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)

We previously described a general mutator form of mammalian DNA polymerase beta containing a cysteine substitution for tyrosine 265. Residue 265 localizes to a hydrophobic hinge region predicted to mediate a polymerase conformational change that may aid in nucleotide selectivity. In this study we tested the hypothesis that van der Waals and hydrophobic contacts between Y265 and neighboring residues are important for DNA synthesis fidelity and catalysis, by altering interactions in the hinge domain via substitution at position 265. Consistent with the importance of hydrophobic interactions, we found that phenylalanine, leucine, and tryptophan substitutions did not alter significantly the steady-state catalytic efficiency of DNA synthesis, relative to wild type, while the polar serine substitution decreased catalytic efficiency 6-fold. However, we found that all substitutions other than phenylalanine increased the error frequency, relative to wild type, in the order serine > tryptophan = leucine. Therefore, maintenance of the hydrophobicity of residue 265 was not sufficient for maintaining fidelity of DNA synthesis. We conclude that while hydrophobic interactions in the hinge domain are important for fidelity, additional factors such as electrostatic and van der Waals interactions contributed by the tyrosine 265 aromatic ring are required to retain wild-type fidelity.
...
PMID:Hydrophobic interactions in the hinge domain of DNA polymerase beta are important but not sufficient for maintaining fidelity of DNA synthesis. 1098 85

The effect of mutations in the highly conserved Y-GG/A motif of B-type DNA polymerases was studied in the DNA polymerase from the hyperthermophilic euryarchaeon Thermococcus aggregans. This motif plays a critical role in the balance between the synthesis and degradation of the DNA chain. Five different mutations of the tyrosine at position 387 (Tyr387-->Phe, Tyr387-->Trp, Tyr387-->His, Tyr387-->Asn and Tyr387-->Ser) revealed that an aromatic ring system is crucial for the synthetic activity of the enzyme. Amino acids at this position lacking the ring system (Ser and Asn) led to a significant decrease in polymerase activity and to enhanced exonuclease activity, which resulted in improved enzyme fidelity. Exchange of tyrosine to phenylalanine, tryptophan or histidine led to phenotypes with wild-type-like fidelity but enhanced PCR performance that could be related to a higher velocity of polymerisation. With the help of a modelled structure of T.aggregans DNA polymerase, the biochemical data were interpreted proposing that the conformation of the flexible loop containing the Y-GG/A motif is an important factor for the equilibrium between DNA polymerisation and exonucleolysis.
...
PMID:PCR performance of the B-type DNA polymerase from the thermophilic euryarchaeon Thermococcus aggregans improved by mutations in the Y-GG/A motif. 1102 70

Disintegration, wherein a half-site integration substrate is resolved into separate viral and host DNA components via DNA strand transfer, is one of three well-established in vitro activities of HIV-1 integrase. The role of disintegration in the HIV-1 replicative cycle, however, remains a mystery. In this report, we describe the expression in Escherichia coli and purification of HIV-1 integrase as a fusion protein containing a 6xHis tag at its amino terminus. Integrase resolved dumbbell and Y-substrates optimally at pH 6.8-7.2 in the presence of 2 mM MnCl(2). Substrate requirements for intramolecular disintegration included a 10 base pair viral U5 LTR arm and a CA dinucleotide located at the 3' end of the LTR. Disintegration was not sensitive to changes in the host DNA portion of the substrate. A dumbbell substrate with a 5' oligo-dA tail also underwent disintegration. The released LTR arm with an oligo-dA tail was utilized as a template primer by several DNA polymerases indicating that disintegration occurred via nucleophilic attack on the phosphodiester bond located immediately adjacent to the CA dinucleotide at the 3' end of the LTR. Coupled disintegration-DNA polymerase reactions provided a highly efficient and sensitive means of detecting disintegration activity. Integrase also catalyzed an apparently concerted disintegration-5'-end joining reaction in which an LTR arm was transferred from one dumbbell substrate molecule to another. Copyright 1996 S. Karger AG, Basel
...
PMID:Enzymatic Capability of HIS-Tagged HIV-1 Integrase Using Oligonucleotide Disintegration Substrates. 1172 6

Antisense RNA complementary to the Epstein-Barr virus (EBV) Zta gene, an immediate-early gene encoding a transactivator, was applied to inhibit EBV protein synthesis during its lytic cycle. A DNA fragment containing the Zta gene sequence was inserted into an expression vector, pMAMneo, in a sense and antisense direction under a dexamethasone-inducible murine mammary tumor virus LTR promoter, resulting in the construction of plasmids pZ(+) and pZ(-), respectively. Synthesis of Zta protein was reduced in pZ(-)-transfected cells upon dexamethasone induction. Because D-form early antigen and DNA polymerase are essential for viral DNA replication, the contents of these two viral proteins were examined. Amounts of the two lytic proteins were observed to be significantly repressed in pZ(-)-transfected cells. In contrast, both proteins were normally expressed in the sense plasmid pZ(+) or cells transfected with vector alone. Above results demonstrate that Zta antisense RNA can reduce the production of Zta protein and the other lytic proteins, possibly resulting in the inhibition of EBV replication. Copyright 1997 S. Karger AG, Basel
...
PMID:Inhibition of the Synthesis of Proteins Needed for Epstein-Barr Virus Replication by Antisense RNA against the Zta Gene. 1172 46

Postreplication DNA repair (PRR) in UV-irradiated Escherichia coli WP2 uvrA (tryptophan-dependent strain) and K12 AB1886 uvrA6 pre-irradiated by gamma-rays in low doses (radioadaptation, the first stress effect) has been investigated. PRR was found to be more effective after incubation in the growth medium (for 45-60 min) than in non-radioadapted cells: the repair of postreplication gaps increased by 6-15%. If cells of WP2 uvrA strain were incubated after UV-irradiation in media lacking tryptophan or casamin acids (the second stress effect), PRR was seen to increase as early as within 15 min of incubation and it is more effective than at the first stress. After a 30-60 min incubation the double stress effect leads to an increase in postreplication gap repair by 23-45%. In this case almost all the gaps prove to be repaired. The second stress alone exerts no influence on PPR efficiency. It is supposed that a preliminary radioadaptation may stimulate synthesis of a protein (proteins) of the SOS-response (presumably DNA polymerase V). The second stress effect apparently induces synthesis of an unknown factor (or depreesses synthesis of a MmrA-like protein), and this in cooperation with a protein newly synthesized during radioadaptation significantly increases the efficiency of PPR.
...
PMID:[Radioadaptive enhancement of the repair of UV-induced postreplication gaps in Escherichia coli DNA]. 1188 Nov 56

Although the use of 2-aminopurine (2-AP) as a probe in stopped-flow analyses of DNA polymerase beta (Pol beta) had provided important mechanistic insight, the conditions used were limited by the location of 2-AP and the use of a combination of tryptophan (Trp) and 2-AP fluorescence. This study examined different DNA substrates to identify several factors that can affect the observed signal in stopped-flow experiments. Both Trp and 2-AP emissions were separately excited and monitored. It was found that both probes show a fast phase and a slow phase of fluorescence changes, but the direction and the amplitude vary greatly between the two probes and between different DNA substrates. Detailed analyses suggested that the location of 2-AP in the template has a significant impact on the fluorescence properties of 2-AP and that a location opposite the incoming dNTP, which has been used in all such studies in the past, is not optimal. In particular, the results show that placing 2-AP one base after the templating base greatly enhances the signal intensity, which suggests a significant change in base stacking interactions at this position during nucleotide incorporation. These results allowed us to derive an improved set of conditions which were then used to reevaluate results from previous reports. It also allows greater freedom in the type of base pairs studied, since 2-AP is not the templating base in the nascent base pair. Kinetic constants were determined for dNTP and catalytic Mg(2+). The results obtained from stopped-flow experiments were compared to results from chemical quench. Stopped flow of incorrect dNTP incorporation and the reverse reaction are also reported, which provide useful information to the mechanism of Pol beta.
...
PMID:Use of 2-aminopurine and tryptophan fluorescence as probes in kinetic analyses of DNA polymerase beta. 1222 Jan 88

DNA polymerase (pol) beta is a two-domain DNA repair enzyme that undergoes structural transitions upon binding substrates. Crystallographic structures indicate that these transitions include movement of the amino-terminal 8-kDa lyase domain relative to the 31-kDa polymerase domain. Additionally, a polymerase subdomain moves toward the nucleotide-binding pocket after nucleotide binding, resulting in critical contacts between alpha-helix N and the nascent base pair. Kinetic and structural characterization of pol beta has suggested that these conformational changes participate in stabilizing the ternary enzyme-substrate complex facilitating chemistry. To probe the microenvironment and dynamics of both the lyase domain and alpha-helix N in the polymerase domain, the single native tryptophan (Trp-325) of wild-type enzyme was replaced with alanine, and tryptophan was strategically substituted for residues in the lyase domain (F25W/W325A) or near the end of alpha-helix N (L287W/W325A). Influences of substrate on the fluorescence anisotropy decay of these single tryptophan forms of pol beta were determined. The results revealed that the segmental motion of alpha-helix N was rapid ( approximately 1 ns) and far more rapid than the step that limits chemistry. Binding of Mg(2+) and/or gapped DNA did not cause a noticeable change in the rotational correlation time or angular amplitude of tryptophan in alpha-helix N. More important, binding of a correct nucleotide significantly limited the angular range of the nanosecond motion within alpha-helix N. In contrast, the segmental motion of the 8-kDa domain was "frozen" upon DNA binding alone, and this restriction did not increase further upon nucleotide binding. The dynamics of alpha-helix N are discussed from the perspective of the "open" to "closed" conformational change of pol beta deduced from crystallography, and the results are more generally discussed in the context of reaction cycle-regulated flexibility for proteins acting as molecular motors.
...
PMID:Rapid segmental and subdomain motions of DNA polymerase beta. 1245 21

The accuracy and usefulness of laboratory-developed real-time PCR procedures using a Light Cycler instrument (Roche Diagnostics) for detecting and quantifying human immunodeficiency virus type 1 (HIV-1) RNA and DNA as well as herpes simplex virus type 1 (HSV-1)/HSV-2 DNA in cervicovaginal secretions from women coinfected with HIV and HSV were evaluated. For HIV-1, the use of the NEC152 and NEC131 primer set and the NEC-LTR probe in the long terminal repeat gene allowed us to detect accurately the majority of HIV-1 subtypes of group M circulating in sub-Saharan Africa, including subtypes A, B, C, D, and G as well as circulating recombinant forms 02 and 11. The detection threshold of real-time PCR for HIV in cervicovaginal lavage samples was 5 copies per assay for both RNA and DNA; the intra- and interassay coefficients of variation of C(T) values were 1.30% and 0.69% (HIV-1 RNA) and 1.84% and 0.67% (HIV-1 DNA), respectively. Real-time PCR for HSV using primers and probe targeting the HSV DNA polymerase gene allowed both detection and quantification of HSV DNA and also differentiation between HSV-1 and HSV-2 genotypes. The detection threshold of real-time PCR for HSV was 5 copies per assay; the intra- and interassay coefficients of variation of C(T) values were 0.96% and 1.49%, respectively. Both manual and automated silica-based procedures were appropriate for combined extraction of HIV and HSV genomes from female genital secretions. Taken together, these findings indicate that real-time PCR may be used as a unique nucleic acid amplification procedure to detect and quantify HIV and HSV genomes in cervicovaginal secretions and thus to assess at reduced costs the genital shedding of both viruses in women included in intervention studies.
...
PMID:Real-time PCR quantification of genital shedding of herpes simplex virus (HSV) and human immunodeficiency virus (HIV) in women coinfected with HSV and HIV. 1645 95

UmuD(2) cleaves and removes its N-terminal 24 amino acids to form UmuD'(2), which activates UmuC for its role in UV-induced mutagenesis in Escherichia coli. Cells with a non-cleavable UmuD exhibit essentially no UV-induced mutagenesis and are hypersensitive to killing by UV light. UmuD binds to the beta processivity clamp ("beta") of the replicative DNA polymerase, pol III. A possible beta-binding motif has been predicted in the same region of UmuD shown to be important for its interaction with beta. We performed alanine-scanning mutagenesis of this motif ((14)TFPLF(18)) in UmuD and found that it has a moderate influence on UV-induced mutagenesis but is required for the cold-sensitive phenotype caused by elevated levels of wild-type UmuD and UmuC. Surprisingly, the wild-type and the beta-binding motif variant bind to beta with similar K(d) values as determined by changes in tryptophan fluorescence. However, these data also imply that the single tryptophan in beta is in strikingly different environments in the presence of the wild-type versus the variant UmuD proteins, suggesting a distinct change in some aspect of the interaction with little change in its strength. Despite the fact that this novel UmuD variant is non-cleavable, we find that cells harboring it display phenotypes more consistent with the cleaved form UmuD', such as resistance to killing by UV light and failure to exhibit the cold-sensitive phenotype. Cross-linking and chemical modification experiments indicate that the N-terminal arms of the UmuD variant are less likely to be bound to the globular domain than those of the wild-type, which may be the mechanism by which this UmuD variant acts as a UmuD' mimic.
...
PMID:A non-cleavable UmuD variant that acts as a UmuD' mimic. 1646 48

To better understand the functions and fidelity of DNA polymerase epsilon (Pol epsilon), we report here on the fidelity of yeast Pol epsilon mutants with leucine, tryptophan or phenylalanine replacing Met644. The Met644 side chain interacts with an invariant tyrosine that contacts the sugar of the incoming dNTP. M644W and M644L Pol epsilon synthesize DNA with high fidelity, but M644F Pol epsilon has reduced fidelity resulting from strongly increased misinsertion rates. When Msh6-dependent repair of replication errors is defective, the mutation rate of a pol2-M644F strain is 16-fold higher than that of a strain with wild-type Pol epsilon. In conjunction with earlier studies of low-fidelity mutants with replacements for the homologous amino acid in yeast Pol alpha (L868M/F) and Pol delta (L612M), these data indicate that the active site location occupied by Met644 in Pol epsilon is a key determinant of replication fidelity by all three B family replicative polymerases. Interestingly, error specificity of M644F Pol epsilon is distinct from that of L868M/F Pol alpha or L612M Pol delta, implying that each polymerase has different active site geometry, and suggesting that these polymerase alleles may generate distinctive mutational signatures for probing functions in vivo.
...
PMID:Regulation of B family DNA polymerase fidelity by a conserved active site residue: characterization of M644W, M644L and M644F mutants of yeast DNA polymerase epsilon. 1745 67

<< Previous 1 2 3 4 5 Next >>