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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)
The BRCA1 COOH terminus (BRCT) motif is present in many nuclear proteins that contribute to cell cycle regulation or DNA repair. Polymerase chain reaction-based screening with degenerate primers targeted to the BRCT motif resulted in the isolation of a human cDNA for a previously unidentified
DNA polymerase
(designated
DNA polymerase beta2
) that is closely related to
DNA polymerase beta
(Pol beta). The predicted
Pol beta2
protein contains a BRCT motif in its NH(2)-terminal region; its COOH-terminal region exhibits 33% sequence identity to a corresponding region of human Pol beta. The
Pol beta2
gene is expressed in a tissue-specific manner, with transcripts being most abundant in testis. A fusion construct comprising
Pol beta2
and green fluorescent protein exhibited a predominantly nuclear localization in transfected HeLa cells. Recombinant human
Pol beta2
from insect cells exhibited substantial
DNA polymerase
activity, but it did not possess terminal deoxyribonucleotidyl transferase activity. A truncated
Pol beta2
mutant lacking the BRCT motif retained substantial
DNA polymerase
activity, whereas a mutant
Pol beta2
with two alanine point mutations within the
DNA polymerase
active site did not. These results indicate that
Pol beta2
is a Pol beta-related
DNA polymerase
with a BRCT motif that is dispensable for its polymerase activity.
...
PMID:Identification and characterization of human DNA polymerase beta 2, a DNA polymerase beta -related enzyme. 1088 91
A new gene (POLL) encoding a novel
DNA polymerase
(
Pol lambda
) has been identified at mouse chromosome 19. Murine
Pol lambda
, consisting of 573 amino acid residues, has a 32% identity to Pol beta, involved in nuclear DNA repair in eukaryotic cells. It is interesting that
Pol lambda
contains all the critical residues involved in DNA binding, nucleotide binding and selection, and catalysis of DNA polymerization, that are conserved in Pol beta and other DNA polymerases belonging to family X. Murine
Pol lambda
, overproduced in Escherichia coli, displayed intrinsic
DNA polymerase
activity when assessed by in situ gel analysis.
Pol lambda
also conserves the critical residues of Pol beta required for its intrinsic deoxyribose phosphate lyase (dRPase) activity. The first 230 amino acid residues of
Pol lambda
, that have no counterpart in Pol beta, contain a BRCT domain, present in a variety of cell-cycle check-point control proteins responsive to DNA damage and proteins involved in DNA repair. Northern blotting, in situ hybridization analysis and immunostaining showed high levels of
Pol lambda
specifically expressed in testis, being developmentally regulated and mainly associated to pachytene spermatocytes. These first evidences, although indirect, suggest a potential role of
Pol lambda
in DNA repair synthesis associated with meiosis.
...
PMID:DNA polymerase lambda (Pol lambda), a novel eukaryotic DNA polymerase with a potential role in meiosis. 1096 91
Base excision repair (BER) is a major repair pathway in eukaryotic cells responsible for repair of lesions that give rise to abasic (AP) sites in DNA. Pivotal to this process is the 5'-deoxyribose-5-phosphate lyase (dRP lyase) activity of
DNA polymerase beta
(Pol beta). DNA polymerase lambda (
Pol lambda
) is a recently identified eukaryotic
DNA polymerase
that is homologous to Pol beta. We show here that human
Pol lambda
exhibits dRP lyase, but not AP lyase, activity in vitro and that this activity is consistent with a beta-elimination mechanism. Accordingly, a single amino acid substitution (K310A) eliminated more than 90% of the wild-type dRP lyase activity, thus suggesting that Lys(310) of
Pol lambda
is the main nucleophile involved in the reaction. The dRP lyase activity of
Pol lambda
, in coordination with its polymerization activity, efficiently repaired uracil-containing DNA in an in vitro reconstituted BER reaction. These results suggest that
Pol lambda
may participate in "single-nucleotide" base excision repair in mammalian cells.
...
PMID:Identification of an intrinsic 5'-deoxyribose-5-phosphate lyase activity in human DNA polymerase lambda: a possible role in base excision repair. 1145 65
DNA polymerases (pols) catalyse the synthesis of DNA. This reaction requires a primer-template DNA in order to grow from the 3'OH end of the primer along the template. On the other hand terminal deoxyribonucleotidyl transferase (TdT) catalyses the addition of nucleotides at the 3'OH end of a DNA strand, without the need of a template.
Pol lambda
and pol micro are ubiquitous enzymes, possess both
DNA polymerase
and terminal deoxyribonucleotidyl transferase activities and belong to pol X family, together with pol beta and TdT. Here we show that pol lambda, pol micro and TdT, all possess the ability to synthesise in vitro short fragments of DNA in the absence of a primer-template or even a primer or a template in the reaction. The DNA synthesised de novo by pol lambda, pol micro and TdT appears to have an unusual structure. Furthermore we found that the amino acid Phe506 of pol lambda is essential for the de novo synthesis. This novel catalytic activity might be related to the proposed functions of these three pol X family members in DNA repair and DNA recombination.
...
PMID:De novo DNA synthesis by human DNA polymerase lambda, DNA polymerase mu and terminal deoxyribonucleotidyl transferase. 1513 41
Little is known about the functions of DNA polymerase lambda (
Pol lambda
) recently identified in mammals. From the genomic sequence information of rice and Arabidopsis, we found that
Pol lambda
may be the only member of the X-family in higher plants. We have succeeded in isolating the cDNA and recombinant protein of
Pol lambda
in a higher plant, rice (Oryza sativa L. cv. Nipponbare) (OsPol lambda). OsPol lambda had activities of
DNA polymerase
, terminal deoxyribonucleotidyl transferase and deoxyribose phosphate lyase, a marker enzyme for base excision repair. It also interacted with rice proliferating cell nuclear antigen (OsPCNA) in a pull-down assay. OsPCNA increased the processivity of OsPol lambda. Northern blot analysis showed that the level of OsPol lambda expression correlated with cell proliferation in meristematic and meiotic tissues, and was induced by DNA-damaging treatments. These properties suggest that plant
Pol lambda
is a DNA repair enzyme which functions in plant meristematic and meiotic tissues, and that it can substitute for Pol beta and terminal deoxyribonucleotidyl transferase.
...
PMID:Plant DNA polymerase lambda, a DNA repair enzyme that functions in plant meristematic and meiotic tissues. 1520 45
DNA polymerase lambda contains template-dependent (
DNA polymerase
) and template-independent (terminal transferase) activities. In this study we enzymologically characterized the terminal transferase activity of polymerase lambda (pol lambda-tdt).
Pol lambda
-tdt activity was strongly influenced by the nature of the 3'-terminal sequence of the DNA substrate, and it required a single-stranded (ss) DNA 3'-overhang of about 9-12 nucleotides for optimal activity. The strong preference observed for pyrimidine versus purine nucleotide incorporation was found to be due, at least partially, to a steric block imposed by the residue Tyr-505 in the active site of pol lambda.
Pol lambda
-tdt was found to be able to elongate a 3'-ssDNA end by two alternative mechanisms: first, a template-independent one resulting in addition of 1 or 2 nucleotides, and second, a template-dependent one where a homopolymeric tract as short as 3 nucleotides at the 3'-end could be used as a template to direct DNA polymerization by a looping back mechanism. Furthermore repetitive cycles of DNA synthesis resulted in the expansion of such a short homopolymeric terminal sequence. Most importantly we found that the proliferating cell nuclear antigen was able to selectively block the looping back mechanism while stimulating the single terminal nucleotide addition. Finally replication protein A completely suppressed the transferase activity of pol lambda while stimulating the polymerase activity, suggesting that proliferating cell nuclear antigen and replication protein A can coordinate the polymerase and the terminal transferase activities of pol lambda.
...
PMID:DNA elongation by the human DNA polymerase lambda polymerase and terminal transferase activities are differentially coordinated by proliferating cell nuclear antigen and replication protein A. 1553 31
DNA polymerase lambda (
Pol lambda
) is a novel enzyme of the family X of DNA polymerases.
Pol lambda
has some properties in common with
DNA polymerase beta
(Pol beta). The substrate properties of
Pol lambda
were compared to Pol beta using DNAs mimicking short-patch (SP) and long-patch (LP) base excision repair (BER) intermediates as well as recessed template primers. In the present work, the influence of several BER proteins such as flap-endonuclease-1 (FEN1), PCNA, and apurinic/apyrimidinic endonuclease-1 (APE1) on the activity of
Pol lambda
was investigated.
Pol lambda
is unable to catalyze strand displacement synthesis using nicked DNA, although this enzyme efficiently incorporates a dNMP into a one-nucleotide gap. FEN1 and PCNA stimulate the strand displacement activity of
Pol lambda
. FEN1 processes nicked DNA, thus removing a barrier to
Pol lambda
DNA synthesis. It results in a one-nucleotide gapped DNA molecule that is a favorite substrate of
Pol lambda
. Photocrosslinking and functional assay show that
Pol lambda
is less efficient than Pol beta in binding to nicked DNA. APE1 has no influence on the strand displacement activity of
Pol lambda
though it stimulates strand displacement synthesis catalyzed with Pol beta. It is suggested that
Pol lambda
plays a role in the SP BER rather than contributes to the LP BER pathway.
...
PMID:Comparison of functional properties of mammalian DNA polymerase lambda and DNA polymerase beta in reactions of DNA synthesis related to DNA repair. 1597 54
DNA polymerase
(Pol) lambda is a member of the Pol X family and possesses four different enzymatic activities, being
DNA polymerase
, terminal transferase, deoxyribose phosphate lyase and polynucleotide synthetase, all localized in its C-terminal region. On the basis of its biochemical properties,
Pol lambda
has been implicated in various DNA repair pathways, such as abasic site translesion DNA synthesis, base excision repair and non-homologous end joining of double strand breaks. However, its role in vivo has not yet been elucidated. In addition,
Pol lambda
has been shown to interact with the replication clamp proliferating cell nuclear antigen (PCNA) in vitro and in vivo. In this work, we searched by affinity chromatography for novel partners and we identified the cyclin-dependent kinase Cdk2 as novel partner of
Pol lambda
.
Pol lambda
is phosphorylated in vitro by several Cdk/cyclin complexes, including Cdk2/cyclin A, in its proline-serine-rich domain. While the polymerase activity of
Pol lambda
was not affected by Cdk2/cyclin A phosphorylation, phosphorylation of
Pol lambda
was decreased by its interaction with PCNA. Finally,
Pol lambda
is also phosphorylated in vivo in human cells and this phosphorylation is modulated during the cell cycle.
...
PMID:Phosphorylation of human DNA polymerase lambda by the cyclin-dependent kinase Cdk2/cyclin A complex is modulated by its association with proliferating cell nuclear antigen. 1617 46
The base excision repair (BER) process requires removal of an abasic deoxyribose-5-phosphate group, a catalytic activity that has been demonstrated for the N-terminal 8 kDa domain of
DNA polymerase beta
(Pol beta), and for the homologous domain of DNA polymerase lambda (
Pol lambda
). Previous studies have demonstrated that this activity results from formation of a Schiff base adduct of the abasic deoxyribose C-1' with a lysine residue (K312 in the case of
Pol lambda
), followed by a beta-elimination reaction. To better understand the underlying chemistry, we have determined pKa values for the lysine residues in the
Pol lambda
lyase domain labeled with [epsilon-13C]lysine. At neutral pH, the H(epsilon) protons on 3 of the 10 lysine residues in this domain, K287, K291, and K312, exhibit chemical shift inequivalence that results from immobilization of the lysyl side chains. For K287 and K291, this results from the K287-E261 and K291-E298 salt bridge interactions, while for K312, immobilization apparently results from steric and hydrogen-bonding interactions that constrain the position of the lysine side chain. The pKa value of K312 is depressed to 9.58, a value indicating that at physiological pH K312 will exist predominantly in the protonated form. Titration of the domain with hairpin DNA containing a 5'-tetrahydrofuran terminus to model the abasic site produced shifts of the labeled lysine resonances that were in fast exchange but appeared to be complete at a stoichiometry of approximately 1:1.3, consistent with a dissociation constant of approximately 1 microM. The epsilon-proton shifts of K273 were the most sensitive to the addition of the DNA, apparently due to changes in the relative orientation between K273 and W274 in the DNA complex. The average pKa values increased by 0.55, consistent with the formation of some DNA-lysine salt bridges and with the general pH increase expected to result from a reduction in the net positive charge of the complex. A general increase in the Hill coefficients observed in the complex is consistent with the screening of the interacting lysine residues by the DNA. The pKa of K312 residue increased to 10.58 in the complex, probably due to salt bridge formation with the 5'-phosphate group of the DNA. The pKa values obtained for the lyase domain of
Pol lambda
in the present study are consistent with recent crystallographic studies of Pol beta complexed with 5-phosphorylated abasic sugar analogues in nicked DNA which reveal an open site with no obvious interactions that would significantly depress the pK value for the active site lysine residue. It is suggested that due to the heterogeneity of the damaged DNA substrates with which
Pol lambda
as well as other related polymerases may be required to bind, the unexpectedly poor optimization of the lyase catalytic site may reflect a compromise of flexibility with catalytic efficiency.
...
PMID:NMR determination of lysine pKa values in the Pol lambda lyase domain: mechanistic implications. 1646 25
Determination of the protonation state of titratable protein residues is of critical importance for the interpretation of active site chemistry, as well as for understanding the role of electrostatic interactions in protein folding and stability. However, protein titration studies are limited by the fact that, at extreme pH values, increasing fractions of unfolded or partially unfolded structures may be present. This problem is particularly acute for lysine residues which have high pK values. In the present study, we point out that the use of the 13C resonance of lysine C-5 as a reporter for titration of the epsilon-amino group is preferable to the use of C-6 due to the 5-fold greater titration shift, so that reasonable results can be obtained using a two parameter fit of data obtained over a more limited pH range. A new synthetic procedure for [5-13C]lysine is described, and the pK value for Lys72 in the lyase domain of
DNA polymerase beta
has been determined using the [5-13C]lysine-labeled enzyme. The results agree well with recent studies of the
Pol lambda
lyase domain, demonstrating that the pK value for this residue is not optimized for Schiff base chemistry (Gao et al., Biochemistry 2006, 45, 1785-1794). We also have re-evaluated data for the pK of Lys73 in the TEM-1 beta-lactamase.
...
PMID:Determination of lysine pK values using [5-13C]lysine: application to the lyase domain of DNA Pol beta. 1678 52
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