EC:2.7.7.7 - FACTA Search

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)

Seven independent laboratory mutants were derived from seven distinct wild-type varicella-zoster virus (VZV) isolates after exposure to increasing concentrations of foscarnet (PFA) and were found to be resistant to this drug. Single base changes resulting in amino acid substitutions were observed in the nucleotide sequence of the DNA polymerase gene of each PFA-resistant mutant. The mutations were found to occur within the domain II (Arg-665 --> Gly for strains vrMOR and vrVER; Val-666 --> Leu for vrLEB; Gln-692 --> Arg for vrOLI) and domain III (Arg-806 --> Ser for vrABD; Leu-809 --> Ser for vrALI and vrCHA) of DNA polymerase gene. In addition, the PFA-resistant mutants exhibited a phenotype characterized by slow growth, the strains showing a marked delay in immediate-early antigen plaque formation compared with the wild-type VZV from which they were derived. These results may have implications for successful isolation and characterization of PFA-resistant strains from clinical samples containing mixed viral populations.
...
PMID:Point mutations in the varicella-zoster virus DNA polymerase gene confers resistance to foscarnet and slow growth phenotype. 1044 Aug 13

The Taq DNA polymerase is the most commonly used enzyme in DNA sequencing. However, all versions of Taq polymerase are deficient in two respects: (i) these enzymes incorporate each of the four dideoxynucleoside 5' triphosphates (ddNTPs) at widely different rates during sequencing (ddGTP, for example, is incorporated 10 times faster than the other three ddNTPs), and (ii) these enzymes show uneven band-intensity or peak-height patterns in radio-labeled or dye-labeled DNA sequence profiles, respectively. We have determined the crystal structures of all four ddNTP-trapped closed ternary complexes of the large fragment of the Taq DNA polymerase (Klentaq1). The ddGTP-trapped complex structure differs from the other three ternary complex structures by a large shift in the position of the side chain of residue 660 in the O helix, resulting in additional hydrogen bonds being formed between the guanidinium group of this residue and the base of ddGTP. When Arg-660 is mutated to Asp, Ser, Phe, Tyr, or Leu, the enzyme has a marked and selective reduction in ddGTP incorporation rate. As a result, the G track generated during DNA sequencing by these Taq polymerase variants does not terminate prematurely, and higher molecular-mass G bands are detected. Another property of these Taq polymerase variants is that the sequencing patterns produced by these enzymes are remarkably even in band-intensity and peak-height distribution, thus resulting in a significant improvement in the accuracy of DNA sequencing.
...
PMID:Structure-based design of Taq DNA polymerases with improved properties of dideoxynucleotide incorporation. 1044 20

The short flanking homology PCR strategy (Wach et al., 1994) was used to disrupt six open reading frames (ORFs) on chromosome X of diploid strains (FY1679 and W303) of the yeast Saccharomyces cerevisiae. Two of the six ORFs analysed (YJL069c and YJL066c) display no similarity to known sequences. Three others (YJL065c, YJL068c, and YJL070c) are similar to those respectively encoding the DNA polymerase epsilon subunit c, human esterase D and rat AMP deaminase 1. YJL071w has recently been identified as the ARG2 gene coding for acetylglutamate synthase. Inactivation of the YJL069c gene proved lethal and the yjl071w haploid disruptants were auxotrophic for arginine. For the four other gene inactivations, neither the heterozygous deletion diploids nor the corresponding haploid deletion mutants displayed any special phenotype when grown on rich glycerol or glucose medium or on synthetic minimal medium at three different temperatures, or on media containing compounds interfering with nucleic acid or protein synthesis. Mating and sporulation efficiencies were the same for the viable disruptants as for wild-type cells. The six kanMX4 disruption cassettes were cloned into the pUG7 vector and each of the cognate wild-type genes was inserted into the pRS416 centromeric plasmid. All strains and plasmids have been deposited in the EUROFAN collection (EUROSCARF, K. -D. Entian, Frankfurt, Germany).
...
PMID:Disruption of six ORFs on Saccharomyces cerevisiae chromosome X: the YJL069c gene of unknown function is essential to cell viability. 1050 23

Tumor development is characterized by accumulation of mutations. Such mutations, if induced by carcinogens in DNA polymerase genes, would confer mutator properties on the DNA replication machinery, even at later stages of development. To investigate whether DNA polymerase delta can be mutated, we compared these enzymes from highly malignant Novikoff hepatoma cells and from regenerating normal rat liver. We sequenced the DNA polymerase delta cDNA from both sources and investigated the physico-chemical properties, inhibition characteristics, and copying fidelity of the purified enzymes. The cDNA sequences examined included the entire reading frame encoding the catalytic subunit (subunit I) of DNA polymerase delta. First-strand cDNAs were prepared from total RNA of both normal rat liver and Novikoff cells by reverse transcription, and the polymerase delta sequences were amplified by the polymerase chain reaction. cDNA (3325 bp) were sequenced. A single heterozygous mutation (CGG --> CAG) has been detected in nucleotide position 1948 (codon 648) of the polymerase delta gene from Novikoff cells, resulting in an Arg to Gln change. Position 648 lies just proximal to the conserved region VI, which is part of the "fingers" subdomain of alpha-like polymerases. This subdomain is involved in dNTP binding. Upon comparison of biochemical characteristics of partially purified DNA polymerase delta from both Novikoff cells and rat liver, the following properties of the enzyme from Novikoff cells were found to be altered: (i) K(50) values for nucleotide analogs (e.g. butylphenyl-dGTP) were lower, (ii) sensitivity to various antineoplastic drugs (e.g. doxorubicin, topotecan and distamycin) was enhanced, (iii) copying fidelity was decreased when primer templates containing O(6)-methylguanine were used, and (iv) the activity of DNA polymerase delta from Novikoff tumor cells was less stimulated by lactate dehydrogenase than the enzyme from normal cells. The altered biochemical characteristics of DNA polymerase delta from Novikoff cells suggest mutator properties. We conclude that the point mutation detected in the cDNA might be causally related to the observed changes in inhibition characteristics and copying fidelity.
...
PMID:A mutation detected in DNA polymerase delta cDNA from Novikoff hepatoma cells correlates with abnormal catalytic properties of the enzyme. 1054 66

Drug-resistant strains of herpes simplex virus type 1 (HSV-1) were selected under the pressure of (S)-3-hydroxy-2-phosphonylmethoxypropyl (HPMP) derivatives of cytosine (HPMPC, cidofovir) and adenine (HPMPA) and 2-phosphonylmethoxyethyl (PME) derivatives of adenine (PMEA, adefovir) and 2,6-diaminopurine (PMEDAP). HPMPC-resistant (HPMPC(r)) and HPMPA(r) strains were cross-resistant to one another, but they remained sensitive to foscarnet (PFA), acyclovir (ACV) and the PME derivatives, while the PMEA(r) and PMEDAP(r) strains showed cross-resistance to PFA and ACV. The PMEA(r), PMEDAP(r) and PFA(r) mutants all revealed a single nucleotide change resulting in a Ser-724 to Asn mutation within the conserved region II of the DNA polymerase. Two HPMPA(r) clones and one HPMPC(r) clone possessed single amino acid changes in the DNA polymerase (HPMPA(r) clone D1, Leu-1007 to Met; HPMPA(r) clone B5, Ile-1028 to Thr; HPMPC(r) clone C3, Val-573 to Met). The HPMPC(r) clone A4 contained two mutations, Ala-136 to Thr and Arg-700 to Met. The mutation at position 136, located outside the catalytic domain of the enzyme, was not detected in other HPMPC(r) clones, suggesting that this mutation may not be responsible for the resistant phenotype. Residue 573 is located within the 3'-->5' exonuclease editing domain close to the catalytically important residues Tyr-577 and Asp-581. Similarly, residue 700 is located in the palm subdomain of the catalytic domain, adjacent to the Asp residues 717, 886 and 888 that are vital for polymerase activity. The HPMPA(r) mutations at residues 1007 and 1028, beyond the last conserved region, still fall within the thumb subdomain of the catalytic domain. The different drug-resistant mutants varied in neurovirulent behaviour, the HPMPC(r) strains showing reduced neurovirulence compared with the wild-type.
...
PMID:Resistance of herpes simplex virus type 1 against different phosphonylmethoxyalkyl derivatives of purines and pyrimidines due to specific mutations in the viral DNA polymerase gene. 1067 1

Amino acid Lys(65) is part of the highly flexible beta3-beta4 loop in the fingers domain of the 66 kDa subunit of human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT). Recent crystal data show that the epsilon-amino group of Lys(65) interacts with the gamma-phosphate of the bound deoxynucleoside triphosphate ('dNTP') substrate [Huang, Chopra, Verdine and Harrison (1998) Science 282, 1669-1675]. In order to biochemically define the function of RT Lys(65), we have used site-specific mutagenesis to generate RT with a variety of substitutions at this position, including K65E, K65Q, K65A and K65R. Kinetic analyses demonstrate that if Lys(65) in RT is substituted with an amino acid other than arginine the enzyme exhibits dramatic decreases in the binding affinity (K(m)) for all dNTP substrates, in RT catalytic efficiency (k(cat)/K(m)) and in the mutant enzyme's ability to carry out pyrophosphorolysis, the reverse reaction of DNA synthesis. The pH optimum for the DNA polymerase activity of K65E RT was 6.5, compared to 7.5 for the wild-type enzyme, and 8.0 for the K65R, K65A and K65Q mutants. Molecular modelling studies show that mutations of Lys(65) do not affect the geometry of the loop's alpha-carbon backbone, but rather lead to changes in positioning of the side chains of residues Lys(70) and Arg(72). In particular, Glu in K65E can form a salt bridge with Arg(72), leading to the diminution of the latter residue's interaction with the alpha-phosphate of the dNTP residue. This alteration in dNTP-binding may explain the large pH-dependent changes in both dNTP-binding and catalytic efficiency noted with the enzyme. Furthermore, the K65A, K65Q and K65E mutant enzymes are 100-fold less sensitive to all dideoxynucleoside triphosphate ('ddNTP') inhibitors, whereas the K65R mutation results in a selective 10-fold decrease in binding of ddCTP and ddATP only. This implies that mutations at position 65 in HIV-1 RT influence the nucleotide-binding specificity of the enzyme.
...
PMID:Mutational analysis of Lys65 of HIV-1 reverse transcriptase. 1079 16

The structures of open and closed conformations of DNA polymerase beta (pol beta) suggests that the rate of single-nucleotide deletions during synthesis may be modulated by interactions in the DNA minor groove that align the templating base with the incoming dNTP. To test this hypothesis, we measured the single-base deletion error rates of wild-type pol beta and lysine and alanine mutants of Arg(283), whose side chain interacts with the minor groove edge of the templating nucleotide at the active site. The error rates of both mutant enzymes are increased >100-fold relative to wild-type pol beta. Template engineering experiments performed to distinguish among three possible models for deletion formation suggest that most deletions in repetitive sequences by pol beta initiate by strand slippage. However, pol beta also generates deletions by a different mechanism that is strongly enhanced by the substitutions at Arg(283). Analysis of error specificity suggests that this mechanism involves nucleotide misinsertion followed by primer relocation, creating a misaligned intermediate. The structure of pol beta bound to non-gapped DNA also indicates that the templating nucleotide and its downstream neighbor are out of register in the open conformation and this could facilitate misalignment (dNTP or primer terminus) with the next template base.
...
PMID:Minor groove interactions at the DNA polymerase beta active site modulate single-base deletion error rates. 1085 Dec 38

The gene 32 protein (gp32) of bacteriophage T4 is the essential single-stranded DNA (ssDNA)-binding protein required for phage DNA replication and recombination. gp32 binds ssDNA with high affinity and cooperativity, forming contiguous clusters that optimally configure the ssDNA for recognition by DNA polymerase or recombination enzymes. The precise roles of gp32 affinity and cooperativity in promoting replication and recombination have yet to be defined, however. Previous work established that the N-terminal "B-domain" of gp32 is essential for cooperativity and that point mutations at Arg(4) and Lys(3) positions have varying and dramatic effects on gp32-ssDNA interactions. Therefore, we examined the effects of six different gp32 B-domain mutants on T4 in vitro systems for DNA synthesis and homologous pairing. We find that the B-domain is essential for gp32's stimulation of these reactions. The stimulatory efficacy of gp32 B-domain mutants generally correlates with the hierarchy of relative ssDNA binding affinities, i.e. wild-type gp32 approximately R4K > K3A approximately R4Q > R4T > R4G gp32-B. However, the functional defect of a particular mutant is often greater than can be explained simply by its ability to saturate the ssDNA at equilibrium, suggesting additional defects in the proper assembly and activity of DNA polymerase and recombinase complexes on ssDNA, which may derive from a decreased lifetime of gp32-ssDNA clusters.
...
PMID:Mutations in the N-terminal cooperativity domain of gene 32 protein alter properties of the T4 DNA replication and recombination systems. 1090 24

Most translesion DNA synthesis (TLS) in Escherichia coli is dependent upon the products of the umuDC genes, which encode a DNA polymerase, DNA polymerase V, with the unique ability to replicate over a variety of DNA lesions, including cyclobutane dimers and abasic sites. The UmuD protein is activated for its role in TLS by a RecA-single-stranded DNA (ssDNA)-facilitated self-cleavage event that serves to remove its amino-terminal 24 residues to yield UmuD'. We have used site-directed mutagenesis to construct derivatives of UmuD and UmuD' with glycines in place of leucine-101 and arginine-102. These residues are extremely well conserved among the UmuD-like proteins involved in mutagenesis but are poorly conserved among the structurally related LexA-like transcriptional repressor proteins. Based on both the crystal and solution structures of the UmuD' homodimer, these residues are part of a solvent-exposed loop. Our genetic and biochemical characterizations of these mutant UmuD and UmuD' proteins indicate that while leucine-101 and arginine-102 are critical for the RecA-ssDNA-facilitated self-cleavage of UmuD, they serve only a minimal role in enabling TLS. These results, and others, suggest that the interaction of RecA-ssDNA with leucine-101 and arginine-102, together with numerous other contacts between UmuD(2) and the RecA-ssDNA nucleoprotein filaments, serves to realign lysine-97 relative to serine-60, thereby activating UmuD(2) for self-cleavage.
...
PMID:Genetic and biochemical characterization of a novel umuD mutation: insights into a mechanism for UmuD self-cleavage. 1111 35

The crystal structure of family B DNA polymerase from the hyperthermophilic archaeon Pyrococcus kodakaraensis KOD1 (KOD DNA polymerase) was determined. KOD DNA polymerase exhibits the highest known extension rate, processivity and fidelity. We carried out the structural analysis of KOD DNA polymerase in order to clarify the mechanisms of those enzymatic features. Structural comparison of DNA polymerases from hyperthermophilic archaea highlighted the conformational difference in Thumb domains. The Thumb domain of KOD DNA polymerase shows an "opened" conformation. The fingers subdomain possessed many basic residues at the side of the polymerase active site. The residues are considered to be accessible to the incoming dNTP by electrostatic interaction. A beta-hairpin motif (residues 242-249) extends from the Exonuclease (Exo) domain as seen in the editing complex of the RB69 DNA polymerase from bacteriophage RB69. Many arginine residues are located at the forked-point (the junction of the template-binding and editing clefts) of KOD DNA polymerase, suggesting that the basic environment is suitable for partitioning of the primer and template DNA duplex and for stabilizing the partially melted DNA structure in the high-temperature environments. The stabilization of the melted DNA structure at the forked-point may be correlated with the high PCR performance of KOD DNA polymerase, which is due to low error rate, high elongation rate and processivity.
...
PMID:Crystal structure of DNA polymerase from hyperthermophilic archaeon Pyrococcus kodakaraensis KOD1. 1117 6

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>