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)

The 31mer 5'-TCA ACG CTA GAA TTC GGA TCC ATC GCT TGG T, the complementary 33mer 5'-CCA AGC GAT GGA TCC GAA TTC TAG CGT TGA GAT, the 40mer 5'-GGC CAG GAT GGT GAA GAA TTC GAT CCG GTA CGT AGC TAA G, and the complementary 42mer 5'-TAC TTA GCT ACG TAC CGG ATC GAA TTC TTC ACC ATC CTG GCC were synthesized and their reactivity towards EcoRI was studied. It was found that the 31mer and the 40mer were cleaved at a comparable rate to the 31mer-33mer hybrid and the 40mer-42mer hybrid, respectively. The rate of cleavage of the 33mer and the 42mer was an order of magnitude lower. To rule out possible intermolecular duplex formation, the 33mer was immobilized on cellulose by ligation and labeled with alpha 32P-dCTP using Klenow fragment of E. coli DNA polymerase. EcoRI cleaved this immobilized oligomer into specific fragments.
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PMID:Cleavage of single stranded oligonucleotides by EcoRI restriction endonuclease. 302 89

Several neuromuscular and neurodegenerative diseases are caused by genetically unstable triplet repeat sequences (CTG.CAG, CGG.CCG, or AAG.CTT) in or near the responsible genes. We implemented novel cloning strategies with chemically synthesized oligonucleotides to clone seven of the triplet repeat sequences (GTA.TAC, GAT.ATC, GTT.AAC, CAC.GTG, AGG.CCT, TCG.CGA, and AAG.CTT), and the adjoining paper (Ohshima, K., Kang, S., Larson, J. E., and Wells, R. D.(1996) J. Biol. Chem. 271, 16784-16791) describes studies on TTA.TAA. This approach in conjunction with in vivo expansion studies in Escherichia coli enabled the preparation of at least 81 plasmids containing the repeat sequences with lengths of approximately 16 up to 158 triplets in both orientations with varying extents of polymorphisms. The inserts were characterized by DNA sequencing as well as DNA polymerase pausings, two-dimensional agarose gel electrophoresis, and chemical probe analyses to evaluate the capacity to adopt negative supercoil induced non-B DNA conformations. AAG.CTT and AGG.CCT form intramolecular triplexes, and the other five repeat sequences do not form any previously characterized non-B structures. However, long tracts of TCG.CGA showed strong inhibition of DNA synthesis at specific loci in the repeats as seen in the cases of CTG.CAG and CGG.CCG (Kang, S., Ohshima, K., Shimizu, M., Amirhaeri, S., and Wells, R. D.(1995) J. Biol. Chem. 270, 27014-27021). This work along with other studies (Wells, R. D.(1996) J. Biol. Chem. 271, 2875-2878) on CTG.CAG, CGG.CCG, and TTA.TAA makes available long inserts of all 10 triplet repeat sequences for a variety of physical, molecular biological, genetic, and medical investigations. A model to explain the reduction in mRNA abundance in Friedreich's ataxia based on intermolecular triplex formation is proposed.
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PMID:Cloning, characterization, and properties of seven triplet repeat DNA sequences. 866 77

We described a method for PCR amplification of unknown flanking genomic DNA fragments. This method is a combination of PCR with "end-trimming method" and "cassettes and cassette-primers method". In this method, genomic DNA was digested with three different groups of restriction enzymes. DNA in group 1 was digested with BamHI, BglII, FbaI, or MboI. DNA in group 2 was digested with BlnI, NheI, SpeI, or XbaI. DNA in group 3 was digested with SalI or XhoI. Digested DNA in each group was end-trimmed with Klenow fragment of DNA polymerase I in the presence of only one dNTP; dGTP, dCTP, and dTTP for group 1, 2, and 3, respectively. The synthesized cassettes, C1, C2, and C3, had 5'protruding sequences of 5'-ATC-3',5'-TAG-3', and 5'-CGA-3', respectively. Each compatible cassette was ligated to the end-trimmed DNAs in group 1-3, respectively. Nested PCR was then performed using an end-trimmed and cassette-ligated DNA as a template. Primers annealing to known sequences and cassettes were used for the nested PCR. The amplified DNA fragments were electrophoresed on a polyacrylamide gel and purified. The sequences of the DNA fragments were determined after cloning into pBluescript.
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PMID:PCR with end trimming and cassette ligation: a rapid method to clone exon-intron boundaries and a 5'-upstream sequence of genomic DNA based on a cDNA sequence. 901 12

The binding of the benzo[a]pyrene metabolite anti-BPDE (r7, t8-dihydroxy-t9,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene) to the N(2) group of 2'-deoxyguanosine residues (dG) is known to adversely affect the Michaelis-Menten primer extension kinetics catalyzed by DNA Pol I and other polymerases. In this work, the impact of site-specific, anti-BPDE-modified DNA template strands on the formation of Pol I (Klenow fragment, KF)/template-primer complexes has been investigated. The 23-mer template strand 5'-d(AAC GC-(1) T(-)(2) ACC ATC CGA ATT CGC CC), I (dG = (+)-trans- and (-)-trans-anti-BPDE-N(2)-dG), was annealed with primer strands 18, 19, or 20 bases long. Complex formation of these template-primer strands with KF(-) (exonuclease-free) at different enzyme concentrations was determined using polyacrylamide gel mobility shift assays in the absence of dNTPs. The lesion dG causes an increase in the dissociation constants, K(d), of the monomeric, 1:1 KF(-)/DNA template-primer complexes by factors of 10-15 when the 3'-end base of the primer strand is positioned either opposite dG, or opposite dC(-)(1) in I, and the shapes of the binding isotherms are sigmoidal. The sigmoidal shapes are attributed to the formation of dimeric 2:1 KF(-)/DNA template-primer complexes. In contrast, when the 3'-end of the primer strand extends only to dT(-)(2) in I, the K(d) of 1:1 complexes is increased by factors of only 2-3, the shapes of the binding isotherms are hyperbolic and nonsigmoidal and are similar to those observed with the unmodified control, and monomeric KF(-)/DNA complexes are dominant. The impact of bulky lesions on polymerase/DNA complex formation in polymerase-catalyzed primer extension reactions needs to be taken into account in interpreting the site-specific Michaelis-Menten kinetics of these reactions.
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PMID:Primer length dependence of binding of DNA polymerase I Klenow fragment to template-primer complexes containing site-specific bulky lesions. 1051 40

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