EC:3.4.16.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.16.2 (PCP)
3,761 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lysine 318 in the conserved sequence SXXXGXGKS of bacteriophage T7 gene 4A' protein was mutated to an alanine to understand the effect of this substitution on the helicase and primase activities. The dTTPase activity of 4A'/K318A mutant protein was much lower than that of 4A', and both Km and kcat values were affected. The Km of the mutant protein was 3-5-fold higher, and the kcat was about 100-fold lower, than that of 4A'. The mutation did not affect the ability of 4A'/K318A to assemble into hexamers or bind DNA in the presence of MgdTTP. Interestingly, the mutant protein does not bind DNA in the presence of MgdTMP-PCP. The reduced dTTPase activity, however, decreased the helicase activity of the mutant protein to an undetectable level, whereas its primase activity was only 1.5-2.5-fold lower. When 4A'/K318A mutant protein was mixed with 4A', heterooligomers were formed and the helicase and the DNA-dependent dTTPase activities of 4A' were inhibited, but the DNA-independent activity actually increased. The extent of decrease in activities upon heterooligomer formation depended both on the length of time 4A' and 4A'/K318A proteins were incubated and on the concentration of the mutant protein. In addition, the decrease in the dTTPase activity was observed only when the two proteins were incubated in the absence of MgdTTP and DNA, conditions under which both proteins form unstable hexamers. Even though 4A'/K318A does not bind a 30-mer DNA in the presence of MgdTMP-PCP, heterooligomers were capable of binding DNA with the same stoichiometry as 4A'. Protein-DNA cross-linking experiments with (dT)30 and poly(5-BrdU) showed that DNA interacts with five and perhaps all six subunits of 4A'. Therefore, unless heterooligomer restores the ability of the mutant protein to bind DNA in the presence of MgdTMP-PCP, these results suggest that the DNA can bind 4A' by interacting with a few subunits. However, a fully active hexamer is required for both the helicase and the single-stranded M13 DNA-dependent dTTPase activities.
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PMID:The K318A mutant of bacteriophage T7 DNA primase-helicase protein is deficient in helicase but not primase activity and inhibits primase-helicase protein wild-type activities by heterooligomer formation. 801 49

Protein-DNA interactions of bacteriophage T7 DNA primase/helicase protein 4A' with small synthetic oligodeoxynucleotides were investigated using a 20-base-paired hairpin duplex, and 10-, 30-, and 60-base-long single-stranded DNA. The effect of nucleotide cofactors on DNA binding was examined using membrane binding assays which showed that 4A' binds DNA optimally only in the presence of MgdTMP-PCP, the nonhydrolyzable analog of dTTP. About 20% of single-stranded DNA binding was observed in the presence of MgdTDP, but none was detectable in the absence of nucleotides. Native polyacrylamide gel electrophoresis showed that the DNAs bind predominantly to the hexameric form of 4A'. Larger oligomers of 4A' can bind DNA, but no DNA binding was observed to species smaller than the hexamer. Quantitative equilibrium binding studies at increasing 4A' concentrations and at increasing DNA concentrations showed tight binding of one 10-mer or 30-mer per hexamer. The 4A' hexamer can bind a second strand of DNA, but with a 50-fold weaker affinity than the first strand. The 60-mer showed tight binding to two 4A' hexamers, suggesting that a hexamer may interact with only 30-40 bases of single-stranded DNA. This was corroborated by nuclease protection experiments where the smallest length of DNA protected by 4A' or 4B protein was found to be about 30 bases. Equilibrium binding studies and competitive DNA binding data are consistent with a weaker affinity of 4A' for the duplex DNA. Only 20-25% of duplex DNA binding was observed at increasing 4A' protein in the presence of MgdTMP-PCP. About four duplex DNAs can bind each 4A' hexamer at increasing DNA concentrations, but their weaker binding was evident from their facile dissociation from 4A' in the presence of competing single-stranded DNA.
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PMID:Interactions of bacteriophage T7 DNA primase/helicase protein with single-stranded and double-stranded DNAs. 824 Nov 39

The equilibrium nucleotide binding and oligomerization of bacteriophage T7 gene 4 helicases have been investigated using thymidine 5'-triphosphate (dTTP), deoxythymidine 5'-(beta, gamma-methylenetriphosphate)(dTMP-PCP), thymidine 5'-diphosphate (dTDP), adenosine 5'-triphosphate (ATP), and adenosine 5'-O-(3-thiotriphosphate) (ATP gamma S). In the presence of nucleotide ligands, T7 helicases self-assemble into hexamers with six potential nucleotide binding sites that are nonequivalent both in the absence and in the presence of single-stranded DNA. All nucleotides tested bind with high affinity to three sites (K(d) = 5 x 10(-6) M, dTTP; 6 x 10(-7) M, dTMP-PCP; 4 x 10(-6) M, dTDP; 3 x 10(-5) M, ATP; 2 x 10(-6) M, ATP gamma S), while binding to the remaining sites is undetectable. Interestingly, nucleotide binding to the high-affinity sites exhibits positive cooperativity which is sensitive to protein concentration. This effect is a result of ligand binding-linked oligomerization wherein helicase oligomer equilibrium changes as a function of both nucleotide and protein concentration. A study of DNA binding shows that 1-2 NTPs bound per hexamer are sufficient for stoichiometric interaction between the helicase and DNA. Thus, the ring-shaped helicase hexamers assemble around DNA with one, two, or three NTPs bound to each hexamer. This study also examines the preferred use of dTTP for T7 helicase-catalyzed DNA unwinding by comparison with ATP, the more commonly used nucleotide ligand. ATP binds to the helicase with 6-fold weaker affinity than dTTP and promotes hexamerization as well as DNA binding. Nevertheless, DNA unwinding with ATP is at least 100-fold slower than with dTTP. Thus, the difference in ATP and dTTP utilization probably lies in a highly specific step in the coupling of NTP hydrolysis to DNA unwinding.
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PMID:Cooperative interactions of nucleotide ligands are linked to oligomerization and DNA binding in bacteriophage T7 gene 4 helicases. 865 63

This review summarises mutagenesis-related research on the major classes of DNA minor groove binding ligands. These compounds can bind to DNA covalently or non-covalently, and span a range of DNA sequence selectivities. Many of the non-covalent binders show effects on topoisomerase enzymes in mammalian cells, with the bisbenzimidazoles being the most active. Mutagenic effects consistent with topoisomerase inhibition are observed in vitro. Many of these compounds induce aneuploidy and polyploidy, properties which may also contribute to carcinogenic processes. Similarly, uvrA trapping by some minor groove binders may alter mutagenetic processes by inhibiting efficient repair. Distamycin has been shown to enhance the mutagenicity of ethidium bromide in bacteria by an undetermined mechanism. However, the inhibitory effects of minor groove binders on human DNA repair systems have not yet been reported. Hoechst 33258 and distamycin cause chromosome decondensation in both mouse and human cells particularly at heterochromatic regions which are rich in AT content. Various minor groove binders have been shown to induce fragile sites in cultured lymphocytes from susceptible individuals, which may have a propensity to develop particular cancers. Investigation of the relationship between fragile site inducing drugs and chromosomal rearrangements in fragile site carriers has not been investigated but may yield interesting results. Some DNA alkylating minor groove binders can generate lesions extremely toxic to mammalian cells (e.g., CC-1065 and analogues), and induce a range of DNA sequence changes in vivo, both at the site of covalent bonding as well as at surrounding sequences. This may be typical of alkylating minor groove binders which have a binding site size of several base pairs, and which stabilise helical structure. Minor groove binders have effects on gene expression in vitro by inhibiting the sequence selective binding of various transcription factors to DNA. These effects may result in expression or repression of downstream genes also. This class of ligand thus offers the possibility of mutations targeted to specific genes or genomic regions. It will be interesting to determine whether such examples of targeted mutagenesis, as has already been observed with CC-1065 and adozelesin, will result in an enhanced or in a lowered capacity to promote neoplastic disease. However it should be noted that pentamidine, a minor groove binder used in the treatment of AIDS-related PCP, has thus far shown no mutagenic effects in nuclear DNA and only a weak effect in mitochondrial DNA of yeast. These results suggest that minor groove binding does not necessarily lead to mutagenesis.
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PMID:The mutagenic properties of DNA minor-groove binding ligands. 878 82

A method based on 16S rRNA gene-targeted PCR and oligonucleotide probing was developed for detecting Mycobacterium chlorophenolicum PCP-1 in soil. The primers and probe were specific for PCP-1 in DNA extracts of three soils. The method allowed for PCP-1 detection in soil with a detection limit of 3 x 10(2) cells per g.
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PMID:Rapid and sensitive method for the detection of Mycobacterium chlorophenolicum PCP-1 in soil based on 16S rRNA gene-targeted PCR. 891 17

Glutathione (GSH) conjugate formation with tetrachlorohydroquione (TCHQ) and the GSH content in vivo were measured by capillary zone electrophoresis. A more than 60% depletion of GSH content was found in liver tissue of mice treated with TCHQ. In addition, p53 protein accumulation and DNA fragmentation was induced by TCHQ. A two-stage model of chemical transformation of mouse embryonic fibroblasts was used to elucidate the transformation activity of TCHQ in vitro, and a 33% foci formation efficiency was found at the concentration of 5 microM. GSH depletion caused by TCHQ could abolish the protective ability of the cell against reactive oxygen species provided by GSH. When DNA was damaged, p53 protein accumulated in the nucleus and, in the case of severe damage, initiated apoptosis. TCHQ's ability to cause GSH depletion and DNA damage may play a role in the cytotoxic and genotoxic properties of its metabolic precursor, PCP.
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PMID:Induction of glutathione depletion, p53 protein accumulation and cellular transformation by tetrachlorohydroquinone, a toxic metabolite of pentachlorophenol. 923 72

A rapid method was developed for detecting in soil Desulfitobacterium frappieri strain PCP-1, an anaerobic gram-positive bacterium, isolated from a methanogenic consortium degrading pentachlorophenol. The method involved the establishment of a protocol for extracting total DNA from soil with the least contamination, and the use of the polymerase chain reaction (PCR) to detect strain PCP-1 with primers targeted with PCP-1 16S rRNA. To optimize the DNA extraction conditions, a glass mill homogenizer and a low-salt buffer containing polyvinylpolypyrrolidone were used on a black soil rich in organic matter. Recovered DNA was further purified with phenol/chloroform extractions, ammonium acetate precipitation and a G200 Sephadex gel-filtration column. DNA was extracted from soil supplemented with different concentrations of PCP-1 cells. Detection of PCP-1 was by PCR. The limit of detection was 800 added PCP-1 cells/g dry soil. This level of detection was achieved when the T4 gene-32 protein and 1 microgram soil DNA were added to the PCR mixture followed by a nested PCR. This method is quick, sensitive, and can process several samples at the same time.
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PMID:Rapid method for detecting Desulfitobacterium frappieri strain PCP-1 in soil by the polymerase chain reaction. 923 93

Multidrug-resistant strains of Vibrio cholerae (the causative agent of the diarrhoeal disease cholera) have recently been described. In an attempt to identify a homologue of the Escherichia coli TolC in V. cholerae, we isolated a DNA fragment (pVC) that enabled an E. coli tolC mutant to grow in the presence of 0.05% deoxycholate (DOC). However, other TolC defects were not complemented. Nucleotide sequence analysis of this fragment revealed the presence of two open reading frames (ORF1 and ORF2) separated by 9 bp and encoding 42.4 and 55.8 kDa proteins respectively. The translational products of these two ORFs correlated closely with the molecular weights of the predicted proteins. The deduced amino acid sequences of ORF1 and ORF2 showed a high degree of similarity with conserved regions of the E. coli efflux pump proteins, EmrA and EmrB. The presence of pVC2 within the E. coli efflux pump mutants defective in either the emrAB or the acrAB genes provided the mutants with resistance against several antibiotics. A V. cholerae isogenic mutant defective in ORF2 was constructed by gene replacement. Characterization of this mutant has shown it to be more sensitive to CCCP, PMA, PCP, nalidixic acid and DOC than the parent strain. These results suggest that ORF1 and ORF2 constitute an operon encoding two components of a putative multidrug resistance pump in V. cholerae. In addition, the presence of both structural and functional similarities between VceAB and EmrAB suggests that VceAB is a homologue of EmrAB.
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PMID:Isolation and characterization of a putative multidrug resistance pump from Vibrio cholerae. 946 56

The presence of P. carinii DNA in serum and in Peripheral Blood Mononuclear Cells (PBMC) during acute phase of PCP in AIDS patients was previously demonstrated by several authors using different specific primers. Amplification by ITSs nested PCR followed by TSO hybridization of P. carinii isolates derived from BAL and blood samples allows to compare genotypes involved in the disease and genotype-related dynamics of Pc-DNA clearance from blood during therapy. Different virulence characteristics among P. carinii genotypes could explain the various spectrum of clinical presentation (pulmonary and extrapulmonary) and susceptibility to classic antipneumocystic drugs during PCP.
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PMID:ITSs genotypes and blood dissemination during acute PCP. 950 17

Oropharyngeal washings (Ophs) from 27 HIV infected patients (18 with P. carinii pneumonia, PCP, and 9 without PCP) were examined for P. carinii using morphological staining and DNA amplification with PCR-SHELA and nested PCR methods. The comparison of these techniques shows that 1. the amplification of P. carinii DNA is more sensitive than (and as specific as) morphological staining; 2. PCR-SHELA is less sensitive than (and as specific as) nested PCR.
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PMID:Detection of Pneumocystis carinii in oropharyngeal washings by PCR-SHELA and nested PCR. 950 33

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