Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.7 (DNA polymerase)
 17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report here a novel DQA1 allele (DQA1*0106) identified during sequence-based HLA-DQA1 typing. Polymerase chain reaction with proofreading pfu DNA polymerase and subsequent sequencing yielded identical results as that with Taq DNA polymerase. Molecular cloning and sequencing confirmed that the new DQA1 allele is identical to DQA1*01021/2 at exon 2 except for a single nucleotide substitution (ACT-->GCT), changing codon 44 from Thr to Ala. This is the first report of polymorphism at codon 44 of HLA-DQA1 alleles.
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PMID:Identification of a novel HLA-DQA1 allele (DQA1*0106) by sequence-based DQA1 typing. 1039 13

During more than 104 weeks of treatment with lamivudine (3TC) in chronic woodchuck hepatitis virus (WHV) carrier woodchucks, viral recrudescence occurred. Analysis of WHV DNA polymerase from woodchuck serum samples by PCR followed by DNA sequencing demonstrated that all samples were wild type at the conserved YMDD motif in domain C. Four of the six 3TC-treated woodchucks showed a mixture of the wild-type Ala (GCT) and the mutant Thr (ACT) at the conserved amino acid residue 566 (FLLA) in domain B of the WHV polymerase region. The appearance of the A566T mutation was temporally associated with viral recrudescence. This change is analogous with the amino acid 181 (FLLA) in HBV where 3TC selects for a change from Ala to Thr in humans. In the woodchuck, the Ala to Thr change in the polymerase gene results in a mutation of the WHV surface protein (amino acid 377) from Trp (TGG) to an opal codon (TGA), which may prematurely terminates the polypeptide. Three WHV molecular infectious clones were constructed to study this mutation in greater detail in vitro: A566T, analogous to A181T in HBV; M589V, analogous to the M204V in HBV; and the double mutant A566T/M589V, analogous to A181T/M204V in HBV. These mutants exhibited drug-sensitivity and replication profiles that paralleled those reported for analogous HBV variants. In transfected Huh7 cells, WHV containing the M589V mutation conferred at least 100-fold increased resistance to 3TC, but replicated approximately 5-fold less efficiently than wild-type virus as judged by both extracellular virus production and intracellular DNA replicative forms. In contrast, A566T mutant was approximately 10-fold more resistant to 3TC, replicated intracellularly as well as wild type, but produced 10-fold lower levels of virions than wild type. These findings are consistent with the observation that the A566T mutation alters the overlapping WHV surface antigen reading frame. WHV carrying mutations in the conserved YMDD motif, while not directly selected during lamivudine therapy in WHV carrier woodchucks, are replication competent in cell culture indicating the potential for their emergence in treated animals. These results further illustrate the utility of the WHV/woodchuck model to studies of HBV-drug resistance.
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PMID:Mutations in the conserved woodchuck hepatitis virus polymerase FLLA and YMDD regions conferring resistance to lamivudine. 1207 58

The structural changes produced by the minor-groove binding ligand DAPI (4',6-diamidine-2-phenylindole) on individual strands of trinucleotide repeat sequences were detected by electrophoretic band-shift analysis and related to their effects on DNA replication in vitro. Among the 20 possible single-stranded trinucleotide repeats, only the T-rich strand of the AAT.ATT triplet exhibits an observable fluorescence band and a change in electrophoretic mobility due to the drug binding. This is attributable to the property of DAPI that favours folding of the random coil ATT strand into a fast-migrating hairpin structure by a minor-groove binding mechanism. Electrophoretic characteristics of AAT, ACT, AGT, ATG and ATC are unchanged by DAPI, suggesting the crucial role of T.T with respect to A.A, C.C and G.G mismatch, in favouring the binding properties and the structural features of the ATT-DAPI complexes. Primer extension experiments, using the Klenow fragment of DNA polymerase I, demonstrate that such a selective structural change at ATT targets presents a marked property to stall DNA replication in vitro in comparison with the complementary AAT and a random GC-rich sequence. The results suggest a novel molecular mechanism of action of the DNA minor-groove binding ligand DAPI.
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PMID:Interaction of DAPI with individual strands of trinucleotide repeats. Effects of replication in vitro of the AAT x ATT triplet. 1462 64