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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)
Herpes simplex virus type 1 encodes its own
DNA polymerase
(Pol), the product of the UL30 gene, and a polymerase accessory subunit, the product of the UL42 gene, both of which are required for viral DNA replication. Pol and the UL42 protein associate to form a heterodimeric complex (Pol/UL42) which is more active and has a higher processivity than the Pol catalytic subunit alone. The Pol/UL42 complex has been reconstituted by mixing together highly purified Pol and UL42 subunits obtained from recombinant baculovirus-infected cells. We have used polymerase activity on poly(dA):oligo(dT20), a template that the Pol subunit utilizes with low efficiency, to measure the formation of the Pol/UL42 complex. Our data indicate that the association constant for the Pol/UL42 complex is 1 x 10(8) M-1. Proteolytic digestions of UL42 were performed to determine whether structural domains of UL42 could be disclosed by differential amino acid accessibilities. The ability of these protease-resistant domains to form a functional complex with Pol was determined by measuring their ability to stimulate Pol activity on poly(dA):oligo(dT20). We have found that
trypsin
digestion of UL42 in the presence of DNA generates protease-resistant fragments of 28K and 8K which co-elute from a MonoQ column and are able to stimulate Pol activity on poly(dA):oligo(dT20). Complex formation of the 28K and 8K tryptic fragments with Pol was also shown by their co-immunoprecipitation with antibody to Pol. It was determined that the 28K fragment of UL42 comprised amino acids 1 to 245 or 1 to 254 of UL42, whereas the 8K fragment started at amino acid 255. Thus, controlled proteolysis of UL42 revealed two closely contiguous structural domains that retained the ability to complex with Pol and stimulate Pol activity.
...
PMID:The herpes simplex virus type 1 DNA polymerase accessory protein, UL42, contains a functional protease-resistant domain. 840 41
Mild proteolysis of rat
DNA polymerase beta
(beta-pol) generates an N-terminal 8 kDa domain and a C-terminal 31 kDa domain; the 31 kDa domain is degraded to 6 and 27 kDa fragments by further proteolysis [Kumar, A., Widen, S.G., Williams, K.R., Kedar, P., Karpel, R.L., & Wilson S.H. (1990) J. Biol. Chem. 265, 2124-2131]. In the present study, we found that more vigorous
trypsin
digestion of the 27 kDa fragment of beta-pol produces 10 and 12 kDa subdomains. Thus, rat beta-pol has four distinct proteolytic fragments of 8, 6, 10, and 12 kDa, extending from the N-terminus to the C-terminus, respectively. To map the location of the dNTP binding site(s), intact beta-pol was photoaffinity labeled with 8-azido-ATP or 5-azido-dUTP in presence or absence of competitor dNTP (dATP). The labeled enzyme was subjected to controlled proteolysis, and the resulting labeled peptides were separated and sequenced. Competition with dATP showed that three regions of beta-pol in solution combine to form the dNTP binding pocket as follows: residues 4-40 of the 8 kDa domain; residues 142-206 of the 10 kDa subdomain; and residues 263-280 of the 12 kDa subdomain (alpha-helices M and N). These results are discussed in light of the recent crystal structure of dATP bound to rat beta-pol.
...
PMID:dNTP binding site in rat DNA polymerase beta revealed by controlled proteolysis and azido photoprobe cross-linking. 861 93
Family B
DNA polymerase
from the thermoacidophilic archaeon Sulfolobus solfataricus (Sso DNA pol) is a monomer of about 100 kDa with two associated catalytic functions: 3'-5' exonuclease and
DNA polymerase
activities. The structure of this enzyme in the free and DNA-bound states was probed by limited proteolysis and fluorescence spectroscopy measurements. The results of partial
trypsin
proteolysis experiments on the recombinant Sso DNA pol pinpointed three major sites of protease sensitivity: near the N-terminus, within the center, and near the C-terminal end of the polypeptide chain. When partial
trypsin
digestion was carried out in the presence of either activated calf thymus DNA or primed M13mp18 single-stranded DNA, changes in cleavage pattern and in susceptibility to protease were detected. This phenomenon was dependent on the nucleic acid concentration and suggested the occurrence of DNA-induced conformational changes. These were also probed by steady-state fluorescence spectroscopy measurements using acrylamide as a quencher. Fine mapping of the DNA-specific cleavage sites allowed us to precisely locate the protein subdomains which were affected by these structural changes. Importantly, a specific proteolytic fragment of about 8 kDa was recovered after partial digestion of Sso DNA pol only in the presence of nucleic acid ligands. It was found to start at residues 392-394 and to span the protease-hypersensitive central region of the polypeptide chain. Its involvement in critical polymerase functions, such as substrate binding and/or enzyme processivity, was discussed. In addition, we found that controlled
trypsin
digestion of Sso DNA pol did not inactivate either polymerase or 3'-5' exonuclease activity concomitantly with the disappearance of full-sized enzyme. Activity gel analysis revealed that proteolytic products corresponding to the amino- and carboxyl-terminal halves of the enzyme retained 3'-5' exonuclease and
DNA polymerase
activity, respectively. These results are in line with the model of modular organization proposed for Sso DNA pol in a previous report.
...
PMID:Domain organization and DNA-induced conformational changes of an archaeal family B DNA polymerase. 870 21
Formation of the preinitiation complex for adenovirus DNA replication involves the incoming preterminal protein-adenovirus
DNA polymerase
heterodimer being positioned at the origin of replication by protein-DNA and protein-protein interactions. Preterminal protein directly binds to the cellular transcription factor nuclear factor III (Oct-1), via the POU homeodomain. Co-precipitation of POU with individual domains of preterminal protein expressed by in vitro translation indicated that POU contacts multiple sites on preterminal protein. Partial proteolysis of preterminal protein in the presence or absence of POU homeodomain demonstrated that many sites accessible to proteases in free preterminal protein were resistant to cleavage in the presence of POU homeodomain. The accessibility of sites in free preterminal protein to cleavage by
trypsin
was strongly dependent on the ionic strength, suggesting that preterminal protein may undergo a sodium chloride-induced conformational change. It is therefore likely that the POU homeodomain contacts a number of sites on preterminal protein to induce a conformational change which may influence the initiation of adenovirus DNA replication.
...
PMID:Characterisation of the adenovirus preterminal protein and its interaction with the POU homeodomain of NFIII (Oct-1). 1037 99
Putrescine biosynthesis is elevated before DNA replication, and a stimulation of DNA synthesis by 20 mM putrescine has been found using an in vitro DNA synthesizing system. Furthermore, this stimulation of DNA synthesis by putrescine involves a particular factor (factor PA). This factor PA stimulates DNA polymerases alpha, beta, and gamma, and is present in nuclei and mitochondria but not in cytoplasm. Factor PA loses about 80% of its activity by heating at 45 degrees C for 15 min or by hydrolysis with 100 mg ml(-1) Enzygel
trypsin
. These properties indicate that factor PA is a protein. Its size is estimated to be about 2.1 S. DNA synthesis in nuclear and mitochondrial
DNA polymerase
extracts from tumour tissues and host livers of tumour-bearing rats are not stimulated by 20 mM putrescine. However, the addition of excess factor PA to DNA synthesizing systems using
DNA polymerase
extracts from proliferative tissues again results in a stimulation of DNA synthesis by exogenous putrescine. These findings indicate that the stimulatory effect of DNA synthesis in vitro by exogenous putrescine is controlled by the ratio between factor PA and endogenously synthesized putrescine in proliferative tissues or that sent by the bloodstream from proliferative tissues. These results suggest that a non-stimulatory effect of putrescine on DNA synthesis may be diagnostic in tumour-bearing patients.
...
PMID:The difference in the stimulation by putrescine of DNA synthesis using DNA polymerase extracts of normal rat liver or of tumour tissue or host liver from tumour-bearing rats. 1212 97
DNA primase synthesizes short RNA primers used by DNA polymerases to initiate DNA synthesis. Two proteins of approximately 60 and 50 kD were recognized by specific antibodies raised against yeast primase subunits, suggesting a high degree of analogy between wheat and yeast primase subunits. Gel-filtration chromatography of wheat primase showed two active forms of 60 and 110 to 120 kD. Ultraviolet-induced cross-linking with radioactive oligothymidilate revealed a highly labeled protein of 60 kD. After limited
trypsin
digestion of wheat (Triticum aestivum L.) primase, a major band of 48 kD and two minor bands of 38 and 17 kD were observed. In the absence of DNA polymerases, the purified primase synthesizes long RNA products. The size of the RNA product synthesized by wheat primase is considerably reduced by the presence of DNA polymerases, suggesting a modulatory effect of the association between these two enzymes. Lowering the primase concentration in the assay also favored short RNA primer synthesis. Several properties of the wheat DNA primase using oligoadenylate [oligo(rA)]-primed or unprimed polythymidilate templates were studied. The ability of wheat primase, without DNA polymerases, to elongate an oligo(rA) primer to long RNA products depends on the primer size, temperature, and the divalent cation concentration. Thus, Mn2+ ions led to long RNA products in a very wide range of concentrations, whereas with Mg2+ long products were observed around 15 mM. We studied the ability of purified wheat DNA polymerases to initiate DNA synthesis from an RNA primer: wheat
DNA polymerase
A showed the highest activity, followed by DNA polymerases B and CII, whereas
DNA polymerase
CI was unable to initiate DNA synthesis from an RNA primer. Results are discussed in terms of understanding the role of these polymerases in DNA replication in plants.
...
PMID:Wheat DNA Primase (RNA Primer Synthesis in Vitro, Structural Studies by Photochemical Cross-Linking, and Modulation of Primase Activity by DNA Polymerases). 1223 87
To identify the sites in the
Klenow fragment
of Escherichia coli
DNA polymerase I
that interact with the ssDNA overhang of the template strand in the pre-polymerase ternary complex, we carried out UV-mediated photo-cross-linking of the enzyme-DNA-dNTP ternary complex. The template strand contained a nine-nucleotide overhang and was radiolabeled at the 5'-end. Since the enzyme-TP-dNTP ternary complex but not the E-TP binary complex is stable at high ionic strengths, the cross-linking was carried out in the presence of 0.5 M NaCl. The cross-linked E-TP-dNTP complex was purified and subjected to
trypsin
digestion. The radiolabeled TP cross-linked peptide was further purified by DEAE-Sepharose and C18 column chromatography and subjected to amino acid sequencing. The release of radiolabeled DNA during each sequencing cycle was also monitored. The sequencing results as well as the radioactivity release pattern show that F771, contained in a peptide spanning amino acids 759-775 of pol I, is the unequivocal site of the template cross-linking. A qualitative assessment of the cross-linking efficiency of the template overhang containing a TT sequence at different positions in the ternary complex further suggests that the major cross-linking site within the template overhang is at the second and/or third nucleotide. An examination of the F771A mutant enzyme showed that it was able to form the E-TP binary as well as E-TP-dNTP ternary complex; however, it could not cross-link to the template-primer in the ternary complex. Furthermore, the ternary complex with F771A was qualitatively defective and exhibited some salt sensitivity. These results suggest that F771 participates in the stabilization of the pre-polymerase ternary complex.
...
PMID:Phe 771 of Escherichia coli DNA polymerase I (Klenow fragment) is the major site for the interaction with the template overhang and the stabilization of the pre-polymerase ternary complex. 1266 54
The human DNA polymerase epsilon catalytic subunit consists of a 140-kDa N-terminal domain that contains the catalytic activity and a 120-kDa C-terminal domain that binds to the other subunits and to exogenous peptides, including PCNA and MDM2. We report here that recombinant human MDM2 purified from insect cells or Escherichia coli stimulated the activity of
DNA polymerase
epsilon up to 10- and 40-fold, respectively, but not those of
DNA polymerase beta
or
Klenow fragment
of E.coli
DNA polymerase I
. Kinetic studies indicated that MDM2 increased the maximum velocity of the reaction, but did not change substrate affinities. The stimulation depended upon the interaction of the N-terminal 166 amino acid residues of MDM2 with the C-terminal domain of the full-length catalytic subunit, since the deletion of 166 amino acids from N-terminal of MDM2 or the removal of the C-terminal domain of
DNA polymerase
epsilon by
trypsin
digestion or competition for binding to it by the addition of excess C-terminal fragment eliminated the stimulation. Since
DNA polymerase
epsilon appears to be involved in DNA replication, recombination and repair synthesis, we suggest that MDM2 binding to
DNA polymerase
epsilon might be part of a reconfiguration process that allows
DNA polymerase
epsilon to associate with repair/recombination proteins in response to DNA damage.
...
PMID:Stimulation of human DNA polymerase epsilon by MDM2. 1271 91
The genome of the Neodiprion sertifer nucleopolyhedrovirus (NeseNPV), which infects the European pine sawfly, N. sertifer (Hymenoptera: Diprionidae), was sequenced and analyzed. The genome was 86,462 bp in size. The C+G content of 34% was lower than that of the majority of baculoviruses. A total of 90 methionine-initiated open reading frames (ORFs) with more than 50 amino acids and minimal overlapping were found. From those, 43 ORFs were homologous to other baculovirus ORFs, and 29 of these were from the 30 conserved core genes among all baculoviruses. A NeseNPV homolog to the ld130 gene, which is present in all other baculovirus genomes sequenced to date, could not be identified. Six NeseNPV ORFs were similar to non-baculovirus-related genes, one of which was a
trypsin
-like gene. Only one iap gene, containing a single BIR motif and a RING finger, was found in NeseNPV. Two NeseNPV ORFs (nese18 and nese19) were duplicates transcribed in opposite orientations from each other. NeseNPV did not have an AcMNPV ORF 2 homolog characterized as the baculovirus repeat ORF (bro). Six homologous regions (hrs) were located within the NeseNPV genome, each containing small palindromes embedded within direct repeats. A phylogenetic analysis was done to root the tree based upon the sequences of
DNA polymerase
genes of NeseNPV, 23 other baculoviruses, and other phyla. Baculovirus phylogeny was then constructed with 29 conserved genes from 24 baculovirus genomes. Culex nigripalpus nucleopolyhedrovirus (CuniNPV) was the most distantly related baculovirus, branching to the hymenopteran NeseNPV and the lepidopteran nucleopolyhedroviruses and granuloviruses.
...
PMID:Sequence analysis of the genome of the Neodiprion sertifer nucleopolyhedrovirus. 1519 80
Recently, we developed an in vitro system using human uracil DNA glycosylase (UDG), AP endonuclease (APE),
DNA polymerase beta
(pol beta) and rotationally positioned DNA containing a single uracil associated with a 'designed' nucleosome, to test short-patch base excision repair (BER) in chromatin. We found that UDG and APE carry out their catalytic activities with reduced efficiency on nucleosome substrates, showing a distinction between uracil facing 'out' or 'in' from the histone surface, while
DNA polymerase beta
(pol beta) is completely inhibited by nucleosome formation. In this report, we tested the inhibition of BER enzymes by the N-terminal 'tails' of core histones that take part in both inter- and intra-nucleosome interactions, and contain sites of post-translational modifications. Histone tails were removed by limited
trypsin
digestion of 'donor' nucleosome core particles and histone octamers were exchanged onto a nucleosome-positioning DNA sequence containing a single G:U mismatch. The data indicate that UDG and APE activities are not significantly enhanced with tailless nucleosomes, and the distinction between rotational settings of uracil on the histone surface is unaffected. More importantly, the inhibition of pol beta activity is not relieved by removal of the histone tails, even though these tails interact with DNA in the G:U mismatch region. Finally, inclusion of X-ray cross complement group protein 1 (XRCC1) or Werner syndrome protein (WRN) had no effect on the BER reactions. Thus, additional activities may be required in cells for efficient BER of at least some structural domains in chromatin.
...
PMID:Base excision repair in nucleosomes lacking histone tails. 1559 Mar 28
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