replicase complex. We established a biochemical RNA synthesis assay, using purified recombinant NS5B lacking the C-terminal 21 amino acid residues, to identify potential polymerase inhibitors from a high throughput screen of the GlaxoSmithKline proprietary compound collection. The benzo-1,2,4-thiadiazine compound 1 was found to be a potent, highly specific inhibitor of NS5B. This agent interacts directly with the viral polymerase and inhibits RNA synthesis in a manner noncompetitive with respect to GTP. Furthermore, in the absence of an in vitro-reconstituted HCV replicase assay employing viral and host proteins, the ability of compound 1 to inhibit NS5B-directed viral RNA replication was determined using the Huh7 cell-based HCV replicon system. Compound 1 reduced viral RNA in replicon cells with an IC(50) of approximately 0.5 microm, suggesting that the inhibitor was able to access the perinuclear membrane and inhibit the polymerase activity in the context of a replicase complex. Preliminary structure-activity studies on compound 1 led to the identification of a modified inhibitor, compound 4, showing an improvement in both biochemical and cell-based potency. Lastly, data are presented suggesting that these compounds interfere with the formation of negative and positive strand progeny RNA by a similar mode of action. Investigations are ongoing to assess the potential utility of such agents in the treatment of chronic HCV disease.
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PMID:Identification and biological characterization of heterocyclic inhibitors of the hepatitis C virus RNA-dependent RNA polymerase. 1216 42

The complete nucleotide sequences of genomic segments S1 to S6 from Dendrolimus punctatus cypovirus 1 (DpCPV-1) have been determined. Each segment of S1 to S6 possess a single open reading frame. Conserved motifs 5' (AGUAA) and 3'(GUUAGCC) were found at the ends of each segment. Comparison of the proteins of DpCPV with those of other members in the family Reoviridae lead us to suggest that S1, S3, S4 and S6 encode the viral structural protein VP1, VP2, VP3 and VP4, respectively. S5 encoded viral non-structural protein p100 and S2 encodes an RNA-dependent RNA polymerase (RdRp). Motif analysis shows that VP3 is similar to the methyltransferase of Methanosarcina mazei Goe1, VP4 has motifs for leucine zipper and ATP/GTP-binding sites, and p100 is remarkably similar to foot-and-mouth disease virus 2A protease (FMDV 2Apro). Phylogenetic analysis of RdRps from nine viruses of the family Reoviridae indicates that DpCPV is a type 1 cypovirus, more related to Bombyx mori cypovirus (BmCPV) than to other cypovirus species. DpCPV is more related to Rice ragged stunt virus (RRSV) than to other members of different genera of the family Reoviridae, which seems to confirm the previous hypothesis that plant reoviruses originated from insect reoviruses.
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PMID:Genomic sequence analyses of segments 1 to 6 of Dendrolimus punctatus cytoplasmic polyhedrosis virus. 1282 65

The hepatitis C virus (HCV) RNA-dependent RNA polymerase (RdRp) initiates RNA synthesis in vivo by a de novo mechanism. In vitro, however, the HCV RdRp can initiate de novo or extend from a primed template. A novel beta-loop near the RdRp active site was previously found to prevent the use of primed templates. We found that, in addition to the beta-loop, the C-terminal tail of the HCV RdRp and the de novo initiation GTP are required to exclude the use of primed-templates. GTP binding to the NTPi site of the HCV RdRp orchestrates the participation of other structures. The interactions of the beta-loop, C-terminal tail, and GTP provide an elegant solution to ensure de novo initiation of HCV RNA synthesis.
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PMID:Multiple interactions within the hepatitis C virus RNA polymerase repress primer-dependent RNA synthesis. 1285 Jan 39


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