Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.7.7.7 (
DNA polymerase
)
17,007
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A complex of the chi and psi proteins is required to confer resistance to high levels of
glutamate
on the
DNA polymerase III
holoenzyme-catalyzed reaction (Olson, M., Dallmann, H. G., and McHenry, C. (1995) J. Biol. Chem. 270, 29570-29577). We demonstrate that this salt resistance also requires templates to be coated with the Escherichia coli single-stranded DNA-binding protein (SSB). We show that this is the result of a direct chipsi-SSB interaction that is strengthened approximately 1000-fold when SSB is bound to DNA. On model oligonucleotide templates,
DNA polymerase III
core is inhibited by SSB. We show that the minimal polymerase assembly that will synthesize DNA on SSB-coated templates is polymerase III-tau-psi chi. gamma, the alternative product of the dnaX gene, will not replace tau in this reaction, indicating that tau's unique ability to bind to
DNA polymerase III
holding chipsi in the same complex is essential. All of our findings are consistent with chipsi strengthening
DNA polymerase III
holoenzyme interactions with the SSB-coated lagging strand at the replication fork, facilitating complex assembly and elongation.
...
PMID:The chi psi subunits of DNA polymerase III holoenzyme bind to single-stranded DNA-binding protein (SSB) and facilitate replication of an SSB-coated template. 972 85
The RAD30 gene of Saccharomyces cerevisiae encodes a
DNA polymerase
, Poleta. The Rad30 protein shares homology with the yeast Rev1 and the Escherichia coli DinB and UmuC proteins. Although these proteins contain several highly conserved motifs, only Rad30 has been shown to possess a
DNA polymerase
activity. To determine whether the
DNA polymerase
activity of Rad30 was essential for its biological function, we made a mutation in the highly conserved SIDE sequence in Rad30, in which the aspartate and
glutamate
residues have each been changed to alanine. The mutant Rad30 protein lacks the
DNA polymerase
activity, and the mutant gene does not complement the rad30Delta mutation. These findings indicate that
DNA polymerase
activity is indispensable for the biological function of RAD30.
...
PMID:Requirement of DNA polymerase activity of yeast Rad30 protein for its biological function. 1034 43
The catalytic roles of two essential active-site aspartates at positions 705 and 882 of Escherichia coli
DNA polymerase I
have been well established (Steitz, T. A. (1998) Nature 391, 231-232). We now demonstrate that the participation of at least one additional carboxylate, a
glutamate
at position 710 or 883, is obligatory for catalysis. This conclusion has been drawn from our investigation of the properties of single (E710D, E710A, E883D, and E883A) and double (E710D/E883D and E710A/E883A) substitutions of residues Glu(710) and Glu(883). While single substitutions of either of the glutamates resulted in some reduction in polymerase activity, the mutant enzyme with simultaneous substitution of both glutamates with alanine exhibited a nearly complete loss of activity. Interestingly, substitution with two aspartates in place of the glutamates resulted in an enzyme species that catalyzed DNA synthesis in a strictly distributive mode. Pyrophosphorolytic activity of the mutant enzymes reflected their polymerase activity profiles, with markedly reduced pyrophosphorolysis by the double mutant enzymes. Moreover, an evaluation of Mg(2+) and salt optima for all mutant enzymes of Glu(710) and Glu(883) revealed significant deviations from that for the wild type, implying a possible role of these glutamates in metal coordination as well as in maintaining the structural integrity of the active site.
...
PMID:A carboxylate triad is essential for the polymerase activity of Escherichia coli DNA polymerase I (Klenow fragment). Presence of two functional triads at the catalytic center. 1077 13
The highly conserved GXD sequence present in the Mycobacterium tuberculosis
DNA polymerase I
corresponds to a hinge region in the finger subdomain connecting M and N helices of Escherichia coli pol I. An examination of the crystal structures of pol I family polymerases reveals that the invariant aspartate of the hinge forms a salt bridge with the conserved arginine of the O-helix and an H-bond with Gln-708. To clarify the role of this region, we generated and characterized conserved and nonconserved mutant derivatives of this aspartate, the preceding
glutamate
and the Gln in TB pol I. For comparison, D732A mutein of pol I was also included. The muteins representing conserved aspartate (Asp-707 of TB pol I or Asp-732 of pol I) showed a strong K(m)((dNTP)) effect and minor alteration in K(d)((DNA)), with about 10-20-fold decrease in overall catalytic efficiency. The TB muteins, E706A and Q683A, have less pronounced deviations from the wild-type enzyme. Further examination of D707A of TB pol I showed no alteration in the processivity or the dideoxynucleotide sensitivity patterns. However, both TB pol D707A and homologous E. coli D732A failed to form a stable E.DNA.dNTP ternary complex. These results suggest that the aspartate in the hinge region is catalytically important and is required for dNTP binding and in the formation of a prepolymerase ternary complex.
...
PMID:DNA polymerase I of Mycobacterium tuberculosis: functional role of a conserved aspartate in the hinge joining the M and N helices. 1167 39
Helix-hairpin-helix (HhH) is a widespread motif involved in sequence-nonspecific DNA binding. The majority of HhH motifs function as DNA-binding modules with typical occurrence of one HhH motif or one or two (HhH)(2) domains in proteins. We recently identified 24 HhH motifs in DNA topoisomerase V (Topo V). Although these motifs are dispensable for the topoisomerase activity of Topo V, their removal narrows the salt concentration range for topoisomerase activity tenfold. Here, we demonstrate the utility of Topo V's HhH motifs for modulating DNA-binding properties of the Stoffel fragment of TaqDNA polymerase and Pfu
DNA polymerase
. Different HhH cassettes fused with either NH(2) terminus or COOH terminus of DNA polymerases broaden the salt concentration range of the polymerase activity significantly (up to 0.5 M NaCl or 1.8 M potassium
glutamate
). We found that anions play a major role in the inhibition of
DNA polymerase
activity. The resistance of initial extension rates and the processivity of chimeric polymerases to salts depend on the structure of added HhH motifs. Regardless of the type of the construct, the thermal stability of chimeric Taq polymerases increases under the optimal ionic conditions, as compared with that of TaqDNA polymerase or its Stoffel fragment. Our approach to raise the salt tolerance, processivity, and thermostability of Taq and Pfu DNA polymerases may be applied to all pol1- and polB-type polymerases, as well as to other DNA processing enzymes.
...
PMID:Helix-hairpin-helix motifs confer salt resistance and processivity on chimeric DNA polymerases. 1236 75
Bacteriophage phi29 encodes a
DNA-dependent DNA polymerase
belonging to the eukaryotic-type (family B) subgroup of DNA polymerases that use a protein as primer for initiation of DNA replication. By multiple sequence alignments of DNA polymerases from such a family, we have been able to identify two amino acid residues specifically conserved in the protein-priming subgroup of DNA polymerases, a phenylalanine contained in the (S/T)Lx(2)h motif, and a
glutamate
belonging to the Exo III motif. Here, we have studied the functional role of these residues in reactions that are specific for DNA polymerases that use a protein-primed DNA replication mechanism, by site-directed mutagenesis in the corresponding amino acid residues, Phe128 and Glu161 of phi29
DNA polymerase
. Mutations introduced at residue Phe128 severely impaired the protein-primed replication capacity of the polymerase, being the interaction with the terminal protein (TP) moderately (mutant F128A) or severely (mutant F128Y) diminished. As a consequence, very few initiation products were obtained, and essentially no transition products were detected. Interestingly, phi29
DNA polymerase
mutant F128Y showed a decreased binding affinity for short template DNA molecules. These results, together with the high degree of conservation of Phe128 residue among protein-primed DNA polymerases, suggest a functional role for this amino acid residue in making contacts with the TP during the first steps of genome replication and with DNA in the further replication steps.
...
PMID:phi29 DNA polymerase residue Phe128 of the highly conserved (S/T)Lx(2)h motif is required for a stable and functional interaction with the terminal protein. 1247 53
The sequence specificity and intensity of DNA damage induced by six peptide-tethered platinum complexes was compared to cisplatin and Pt(en)Cl(2). DNA damage was investigated in pUC19 plasmid and in intact HeLa cells, and quantitatively analyzed using a
Taq DNA polymerase
/linear amplification assay. The DNA sequence specificity of the peptide-platinum compounds was found to be very similar to cisplatin and Pt(en)Cl(2), with runs of consecutive guanines being the most intensely damaged sites. The observed reactivity of the peptide-platinum complexes towards plasmid DNA was lower compared to cisplatin and Pt(en)Cl(2), with the glycine-tethered complex 3 and the phenylalanine-tethered complex 4 producing the highest relative damage intensity, followed by (in decreasing order) lysine-tethered (5), arginine-tethered (6), serine-tethered (7) and
glutamate
-tethered (8). The reactivity of the peptide-platinum complexes towards cellular DNA was also lower compared to cisplatin and Pt(en)Cl(2). For most investigated complexes, the relative damage intensities were found to be similar in cells compared to plasmid DNA, but were greatly reduced for 3 and 4. The lysine-tethered 5 complex produced the highest DNA damage intensity in cells followed by (in decreasing order) 6, 7, 3, 4 and 8.
...
PMID:The interaction of peptide-tethered platinum(II) complexes with DNA. 1288 68
We demonstrate the elongation of various hexanucleotide sequences with thermophilic
DNA polymerase
, under isothermal or thermal cyclic reaction conditions. We prepared 10 types of double repeat hexanucleotide duplexes with various GC compositions containing between 0 and 6 GC nucleotides per repeat and incubated these duplexes with thermophilic
Taq DNA polymerase
and dNTPs at various temperatures. All of the model repetitive short duplexes were elongated under the isothermal incubation conditions, although there were some differences in the elongation efficiencies derived from the GC composition in the repetitive sequences. It was also found that all of the model repetitive duplexes were extended more effectively by a 3-step thermal cyclic reaction involving denaturation, annealing, and extension. On the basis of this technique, we prepared a
glutamate
-encoding short repetitive duplex and created long repetitive DNAs under isothermal and thermal cyclic reaction conditions. DNA sequencing analysis of the cloned repetitive DNA revealed that well-ordered long repetitive DNAs of various chain lengths were created by this
DNA polymerase
-catalyzed ligation method, and these were easily cloned into vectors by the TA-cloning method. This method could be useful for obtaining DNAs encoding arbitrary long repetitive amino acid sequences more effectively than the conventional T4 ligase-catalyzed ligation method.
...
PMID:DNA polymerase-catalyzed elongation of repetitive hexanucleotide sequences: application to creation of repetitive DNA libraries. 1557 22
Monofunctional histidinol phosphate phosphatase from Thermus thermophilus HB8, which catalyzes the dephosphorylation of l-histidinol phosphate, belongs to the PHP family, together with the PHP domain of bacterial
DNA polymerase III
and family X
DNA polymerase
. We have determined the structures of the complex with a sulfate ion, the complex with a phosphate ion, and the unliganded form at 1.6, 2.1, and 1.8 A resolution, respectively. The enzyme exists as a tetramer, and the subunit consists of a distorted (betaalpha)7 barrel with one linker and one C-terminal tail. Three metal sites located on the C-terminal side of the barrel are occupied by Fe1, Fe2, and Zn ions, respectively, forming a trinuclear metal center liganded by seven histidines, one aspartate, one
glutamate
, and one hydroxide with two Fe ions bridged by the hydroxide. In the complexes, the sulfate or phosphate ion is coordinated to three metal ions, resulting in octahedral, trigonal bipyramidal, and tetrahedral geometries around the Fe1, Fe2, and Zn ions, respectively. The ligand residues are derived from the four motifs that characterize the PHP family and from two motifs conserved in histidinol phosphate phosphatases. The (betaalpha)7 barrel and the metal cluster are closely related in nature and architecture to the (betaalpha)8 barrel and the mononuclear or dinuclear metal center in the amidohydrolase superfamily, respectively. The coordination behavior of the phosphate ion toward the metal center supports the mechanism in which the bridging hydroxide makes a direct attack on the substrate phosphate tridentately bound to the two Fe ions and Zn ion to hydrolyze the phosphoester bond.
...
PMID:Crystal structure of monofunctional histidinol phosphate phosphatase from Thermus thermophilus HB8. 1792 34
Escherichia coli thioredoxin binds to a unique flexible loop of 71 amino acid residues, designated the thioredoxin binding domain (TBD), located in the thumb subdomain of bacteriophage T7 gene 5
DNA polymerase
. The initial designation of thioredoxin as a processivity factor was premature. Rather it remodels the TBD for interaction with DNA and the other replication proteins. The binding of thioredoxin exposes a number of basic residues on the TBD that lie over the duplex region of the primer-template and increases the processivity of nucleotide polymerization. Two small solvent-exposed loops (loops A and B) located within TBD electrostatically interact with the acidic C-terminal tail of T7 gene 4 helicase-primase, an interaction that is enhanced by the binding of thioredoxin. Several basic residues on the surface of thioredoxin in the polymerase-thioredoxin complex lie in close proximity to the TBD. One of these residues, lysine 36, is located proximal to loop A. The substitution of
glutamate
for lysine has a dramatic effect on the binding of gene 4 helicase to a
DNA polymerase
-thioredoxin complex lacking charges on loop B; binding is decreased 15-fold relative to that observed with wild-type thioredoxin. This defective interaction impairs the ability of T7
DNA polymerase
-thioredoxin together with T7 helicase to mediate strand displacement synthesis. This is the first demonstration that thioredoxin interacts with replication proteins other than T7
DNA polymerase
.
...
PMID:Interactions of Escherichia coli thioredoxin, the processivity factor, with bacteriophage T7 DNA polymerase and helicase. 1875 58
<< Previous
1
2
3
Next >>
