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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 beta-globin genes from a Thai patient compound heterozygous for beta-thalassemia and HbE disease were investigated. The 3.0-kilobase fragment containing the entire beta-globin gene was amplified by polymerase chain reaction, using
Taq DNA polymerase
followed by direct cloning of the amplified product into plasmid DNA. Sequence analysis of the thalassemia gene revealed only one base change, a C-A transversion within codon for an amino acid 35. This new mutation creates a premature terminator,
TAA
, an ochre codon, and results in a beta 0-thalassemia phenotype. The same result was obtained when this mutation was analyzed using a conventional cloning technique, direct sequencing of the amplified product, and hybridization with allele-specific oligonucleotide probes. No misincorporation was detected in the sequence analysis of the 3.0-kilobase insert of five clones of the amplified products obtained from genomic DNA of a normal individual. This approach is a rapid and accurate method for molecular cloning of the beta-globin gene and also other genes, the partial nucleotide sequences of which are known.
...
PMID:A novel ochre mutation in the beta-thalassemia gene of a Thai. Identification by direct cloning of the entire beta-globin gene amplified using polymerase chain reactions. 254 42
The 31mer 5'-TCA ACG CTA GAA TTC GGA TCC ATC GCT TGG T, the complementary 33mer 5'-CCA AGC GAT GGA TCC GAA TTC TAG CGT TGA GAT, the 40mer 5'-GGC CAG GAT GGT GAA GAA TTC GAT CCG GTA CGT AGC
TAA
G, and the complementary 42mer 5'-TAC TTA GCT ACG TAC CGG ATC GAA TTC TTC ACC ATC CTG GCC were synthesized and their reactivity towards EcoRI was studied. It was found that the 31mer and the 40mer were cleaved at a comparable rate to the 31mer-33mer hybrid and the 40mer-42mer hybrid, respectively. The rate of cleavage of the 33mer and the 42mer was an order of magnitude lower. To rule out possible intermolecular duplex formation, the 33mer was immobilized on cellulose by ligation and labeled with alpha 32P-dCTP using
Klenow fragment
of E. coli
DNA polymerase
. EcoRI cleaved this immobilized oligomer into specific fragments.
...
PMID:Cleavage of single stranded oligonucleotides by EcoRI restriction endonuclease. 302 89
The Escherichia coli dnaE and dnaQ genes encode, respectively, the alpha (polymerase) and epsilon (proofreading) subunits of
DNA polymerase III
. Mutations in these genes resulting in mutator or antimutator phenotypes provide important tools to understand the mechanisms by which mutations occur. One way to isolate such strains is the use of papillation assays. We used one such assay based on the reversion of the galK2 allele in cells grown on MacConkey-Gal plates. Here, we describe the identification of the galK2 mutation and its possible reversion pathways, and the characterization of 7 mutators isolated using this system. 1 mutator resided in dnaE and 6 in dnaQ. Sequencing of the galK2 allele revealed a G.C-->T.A transversion at base pair 571 that changed a glu codon (GAA) to a stop codon (
TAA
). The analysis of 319 revertants showed that a Gal+ phenotype can be achieved by A.T-->G.C transition, A.T-->T.A transversion and A.T-->C.G transversion. We characterized the mutator phenotypes of the newly isolated mutators by determining (i) their mutation frequencies to resistance to rifampicin and nalidixic acid in both wild-type and mutL backgrounds, (ii) their temperature sensitivity and medium dependence and (iii) their mutational specificity (by analyzing the nature of galK revertants). Based on the genomic locations of their mutations, specificity of reversion pathways and magnitude of mutator effects, the mutators can be grouped into 3 classes. These classes may represent different mutational mechanisms that include defective base insertion, defective proofreading and interference with the postreplicative mismatch-repair system.
...
PMID:The Escherichia coli galK2 papillation assay: its specificity and application to seven newly isolated mutator strains. 769 54
In order to study the conversion of UV lesions into frameshift and base substitution mutations, M13mp2 phage DNA was altered by the addition of extra pyrimidines, or by construction of a nonsense codon preceded by a run of pyrimidines within the beta-galactosidase complementing region. The normal sequence 5' GTC GTT TTA CAA 3' was changed to GTC GTT T TTA CAA (MIDT) or GTC GTT C TTA CAA (MIDC) to study frameshifts and to GTC GTT CTT
TAA
(OCHRE) to study reversion of the ochre (
TAA
) codon. Escherichia coli pol I Kf and T7
DNA polymerase
mutant enzymes devoid of 3'-->5' exonuclease activity produced UV-induced revertants at higher frequency than did their exonuclease proficient counterparts. Removal of cyclobutane dimers with photolyase before in vitro synthesis did not greatly affect mutant frequency although such treatment led to significantly increased DNA synthesis by the wild-type T7
DNA polymerase
on UV-irradiated substrate. Reversions of the in frame ochre sequence GTT CTT
TAA
produced by the delta 28 T7
DNA polymerase
were mainly by base substitution in the
TAA
codon. About half of the E. coli Kf exo- enzyme ochre revertants had a TTA deletion. Five mutant T7 DNA polymerases with varying exonuclease activity gave revertant frequencies that correlated better with published values of enzyme velocity than with exonuclease activity or with measured bypass synthesis. Our data indicate that loss of proofreading activity increases the frequency of UV-induced frameshifts, but lack of such activity is not sufficient for their production. We suggest that frameshifts occur more frequently when nucleotide addition opposite the lesion is slow. The same lesion can give rise to a different spectrum of mutations depending on the polymerase.
...
PMID:Production of UV-induced frameshift mutations in vitro by DNA polymerases deficient in 3'-->5' exonuclease activity. 802 6
The triplet repeat sequences (CGG)n, (GCT)n, and (CAG)n, which naturally occur in the human genome, can be autonomously expanded in human DNA by an as yet unknown mechanism. These in part excessive expansions have been causally related to human genetic diseases, the fragile X (Martin-Bell) syndrome, to myotonic dystrophy (Curschmann-Steinert), to spinal and bulbar muscular atrophy (Kennedy disease), and recently to Huntington disease. A GCC trinucleotide repeat was found to be expanded and methylated in the fragile site FRAXE on the human X chromosome. These findings were associated with mental retardation (Knight et al., 1993). In spinocerebellar ataxia type 1 (SCA1), a polymorphic CAG repeat was found to be unstable and expanded in individuals with that disease (Orr et al., 1993). We have demonstrated in in vitro experiments that the synthetic oligodeoxyribonucleotides (CGG)17, (CGG)12, (GCC)17, (CG)25, (CTG)17, or (CAG)17 plus (GTC)17, in the absence of added natural DNA, can be expanded with Taq polymerase in the polymerase chain reaction (PCR). Some expansion can already be detected after 4 PCR cycles. The E. coli Klenow
DNA polymerase
also functions in a similar amplification and expansion reaction performed at 37 degrees C without cycling. Other oligodeoxyribonucleotides, like, (CGG)7, (CGGT)13, or (
TAA
)17, are devoid of this property or have very low activity. The cytidine-methylated polymers (GCC)17 or (CG)25 yield expansion products of considerably reduced chain lengths. The expansion of the polymer (CGG)17 is affected by cytidine methylation to a lesser degree. A specific sequence and/or secondary structure and high CG content appear to be requirements for this expansion reaction by a possible slippage mechanism.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Enzymatic amplification of synthetic oligodeoxyribonucleotides: implications for triplet repeat expansions in the human genome. 811 62
Several neuromuscular and neurodegenerative diseases are caused by genetically unstable triplet repeat sequences (CTG.CAG, CGG.CCG, or AAG.CTT) in or near the responsible genes. We implemented novel cloning strategies with chemically synthesized oligonucleotides to clone seven of the triplet repeat sequences (GTA.TAC, GAT.ATC, GTT.AAC, CAC.GTG, AGG.CCT, TCG.CGA, and AAG.CTT), and the adjoining paper (Ohshima, K., Kang, S., Larson, J. E., and Wells, R. D.(1996) J. Biol. Chem. 271, 16784-16791) describes studies on TTA.
TAA
. This approach in conjunction with in vivo expansion studies in Escherichia coli enabled the preparation of at least 81 plasmids containing the repeat sequences with lengths of approximately 16 up to 158 triplets in both orientations with varying extents of polymorphisms. The inserts were characterized by DNA sequencing as well as
DNA polymerase
pausings, two-dimensional agarose gel electrophoresis, and chemical probe analyses to evaluate the capacity to adopt negative supercoil induced non-B DNA conformations. AAG.CTT and AGG.CCT form intramolecular triplexes, and the other five repeat sequences do not form any previously characterized non-B structures. However, long tracts of TCG.CGA showed strong inhibition of DNA synthesis at specific loci in the repeats as seen in the cases of CTG.CAG and CGG.CCG (Kang, S., Ohshima, K., Shimizu, M., Amirhaeri, S., and Wells, R. D.(1995) J. Biol. Chem. 270, 27014-27021). This work along with other studies (Wells, R. D.(1996) J. Biol. Chem. 271, 2875-2878) on CTG.CAG, CGG.CCG, and TTA.
TAA
makes available long inserts of all 10 triplet repeat sequences for a variety of physical, molecular biological, genetic, and medical investigations. A model to explain the reduction in mRNA abundance in Friedreich's ataxia based on intermolecular triplex formation is proposed.
...
PMID:Cloning, characterization, and properties of seven triplet repeat DNA sequences. 866 77
This study investigated the influence of different neighboring base contexts on the production of base substitutions generated by N-ethyl-N-nitrosourea (ENU). A set of bacterial strains having all possible bases neighboring an ochre (
TAA
) nonsense mutation in the tyrA gene of Escherichia coli were employed and true reversions of the nonsense mutation were induced by two separate doses of ENU. Base substitution mutations were investigated by direct sequencing methods. These studies revealed that 1) mutations occurring at 5'-purine-T sites were produced better, on average, than mutations involving 5'-pyrimidine-T sites, and 5'-TT sites contributed the least to the formation of mutations, 2) the order of preference for A:T to G:C transitions was 5'-GT>5'-AT, 5'-CT>5'-TT, and 3) A:T to C:G transversions at the first position of the codon (GAA mutations) were produced best at 5'-AT sites, while A:T to T:A transversions at the third position (TAT mutations) occurred more often at 5'-GT sites. These findings suggest that the occurrence of a specific mutation may reflect the sequence-dependent probability of DNA damage at a particular site as well as factors involving preferential DNA repair or differential base selection by
DNA polymerase
.
...
PMID:Neighboring base identity affects N-ethyl-N-nitrosourea-induced mutagenesis in Escherichia coli. 1237 63
Fapy.dG and 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxo-dG) are formed in DNA by hydroxyl radical damage. In order to study replication past these lesions in cells, we constructed a single-stranded shuttle vector containing the lesion in 5'-TGT and 5'-TGA sequence contexts. Replication of the modified vector in simian kidney (COS-7) cells showed that Fapy.dG is mutagenic inducing primarily targeted Fapy.G-->T transversions. In the 5'-TGT sequence mutational frequency of Fapy.dG was approximately 30%, whereas in the 5'-TGA sequence it was approximately 8%. In parallel studies 8-oxo-dG was found to be slightly less mutagenic than Fapy.dG, though it also exhibited a similar context effect: 4-fold G-->T transversions (24% versus 6%) occurred in the 5'-TGT sequence relative to 5'-TGA. To investigate a possible structural basis for the higher G-->T mutations induced by both lesions when their 3' neighbor was T, we carried out a molecular modeling investigation in the active site of
DNA polymerase beta
, which is known to incorporate both dCTP (no mutation) and dATP (G-->T substitution) opposite 8-oxo-G. In pol beta, the syn-8-oxo-G:dATP pair showed greater stacking with the 3'-T:A base pair in the 5'-TGT sequence compared with the 3'-A:T in the 5'-TGA sequence, whereas stacking for the anti-8-oxo-G:dCTP pair was similar in both 5'-TGT and 5'-TGA sequences. Similarly, syn-Fapy.G:dATP pairing showed greater stacking in the 5'-TGT sequence compared with the 5'-TGA sequence, while stacking for anti-Fapy.G:dCTP pairs was similar in the two sequences. Thus, for both lesions less efficient base stacking between the lesion:dATP pair and the 3'-A:T base pair in the 5'-TGA sequence might cause lower G-->T mutational frequencies in the 5'-TGA sequence compared to 5'-TGT. The corresponding lesions derived from 2'-deoxyadenosine, Fapy.dA and 8-oxo-dA, were not detectably mutagenic in the 5'-TAT sequence, and were only weakly mutagenic (<1%) in the 5'-
TAA
sequence context, where both lesions induced targeted A-->C transversions. To our knowledge this is the first investigation using extrachromosomal probes containing a Fapy.dG or Fapy.dA site-specifically incorporated, which showed unequivocally that in simian kidney cells Fapy.G-->T substitutions occur at a higher frequency than 8-oxo-G-->T and that Fapy.dA is very weakly mutagenic, as is 8-oxo-dA.
...
PMID:Genetic effects of oxidative DNA damages: comparative mutagenesis of the imidazole ring-opened formamidopyrimidines (Fapy lesions) and 8-oxo-purines in simian kidney cells. 1667 49
