EC:2.7.7.7 - FACTA Search

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Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A cDNA coding thioredoxin (TRX) was isolated from a cDNA library of Schizosaccharomyces pombe by colony hybridization. The 438 bp EcoRI fragment, which was detected by Southern hybridization, reveals an open reading frame which encodes a protein of 103 amino acids. The genomic DNA encoding TRX was also isolated from S. pombe chromosomal DNA using PCR. The cloned sequence contains 1795 bp and encodes a protein of 103 amino acids. However, the C-terminal region obtained from the cDNA clone is -Val-Arg-Leu-Asn-Arg-Ser-Leu, whereas the C-terminal region deduced from the genomic DNA appears to contain -Ala-Ser-Ile-Lys-Ala-Asn-Leu. This indicates that S. pombe cells contain two kinds of TRX genes which have dissimilar amino acid sequences only at the C-terminal regions. The heterologous TRX 1C produced from the cDNA clone could be used as a subunit of T7 DNA polymerase, while the TRX 1G from the genomic DNA could not. The upstream sequence and the region encoding the N-terminal 18 amino acids of the genomic DNA were fused into the promoterless beta-galactosidase gene of the shuttle vector YEp357 to generate the fusion plasmid pYKT24. Synthesis of beta-galactosidase from the fusion plasmid was found to be enhanced by hydrogen peroxide, menadione and aluminum chloride. It indicates that the expression of the cloned TRX gene is induced by oxidative stress.
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PMID:Characterization and regulation of Schizosaccharomyces pombe gene encoding thioredoxin. 1126 79

Escherichia coli DNA polymerase I participates in DNA replication, DNA repair, and genetic recombination; it is the most extensively studied of all DNA polymerases. Motif A in the polymerase active site has a required role in catalysis and is highly conserved. To assess the tolerance of motif A for amino acid substitutions, we determined the mutability of the 13 constituent amino acids Val(700)-Arg(712) by using random mutagenesis and genetic selection. We observed that every residue except the catalytically essential Asp(705) can be mutated while allowing bacterial growth and preserving wild-type DNA polymerase activity. Hence, the primary structure of motif A is plastic. We present evidence that mutability of motif A has been conserved during evolution, supporting the premise that the tolerance for mutation is adaptive. In addition, our work allows identification of refinements in catalytic function that may contribute to preservation of the wild-type motif A sequence. As an example, we established that the naturally occurring Ile(709) has a previously undocumented role in supporting sugar discrimination.
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PMID:The conserved active site motif A of Escherichia coli DNA polymerase I is highly mutable. 1127 11

The DnaA protein, which initiates chromosomal replication in Escherichia coli, is negatively regulated by both the sliding clamp of DNA polymerase III holoenzyme and the IdaB protein. We have found that, when the amount of minichromosome is limited in an in vitro replication system, minichromosomal replication-stimulated hydrolysis of DnaA-bound ATP yields the ADP-bound inactive form. The number of sliding clamps formed during replication was at least five per minichromosome, which is 2.7-fold higher than the number formed during incubation without replication. These results support the notion that coupling of DnaA-ATP hydrolysis to DNA replication is the outcome of enhanced clamp formation. We have also found that the amino acid substitution R334H in DnaA severely inhibits the hydrolysis of bound ATP in vitro. Whereas ATP bound to wild-type DnaA is hydrolysed in a DNA-dependent intrinsic manner or in a sliding clamp-dependent manner, ATP bound to DnaA R334H protein was resistant to hydrolysis under the same conditions. This arginine residue may be located in the vicinity where ATP binds, and therefore may play an essential role in ATP hydrolysis. This residue is highly conserved among DnaA homologues and also in the Box VIII motif of the AAA+ protein family.
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PMID:DNA replication-coupled inactivation of DnaA protein in vitro: a role for DnaA arginine-334 of the AAA+ Box VIII motif in ATP hydrolysis. 1130 20

The 5' nuclease of DNA polymerase I (Pol I) of Escherichia coli is a member of an important class of prokaryotic and eukaryotic nucleases, involved in DNA replication and repair, with specificity for the junction between single-stranded and duplex DNA. We have investigated the interaction of the 5' nuclease domain with DNA substrates from the standpoint of both the protein and the DNA. Phosphate ethylation interference showed that the nuclease binds to the nucleotides immediately surrounding the cleavage site and also contacts the complementary strand one-half turn away, indicating that contacts are made to one face only of the duplex portion of the DNA substrate. Phosphodiester contacts were investigated further using DNA substrates carrying unique methylphosphonate substitutions, together with mutations in the 5' nuclease. These experiments suggested that two highly conserved basic residues, Lys(78) and Arg(81), are close to the phosphodiester immediately 5' to the cleavage site, while a third highly conserved residue, Arg(20), may interact with the phosphodiester 3' to the cleavage site. Our results provide strong support for a DNA binding model proposed for the related exonuclease from bacteriophage T5, in which the conserved basic residues mentioned above define the two ends of a helical arch that forms part of the single-stranded DNA-binding region. The nine highly conserved carboxylates in the active site region appear to play a relatively minor role in substrate binding, although they are crucial for catalysis. In addition to binding the DNA backbone around the cleavage point, the 5' nuclease also has a binding site for one or two frayed bases at the 3' end of an upstream primer strand. In agreement with work in related systems, 5' nuclease cleavage is blocked by duplex DNA in the 5' tail, but the enzyme is quite tolerant of abasic DNA or polarity reversal within the 5' tail.
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PMID:Contacts between the 5' nuclease of DNA polymerase I and its DNA substrate. 1134 26

The first pre-steady-state kinetic analysis of the stereoselectivity of a DNA polymerase, Pol beta from rat brain, toward Rp and Sp isomers of dATPalphaS, and alteration of the stereoselectivity by various metal ions and by site-directed mutagenesis are reported. Diastereomers of dATPalphaS were synthesized by enzymatic methods to >98% purity. The rate of polymerization (k(pol)) and the apparent dissociation constant (K(d,app)) were measured with dATP, Rp-dATPalphaS, and Sp-dATPalphaS in the presence of Mg(2+), Mn(2+), or Cd(2+). The results indicate that wild type (WT) polymerase (Pol) beta can incorporate both Sp- and Rp-dATPalphaS in the presence of Mg(2+), but Sp is the preferred isomer. The stereoselectivity, defined as (k(pol)/K(d))(Sp)/(k(pol)/K(d))(Rp) (abbreviated Sp/Rp ratio), is 57.5 in the presence of Mg(2+). When Mg(2+) was substituted with Mn(2+) and Cd(2+), the Sp/Rp ratio decreased to 7.6 and 21, respectively. These results are discussed in relation to the crystal structures of various Pol beta complexes, as well as previous steady-state kinetic studies of other DNA polymerases. In addition, the D276R mutant was designed to introduce a potential extra hydrogen bonding interaction between the arginine side chain and the pro-Sp oxygen of the alpha-phosphate of dNTP. The kinetic data of the D276R mutant showed a pronounced relaxation of stereoselectivity of dATPalphaS (Sp/Rp ratio = 1.5, 3.7, and 1.5 for Mg(2+), Mn(2+), and Cd(2+), respectively). Furthermore, the D276R mutant showed a 5-fold enhanced reactivity toward Rp-dATPalphaS relative to WT Pol beta, suggesting that this mutant Pol beta can be used to incorporate Rp-dNTPalphaS into DNA oligomers.
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PMID:DNA polymerase beta: pre-steady-state kinetic analyses of dATP alpha S stereoselectivity and alteration of the stereoselectivity by various metal ions and by site-directed mutagenesis. 1146 64

We examined the replication fidelity of an Arg660Ser (R660S) mutant of Thermus aquaticus DNA polymerase I (Taq pol I). In a forward mutation assay, R660S showed a marked reduction in T-->C transitions, one of the most frequent errors made by the wild-type enzyme. Steady-state kinetics showed that R660S discriminates against dGTP incorporation at a template T 13-fold better than the wild-type. R660S was also 3.2-fold less efficient than the wild-type at extending a T:dG mismatch. These results indicate that R660S has enhanced fidelity during incorporation and extension, which reduces its T-->C transition frequency. Interestingly, R660S also discriminated correct from incorrect nucleotides at the incorporation step of C:dATP, A:dATP, G:dATP and C:8-OH-dGTP mispairs 28-, 6.0-, 4.1- and 6.8-fold better, respectively, than the wild-type, although it may not always be as accurate as the wild-type at the extension step. A structural model suggests that Arg660 may participate in two interactions that influence fidelity; the guanidinium group of Arg660 might interact with the incoming guanine base at the major groove and it might compete for forming another interaction with the primer terminus. Substituting Arg with Ser may eliminate or alter these interactions and destabilize the closed complex with incorrect substrates. Our data also suggest that T:dGTP and C:dATP base pairs form 'wobble' structures at the incorporation step of Taq pol I.
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PMID:Arg660Ser mutation in Thermus aquaticus DNA polymerase I suppresses T-->C transitions: implication of wobble base pair formation at the nucleotide incorporation step. 1160 Jul 9

The fidelity of DNA replication by Escherichia coli DNA polymerase I (pol I) was assessed in vivo using a reporter plasmid bearing a ColE1-type origin and an ochre codon in the beta-lactamase gene. We screened 53 single mutants within the region Val(700)-Arg(712) in the polymerase active-site motif A. Only replacement of Ile(709) yielded mutator polymerases, with substitution of Met, Asn, Phe, or Ala increasing the beta-lactamase reversion frequency 5-23-fold. Steady-state kinetic analysis of the I709F polymerase revealed reductions in apparent K(m) values for both insertion of non-complementary nucleotides and extension of mispaired primer termini. Abolishment of the 3'-5' exonuclease activity of wild-type pol I increased mutation frequency 4-fold, whereas the combination of I709F and lack of the 3'-5' exonuclease yielded a 400-fold increase. We conclude that accurate discrimination of the incoming nucleotide at the polymerase domain is more critical than exonucleolytic proofreading for the fidelity of pol I in vivo. Surprisingly, the I709F polymerase enhanced mutagenesis in chromosomal DNA, although the increase was 10-fold less than in plasmid DNA. Our findings indicate the feasibility of obtaining desired mutations by replicating a target gene at a specific locus in a plasmid under continuous selection pressure.
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PMID:In vivo mutagenesis by Escherichia coli DNA polymerase I. Ile(709) in motif A functions in base selection. 1160 76

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.
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PMID:DNA polymerase I of Mycobacterium tuberculosis: functional role of a conserved aspartate in the hinge joining the M and N helices. 1167 39

The ATP-bound DnaA protein opens duplex DNA at the Escherichia coli origin of replication, leading to a series of initiation reactions in vitro. When loaded on DNA, the DNA polymerase III sliding clamp stimulates hydrolysis of DnaA-bound ATP in the presence of the IdaB/Hda protein, thereby yielding ADP-DnaA, which is inactive for initiation in vitro. This negative feedback regulation of DnaA activity is proposed to play a crucial role in the replication cycle. We here report that the mutant protein DnaA R334A is inert to hydrolysis of bound ATP, although its affinities for ATP and ADP remain unaffected. The ATP-bound DnaA R334A protein, but not the ADP form, initiates minichromosomal replication in vitro at a level similar to that seen for wild-type DnaA. When expressed at moderate levels in vivo, DnaA R334A is predominantly in the ATP-bound form, unlike the wild-type and DnaA E204Q proteins, which in vitro hydrolyze ATP in a sliding clamp- and IdaB/Hda-dependent manner. Furthermore, DnaA R334A, but not the wild-type or the DnaA E204Q proteins, promotes overinitiation of chromosomal replication. These in vivo data support a crucial role for bound nucleotides in regulating the activity of DnaA during replication. Based on a homology modeling analysis, we suggest that the Arg-334 residue closely interacts with bound nucleotides.
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PMID:A nucleotide switch in the Escherichia coli DnaA protein initiates chromosomal replication: evidnece from a mutant DnaA protein defective in regulatory ATP hydrolysis in vitro and in vivo. 1183 37

The analysis of the active site region in the crystal structures of template-primer-bound KlenTaq (Klenow fragment equivalent of Thermus aquaticus polymerase I) shows the presence of an approximately 18-A long H-bonding track contributed by the Klenow fragment equivalent of Asn(845), Gln(849), Arg(668), His(881), and Gln(677). Its location is nearly diagonal to the helical axis of the template-primer. Four base pairs in the double stranded region proximal to 3' OH end of the primer terminus appear to interact with individual amino acid components of the track through either the bases or sugar moieties. To understand the functional significance of this H-bonding network in the catalytic function of Klenow fragment (KF), we generated N845A, N845Q, Q849A, Q849N, R668A, H881A, H881V, Q677A, and Q677N mutant species by site-directed mutagenesis. All of the mutant enzymes showed low catalytic activity. The kinetic analysis of mutant enzymes indicated that K(m)(.dNTP) was not significantly altered, but K(D)(.DNA) was significantly increased. Thus the mutant enzymes of the H-bonding track residues had decreased affinity for template-primer, although the extent of decrease was variable. Most interestingly, even the reduced binding of TP by the mutant enzymes occurs in the nonproductive mode. These results demonstrate that an H-bonding track is necessary for the binding of template-primer in the catalytically competent orientation in the pol I family of enzymes. The examination of the interactive environment of individual residues of this track further clarifies the mode of cooperation in various functional domains of pol I.
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PMID:Presence of 18-A long hydrogen bond track in the active site of Escherichia coli DNA polymerase I (Klenow fragment). Its requirement in the stabilization of enzyme-template-primer complex. 1252 14

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