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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)
ras proto-oncogenes are activated by point mutation in a wide variety of human and animal tumors, making ras gene analysis a major area of clinical and basic cancer research. Activating point mutations, in each of the three ras genes (Ha-, Ki-, or
N-ras
), usually occur in one of three specific codons (12, 13, or 61). Thus, an adequate assessment of activating ras gene mutations should include the analysis of at least nine codons. We have developed a rapid method for point mutation analysis of the ras genes, which involves simultaneous (multiplex) PCR amplification of all three homologous ras genes (in the regions surrounding codons 12-13 and codon 61) in a single reaction starting with only 1 microgram of genomic DNA. Although multiplex PCR has been previously used for unrelated sequences, we demonstrate here that multiplex PCR can also be used for highly homologous sequences. Importantly, after coamplification, each of the homologous ras genes can be individually and specifically sequenced even though the other two closely related genes are present in the same template mixture, by using high-stringency conditions permitted by
Taq DNA polymerase
. An automated multicycle DNA sequencing procedure is used to allow the double-stranded PCR products to be sequenced directly without the need to generate single-stranded templates, further simplifying the protocol. Our multiplex PCR amplification and direct DNA sequencing procedures should greatly facilitate more complete analyses of activating ras gene point mutations, particularly in studies involving many tumor samples.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Multiplex polymerase chain reaction amplification and direct sequencing of homologous sequences: point mutation analysis of the ras genes. 180 52
A new method for the production of a chimeric protein of two related genes has been developed. The nucleotide sequences of the region from the N terminus to the 86th amino acid (aa) residue of human
N-ras
and of the Harvey sarcoma virus (Ha-MuSV) H-ras are 80% homologous. We isolated the DNA fragment encoding the N-terminal portion up to the 70th aa residue from plasmid pH-1 which encodes the total genome of Ha-MuSV, and the DNA fragment encoding the C-terminal portion from the 40th aa to the C terminus from plasmid p6a1 which includes the human
N-ras
cDNA but lacks the N-terminal portion. After partial digestion of both fragments with phage lambda exonuclease, which creates 3'-protruding ends, a hybrid was formed between 73% homologous single-stranded DNA portions at the 3' ends of both fragments. The hybrid was recloned on pBR322 after repairing with Escherichia coli
DNA polymerase I
and DNA ligase. The chimeric v-H/
N-ras
gene composed of the N-terminal portion of v-H-ras gene and the remaining region of
N-ras
gene was inserted into an expression vector containing two tandem trp promoters and a terminator, and expressed in E. coli. The chimeric protein was found to accumulate to approx. 10% of total cellular proteins.
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PMID:Production of chimeric protein coded by the fused viral H-ras and human N-ras genes in Escherichia coli. 303 85
In order to examine the effect of adenine N6 adducts of styrene oxide (SO) on DNA replication, 33-mer templates were constructed bearing site-specific and stereospecific SO modifications. Both R- and S-SO adducts were introduced at four different base positions within a sequence containing codons 60-62 from the human
N-ras
gene. The resulting eight templates were replicated in primer extension assays using the
Klenow fragment
, Sequenase 2.0, T4 polymerase holoenzyme, polymerase alpha, and polymerase beta. Replication of the damaged templates was analyzed under conditions defining single and/or multiple encounters between the polymerase and the substrate. Polymerization by all five enzymes was sensitive to both the local sequence context and the chirality of the SO adduct. For example, R-SO lesions placed at the third position of
N-ras
codon 61 were readily bypassed, whereas stereochemically-identical lesions in other sequence contexts were often poor substrates for replication. Similarly, R- and S-SO adducts introduced within identical sequences were often bypassed nonequivalently. Significantly, the degree of adduct-directed termination and translesion synthesis during replication was also dependent on the choice of polymerase. Although SO adducts directed termination either opposite the lesion or 1 base 3' to the damage using all five polymerases, templates that were poor substrates for bypass synthesis with one enzyme were often read-through much more efficiently when a different polymerase was used. Thus, the activities of these enzymes on the SO-modified substrates produced replication profiles, or "fingerprints", that were unique to each polymerase.
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PMID:The efficiency of translesion synthesis past single styrene oxide DNA adducts in vitro is polymerase-specific. 757 29
DNA adducts of the environmental carcinogen benzo[a]pyrene-7,8-dihydrodiol-9,10-epoxide (BPDE) interact stereospecifically with prokaryotic and eukaryotic polymerases in vitro. Toward understanding the capacity to replicate past different diastereomers of BPDE at specific sites in DNA, six deoxyoligonucleotides, each 33 bases long, were constructed with stereochemically defined BPDE adducts on adenine N6 at position two of the human
N-ras
codon 61. Four polymerases that were studied under single encounters with the template-primer complex terminated synthesis one base 3' to the lesion with all the adducted templates. When multiple encounters between polymerase and substrate were permitted, each of the polymerases analyzed revealed a unique pattern for a given adducted template. The general replication pattern was encompassed under two categories, reflecting the significance of the R and S configurations of C10 of the pyrenyl ring attached to the single-stranded DNA template. Furthermore, within each of these categories, every polymerase demonstrated distinct quantitative differences in product accumulation at a given site, for the various adducted templates. Among the polymerases utilized in this study, exonuclease-deficient
Klenow fragment
of polymerase I (exo- KF) exhibited the most efficient translesion synthesis resulting in approximately 16% full-length products with the modified templates bearing adducts with C10-S configuration. In contrast, chain elongation with bacteriophage T4
DNA polymerase
bearing an active 3'-->5' exonucleolytic activity was most strongly inhibited by all six BPDE-adducted templates. Misincorporation of A opposite the adduct occurred in all the templates when polymerized with Sequenase, whereas exo- KF preferentially incorporated C opposite the C10-R BPDE adducts and A opposite the C10-S BPDE adducts.
...
PMID:In vitro replication by prokaryotic and eukaryotic polymerases on DNA templates containing site-specific and stereospecific benzo[a]pyrene-7,8-dihydrodiol-9,10-epoxide adducts. 775 32
Benzo[a]pyrene-7,8-dihydrodiol 9,10-epoxide (BPDE), a metabolite of the widespread environmental pollutant benzo[a]pyrene, is a mutagenic in both bacterial and mammalian systems. Toward understanding the mutagenic effects of different stereoisomers of BPDE at specific sites in DNA, six stereochemically defined BPDE adducts were constructed on adenine N6 at position 2 of the human
N-ras
61 codon within an 11-base oligonucleotide fragment. Both the nonadducted and BPDE-adducted
N-ras
61 11-mers were inserted into a unique EcoRI site in single-stranded M13mp7L2 DNA and utilized for in vivo studies. The ligation efficiencies of BPDE-adducted 11-mers into the single-stranded vector were determined by Southern hybridization and confirmed by electron microscopy. Repair-deficient AB2480 E. coli cells were transformed with adducted and non-adducted DNA samples. The resultant plaque-forming abilities were used to evaluate the replication competence of the various BPDE adducts with respect to the nonadducted 11-mer. Point mutations due to aberrant replication at the adducted site were identified by the technique of differential DNA hybridization. All of the six BPDE adducts examined were mutagenic in vivo, generating exclusively A-->G mutations at frequencies ranging from 0.26 to 1.20%. In vitro replication studies using these BPDE-adducted 11-mers involved primer extension assays with
Klenow fragment
. All of the BPDE-modified templates demonstrated distinct blockage at the adducted site and/or 1 base 3' to the adducted site, allowing essentially no translesion synthesis to form fully extended polymerization products in vitro.
...
PMID:In vivo and in vitro replication consequences of stereoisomeric benzo[a]pyrene-7,8-dihydrodiol 9,10-epoxide adducts on adenine N6 at the second position of N-ras codon 61. 789 Jun 5
Simplification of molecular genetic techniques is one of the main features of large-scale clinical applications of mutation analysis. The solid-phase minisequencing method, which is based on single-nucleotide primer extension by a
DNA polymerase
on a solid support, is an easy way of detecting point mutations of previously known locations. Here the procedure was further simplified by the use of microplates made of scintillating plastics, a microplate format scintillation counter and an automatic microplate washer. DNA samples from patients with either a hereditary aspartylglucosaminidase (AGA) gene point mutation or an acquired
N-ras
gene mutation were analyzed by three different minisequencing detection procedures utilizing tritiated nucleotides. The new counting method with scintillating plates was compared to traditional liquid scintillation counting in scintillation vials or to another microplate format procedure, which requires addition of scintillation liquid. In all three methods, normal individuals, heterozygous carriers of the AGA mutation and homozygous patients could be unequivocally discriminated. The
N-ras
mutation in leukemic blasts could also be detected with high resolution. The coefficients of variation and reproducibility of the scintillating microplate method were almost identical to those of the traditional liquid scintillation assay, which was used as a reference method. The technical innovations adopted here for performing minisequencing assays reduce significantly the labor required without affecting the quality of the results.
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PMID:Towards automatic detection of point mutations: use of scintillating microplates in solid-phase minisequencing. 806 51
In order to deduce the biological fate of adducts formed by the reaction of styrene oxide, a suspected carcinogen, with DNA, four oligodeoxynucleotides were synthesized which contained either R- or S-styrene oxide lesions on the N6 position of neighboring adenines within the human
N-ras
codon 61. When these adducted oligodeoxynucleotides were ligated into the single-stranded vector M13mp7L2 and the modified DNA used to transform repair-deficient Escherichia coli, the resultant plaque-forming abilities were found to vary as much as 300-fold, depending on the stereochemical configuration of the styrene oxide lesion and the sequence context in the vicinity of the damage. The frequency of mutations caused by the various styrene oxide adducts were similarly dependent on both their chirality and local sequence context. Oligodeoxynucleotide templates bearing these same four adducts were also constructed in order to evaluate their replication in vitro by the
Klenow fragment
. Three of the four styryl-modified templates yielded significant levels of fully extended primer upon polymerization. In contrast, the template containing R-styrene oxide at the second position of
N-ras
61 was a very poor substrate for replication, a result which correlates well with the observed lethality of this lesion in vivo.
...
PMID:The replication fate of R- and S-styrene oxide adducts on adenine N6 is dependent on both the chirality of the lesion and the local sequence context. 822 68
Thermus aquaticus (Taq)
DNA polymerase
elongation is blocked by several DNA adducts. This property has been exploited in polymerase chain reaction (PCR) methods to analyze cellular DNA damage and repair after exposure to damaging agents. Such methods have not been applied previously to detect nucleoside analog incorporation into cellular DNA. 2-Chloro-2'-deoxyadenosine (CldAdo), a deoxyadenosine analog, is clinically effective for hairy cell leukemia. CldAdo is taken up by cells, converted to the triphosphate, and incorporated into cellular DNA. Here, we measured by primer extension the ability of CldAMP residues in 98-base single-stranded DNA to block Taq elongation. In contrast to control DNA, no full-length 98-mers were produced on CldAMP-containing templates, and Taq polymerase was halted at the first CldAMP site. We then examined the possibility of using quantitative PCR to measure CldATP incorporation into the
N-ras
gene after incubation of cultured human leukemia cells with CldAdo or with cisplatin as a positive control for DNA damage. Treatment with either drug resulted in reduced amounts of amplified DNA product compared to untreated cells. CldAMP residues within cellular DNA inhibited PCR amplification in a dose-dependent manner; 100 nM CldAdo produced approximately 0.4 CldAMP sites within a 523-bp region of the
N-ras
sequence. Thus, PCR analysis with Taq polymerase provides a sensitive assessment of nucleoside analog incorporation after cellular exposure to antileukemic drugs.
...
PMID:Analysis of 2-chloro-2'-deoxyadenosine incorporation into cellular DNA by quantitative polymerase chain reaction. 973 41
We have developed an array-based resequencing method to determine genetic alterations in putative cancer genes. The method relies on that the specificity of
DNA polymerase
in allele-specific extensions can be enhanced by terminating the extension reactions with apyrase and that a tiling set of primers are synthesized covering the investigated gene sequence. We report on such apyrase-mediated allele-specific primer extension (AMASE) assay as a method suitable for high-throughout resequencing and mutation detection in tumor suppressor genes and oncogenes. In the experimental setup, primers complementary to codons 12, 13 and codon 61 of the
N-ras
proto-oncogene were spotted onto glass slides. Overlapping sense and anti-sense primers were designed so that complementary primers for all possible mutations in each base position were investigated. The extension reactions were performed in a single step following hybridization of target DNA to the immobilized primers on the array surface. Mutation detection limits and the possibility of quantifying the mutations were investigated using synthetic oligonucleotides. In addition, 64 clinical samples were sequenced and 16 of these showed mutations in the
N-ras
gene.
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PMID:Microarray-based resequencing by apyrase-mediated allele-specific extension. 1459 79
DNA structural perturbations that are induced by site specifically and stereospecifically defined benzo[a]pyrene-7,8-dihydrodiol-9,10-epoxide (BPDE) adducts are directly correlated with mutagenesis, leading to cellular transformation. Although previous investigations had established that replication of DNAs containing N(6) -BPDE dA adducts at the second position in the
N-ras
codon 61(CAA) (61(2) ) resulted exclusively in A to G transitions, NMR analyses not only established the structural basis for this transition mutation but also predicted that if the adduct were positioned at the third position in the same codon, an expanded spectra of mutations was possible. To test this prediction, replication of DNAs containing C10 S-BPDE and C10 R-BPDE lesions linked through the N(6) position of adenine in the sequence context
N-ras
codon 61, position 3 (C10 S-BPDE and C10 R-BPDE at 61(3) ) was carried out in Escherichia coli, and these data revealed a wide mutation spectrum. In addition to A to G transitions produced by replication of both lesions, replication of the C10 S-BPDE and C10 R-BPDE adducts also yielded A to C and A to T transversions, respectively. Analyses of single nucleotide incorporation using Sequenase 2.0 and exonuclease-deficient E. coli
Klenow fragment
and pol II not only revealed high fidelity synthesis but also demonstrated the same hierarchy of preference opposite a particular lesion, independent of the sequence context. Primer extension assays with the two lesions at
N-ras
61(3) resulted in truncated products, with the C10 S-BPDE adducts being more blocking than C10 R-BPDE lesions, and termination of synthesis was more pronounced at position 61(3) than at 61(2) for each of the lesions.
...
PMID:Sequence context modulation of polycyclic aromatic hydrocarbon-induced mutagenesis. 2391 16
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