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)

The solitary cAMP response element (CRE)1 in the human DNA polymerase beta (beta-pol) core promoter plays a key role in both basal expression and the DNA-alkylating agent response of the promoter. To further understand the role of the CRE in the regulation of this promoter, we searched for novel CRE-binding proteins by using a 32P-labeled beta-pol CRE oligodeoxynucleotide and a human cDNA expression library constructed in phage lambda. A total of fourteen phage clones were isolated, corresponding to various members of the CRE-binding protein family. One of these clones, termed ATF2 deletion (ATF2d), encodes a novel ATF2 isoform and was chosen for further characterization in this study. Relative to ATF2 mRNA, this clone contains an internal 97-nt deletion and a unique 3' region. The 97-nt deletion causes a frame shift, resulting in a ATF2-like polypeptide of approximately 60 kDa. ATF2d retains the bZIP domain of ATF2, lacks the N-terminal zinc-finger region, and includes novel characteristics in its N- and C-terminal regions.
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PMID:Cloning and characterization of a novel member of the human ATF/CREB family: ATF2 deletion, a potential regulator of the human DNA polymerase beta promoter. 1290 47

Phage K is a polyvalent phage of the Myoviridae family which is active against a wide range of staphylococci. Phage genome sequencing revealed a linear DNA genome of 127,395 bp, which carries 118 putative open reading frames. The genome is organized in a modular form, encoding modules for lysis, structural proteins, DNA replication, and transcription. Interestingly, the structural module shows high homology to the structural module from Listeria phage A511, suggesting intergenus horizontal transfer. In addition, phage K exhibits the potential to encode proteins necessary for its own replisome, including DNA ligase, primase, helicase, polymerase, RNase H, and DNA binding proteins. Phage K has a complete absence of GATC sites, making it insensitive to restriction enzymes which cleave this sequence. Three introns (lys-I1, pol-I2, and pol-I3) encoding putative endonucleases were located in the genome. Two of these (pol-I2 and pol-I3) were found to interrupt the DNA polymerase gene, while the other (lys-I1) interrupts the lysin gene. Two of the introns encode putative proteins with homology to HNH endonucleases, whereas the other encodes a 270-amino-acid protein which contains two zinc fingers (CX(2)CX(22)CX(2)C and CX(2)CX(23)CX(2)C). The availability of the genome of this highly virulent phage, which is active against infective staphylococci, should provide new insights into the biology and evolution of large broad-spectrum polyvalent phages.
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PMID:Genome of staphylococcal phage K: a new lineage of Myoviridae infecting gram-positive bacteria with a low G+C content. 1509 May 28

The T7 DNA primase synthesizes tetraribonucleotides that prime DNA synthesis by T7 DNA polymerase but only on the condition that the primase stabilizes the primed DNA template in the polymerase active site. We used NMR experiments and alanine scanning mutagenesis to identify residues in the zinc binding domain of T7 primase that engage the primed DNA template to initiate DNA synthesis by T7 DNA polymerase. These residues cover one face of the zinc binding domain and include a number of aromatic amino acids that are conserved in bacteriophage primases. The phage T7 single-stranded DNA-binding protein gp2.5 specifically interfered with the utilization of tetraribonucleotide primers by interacting with T7 DNA polymerase and preventing a productive interaction with the primed template. We propose that the opposing effects of gp2.5 and T7 primase on the initiation of DNA synthesis reflect a sequence of mutually exclusive interactions that occur during the recycling of the polymerase on the lagging strand of the replication fork.
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PMID:A molecular handoff between bacteriophage T7 DNA primase and T7 DNA polymerase initiates DNA synthesis. 1513 47

The G-quadruplex nucleic acid structural motif is a target for designing molecules that could potentially modulate telomere length or have anticancer properties. We have recently described an engineered zinc finger protein (Gq1) that binds with specificity to the intramolecular G-quadruplex formed by the human telomeric sequence 5'-(GGTTAG)(5)-3' (Isalan et al. (2001) Biochemistry 40, 830-836). Here, we report that Gq1 is able to arrest the action of a DNA polymerase on a template-containing telomeric sequence. Inhibition occurs in a concentration-dependent manner, probably by forming a stabilized G-quadruplex.protein complex. Furthermore, Gq1 inhibits the apparent activity of the enzyme telomerase in vitro, with an IC(50) value of 74.3 +/- 11.1 nM. Possible molecular mechanisms of inhibition are discussed, together with the potential for using engineered zinc fingers to interfere with the cellular processes associated with telomere function.
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PMID:Inhibition of human telomerase activity by an engineered zinc finger protein that binds G-quadruplexes. 1549 Nov 52

A macrocyclic tetraamine zinc(II) complex appended with two quinoline groups, Zn(2+)-1,7-bis(4-quinolylmethyl)-1,4,7,10- tetraazacyclododecane (Zn(2+)-Q2-cyclen), was successfully used as a novel additive to suppress nonspecific products in DNA polymerase chain reaction (PCR). In the presence of Zn(2+)-Q2-cyclen, the Tm drop of 20-bp heteroduplexes containing a noncomplementary basepair was greater than that of the corresponding homoduplex (i.e., primer DNA). Here, we applied such preferential DNA melting to a specificity-enhanced PCR using micromolar concentrations of Zn(2+)-Q2-cyclen. We demonstrated the selective amplification of target DNA fragments (i.e., the human heart sodium channel Nav1.5 gene) from genomic DNA or a cDNA library. The optimum condition for the specificity-enhanced PCR could be determined in the concentration range of 1-50muM of Zn(2+)-Q2-cyclen.
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PMID:A heteroduplex-preferential Tm depressor for the specificity-enhanced DNA polymerase chain reactions. 1564 89

DNA primases catalyze the synthesis of oligoribonucleotides to initiate lagging strand DNA synthesis during DNA replication. Like other prokaryotic homologs, the primase domain of the gene 4 helicase-primase of bacteriophage T7 contains a zinc motif and a catalytic core. Upon recognition of the sequence, 5'-GTC-3' by the zinc motif, the catalytic site condenses the cognate nucleotides to produce a primer. The TOPRIM domain in the catalytic site contains several charged residues presumably involved in catalysis. Each of eight acidic residues in this region was replaced with alanine, and the properties of the altered primases were examined. Six of the eight residues (Glu-157, Glu-159, Asp-161, Asp-207, Asp-209, and Asp-237) are essential in that altered gene 4 proteins containing these mutations cannot complement T7 phage lacking gene 4 for T7 growth. These six altered gene 4 proteins can neither synthesize primers de novo nor extend an oligoribonucleotide. Despite the inability to catalyze phosphodiester bond formation, the altered proteins recognize the sequence 5'-GTC-3' in the template and deliver preformed primer to T7 DNA polymerase. The alterations in the TOPRIM domain result in the loss of binding affinity for ATP as measured by surface plasmon resonance assay together with ATP-agarose affinity chromatography.
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PMID:Acidic residues in the nucleotide-binding site of the bacteriophage T7 DNA primase. 1591 41

We describe a CCCH type of zinc finger domain in a replication protein A (RPA) homolog found in members of different lineages of the Euryarchaeota, a subdomain of Archaea. The zinc finger is characterized by CX(2)CX(8)CX(2)H, where X is any amino acid. Using MacRPA3, a representative of this new group of RPA in Methanosarcina acetivorans, we made two deletion mutants: a C-terminal deletion mutant lacking the zinc finger and an N-terminal deletion mutant containing the zinc finger domain. Whereas the N-terminal deletion mutant contained zinc at a level comparable to the wild-type protein level, the C-terminal deletion mutant was devoid of zinc. We further created four different mutants of MacRPA3 by replacing each of the four invariable amino acids in the zinc finger with alanine. Each single mutation at an invariable position resulted in a protein containing less than 35% of the zinc found in the wild-type protein. Circular dichroism spectra suggested that although the mutation at the first cysteine resulted in minor perturbation of protein structure, mutations at the other invariable positions led to larger structural changes. All proteins harboring a mutation at one of the invariable positions bound to single-stranded DNA weakly, and this translated into reduced capacity to stimulate DNA synthesis by M. acetivorans DNA polymerase BI. By subjecting the protein and its mutants to oxidizing and reducing conditions, we demonstrated that ssDNA binding by MacRPA3 may be regulated by redox through the zinc finger. Thus, the zinc finger modules in euryarchaeal RPA proteins may serve as a means by which the function of these proteins is regulated in the cell.
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PMID:A CCCH zinc finger conserved in a replication protein a homolog found in diverse Euryarchaeotes. 1629 61

Nanoarchaeum equitans family B-type DNA polymerase (Neq DNA polymerase) is encoded by two separate genes, the large gene coding for the N-terminal part (Neq L) of Neq DNA polymerase and the small gene coding for the C-terminal part (Neq S), including a split mini-intein sequence. The two Neq DNA polymerase genes were cloned and expressed in Escherichia coli individually, together (for the Neq C), and as a genetically protein splicing-processed form (Neq P). The protein trans-spliced Neq C was obtained using the heating step at 80 degrees C after the co-expression of the two genes. The protein trans-splicing of the N-terminal and C-terminal parts of Neq DNA polymerase was examined in vitro using the purified Neq L and Neq S. The trans-splicing was influenced mainly by temperature, and occurred only at temperatures above 50 degrees C. The trans-splicing reaction was inhibited in the presence of zinc. Neq S has no catalytic activity and Neq L has lower 3'-->5' exonuclease activity; whereas Neq C and Neq P have polymerase and 3'-->5' exonuclease activities, indicating that both Neq L and Neq S are needed to form the active DNA polymerase that possesses higher proofreading activity. The genetically protein splicing-processed Neq P showed the same properties as the protein trans-spliced Neq C. Our results are the first evidence to show experimentally that natural protein trans-splicing occurs in an archaeal protein, a thermostable protein, and a family B-type DNA polymerase.
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PMID:Protein trans-splicing and characterization of a split family B-type DNA polymerase from the hyperthermophilic archaeal parasite Nanoarchaeum equitans. 1641 62

Water-soluble, octacationic zinc phthalocyanine (ZnPc) was found to be a very good G-quadruplex DNA stabilizer by using UV-melting studies and DNA polymerase stop assays, and a potent telomerase inhibitor by using the telomeric repeat amplification protocol (TRAP) assay. The compound's DNA-binding properties were also studied by surface plasmon resonance (SPR). Furthermore, CD experiments demonstrated that ZnPc could induce intramolecular G-quadruplex structure transition from the antiparallel to parallel form. More importantly, ZnPc was found to induce parallel structure formation in cation-deficient conditions. The stability of the induced structure was determined with CD melting assays.
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PMID:Quaternary ammonium zinc phthalocyanine: inhibiting telomerase by stabilizing G quadruplexes and inducing G-quadruplex structure transition and formation. 1736 82

GTP cyclohydrolase (GCH) III from Methanocaldococcus jannaschii, which catalyzes the conversion of GTP to 2-amino-5-formylamino-6-ribosylamino-4(3H)-pyrimidinone 5'-phosphate (FAPy), has been shown to require Mg2+ for catalytic activity and is activated by monovalent cations such as K+ and ammonium [Graham, D. E., Xu, H., and White, R. H. (2002) Biochemistry 41, 15074-15084]. The reaction is formally identical to that catalyzed by a GCH II ortholog (SCO 6655) from Streptomyces coelicolor; however, SCO 6655, like other GCH II proteins, is a zinc-containing protein. The structure of GCH III complexed with GTP solved at 2 A resolution clearly shows that GCH III adopts a distinct fold that is closely related to the palm domains of phosphodiesterases, such as DNA polymerase I. GCH III is a tetramer of identical subunits; each monomer is composed of an N- and a C-terminal domain that adopt nearly superimposible structures, suggesting that the protein has arisen by gene duplication. Three metal ions were located in the active site, two of which occupy positions that are analogous to those occupied by divalent metal ions in the structures of a number of palm domain containing proteins, such as DNA polymerase I. Two conserved Asp residues that coordinate the metal ions, which are also found in palm domain containing proteins, are observed in GCH III. Site-directed variants (Asp-->Asn) of these residues in GCH III are less active than wild-type. The third metal ion, most likely a potassium ion, is involved in substrate recognition through coordination of O6 of GTP. The arrangement of the metal ions in the active site suggests that GCH III utilizes two metal ion catalysis. The structure of GCH III extends the repertoire of possible reactions with a palm fold to include cyclohydrolase chemistry.
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PMID:A new use for a familiar fold: the X-ray crystal structure of GTP-bound GTP cyclohydrolase III from Methanocaldococcus jannaschii reveals a two metal ion catalytic mechanism. 1805 7

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