• BMB Reports
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• v.38 no.1
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• pp.24-27
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• 2005

The role of 3' exonuclease excision in DNA polymerization was evaluated for primer extension using inert allele specific primers with exonuclease-digestible ddNMP at their 3' termini. Efficient primer extension was observed in amplicons where the inert allele specific primers and their corresponding templates were mismatched. However, no primer-extended products were yielded by matched amplicons with inert primers. As a control, polymerase without proofreading activity failed to yield primer extended products from inert primers regardless of whether the primers and templates were matched or mismatched. These data indicated that activation was undertaken for the inert allele specific primers through mismatch proofreading. Complementary to our previously developed SNP-operated on/off switch, in which DNA polymerization only occurs in matched amplicon, this new mutation detection assay mediated by $exo^+$ DNA polymerases has immediate applications in SNP analysis independently or in combination of the two assays.

• BMB Reports
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• v.31 no.6
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• pp.585-589
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• 1998

The herpes simplex virus type-1 (HSV-1)-encoded DNA polymerase consists of two subunits, the products of the UL30 and UL42 genes. UL30 and UL42 were coexpressed in Sf9 cells infected with recombinant baculoviruses carrying the two genes. The UL30 and UL42 gene products remained tightly associated throughout the purification, which led to a near homogeneous heterodimer composed of the DNA polymerase and UL42 protein. The DNA polymerase-UL42 protein heterodimer, purified from the recombinant baculovirus-infected Sf9 cells, showed the same high degree of processivity of deoxynucleotide polymerization as the enzyme purified from the HSV-1 infected primate cells. Like the latter, it contained a 3'-5' exonuclease activity that specifically hydrolyzes an incorrectly matched nucleotide at the 3' terminus of a primer, thereby contributing to the fidelity of DNA replication.

• Journal of Microbiology and Biotechnology
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• v.15 no.6
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• pp.1359-1367
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• 2005

The gene encoding Pyrobaculum arsenaticum DNA polymerase (Par DNA polymerase) was cloned and sequenced. The gene consists of 2,361 bp coding for a protein with 786 amino acid residues. The deduced amino acid sequence of Par DNA polymerase showed a high similarity to archaeal family B-type DNA polymerases (Group I), and contained all of the motifs conserved in the family B-type DNA polymerases for $3'{\rightarrow}5'$ exonuclease and polymerase activities. The Par DNA polymerase gene was expressed under the control of the T7lac promoter on the expression vector pET-22b(+) in Escherichia coli BL21-CodonPlus(DE3)-RP. The expressed enzyme was purified by heat treatment, and Cibacron blue 3GA and $Hirap^{TM}$ Heparin HP column chromatographies. The optimum pH of the purified enzyme was 7.5. The enzyme activity was activated by divalent cations, and was inhibited by EDTA and monovalent cations. The half-life of the enzyme at $95^{\circ}C$ was 6 h. Par DNA polymerase possessed associated $3'{\rightarrow}5'$ proofreading exonuclease activity, which is consistent with its deduced amino acid sequence. PCR experiment with Par DNA polymerase showed an amplified product, indicating that this enzyme might be useful in DNA amplification and PCR-based applications.

• Microbiology and Biotechnology Letters
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• v.38 no.2
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• pp.158-162
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• 2010

The gene encoding N-terminally truncated Tod polymerase ($\Delta$Tod polymerase) from Thermus thermophilus HJ6 was expressed in Escherichia coli under the control of the lambda pR and pL tandem promoters on the expression vector pJLA503. The N-terminal domain (250 amino acids) of Tod polymerase was removed without significant effect on enzyme activity and stability, while no 5'$\rightarrow$3' exonuclease activity was detected. The $\Delta$Tod polymerase was verified to possess very efficient reverse transcriptase (RT) activity in the presence of $MgCl_2$. The cDNA can also be amplified in the polymerase chain reaction (PCR) with this mutant enzyme. The $\Delta$Tod polymerase was exhibited higher activity than the Taq polymerase in a one-step RT-PCR.

• BMB Reports
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• v.33 no.2
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• pp.126-132
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• 2000

The hepadnaviruses replicate their nucleic acid through a reverse transcription step. The MBP-fused HBV polymerase was expressed in E. coli and purified by using amylase affinity column chromatography. The purified protein represented DNA-dependent DNA polymerase activity. In this report, the MBP-HBV polymerase was shown to lack 3'$\rightarrow$5' exonuclease activity, like other retroviral RTs. The ratio of the insertion efficiency for the wrong versus right vase pairs indicates the misinsertion frequency (f). The nucleotide insertion fidelity (1/f), observed with the MBP-HBV polymerase and HIV-1 RT, was between 60 and 54,000, and between 50 and 73,000, respectively, showing that they are in close range. A relatively efficient nucleotide incorporation by the MBP-HBV polymerase was observed with a specificity of three groups: (1) A : T, T : A>C : G, G : C (matched pairs), (2) A : C, C : A>G: T, T : G (purine-pyrimidine and pyrimidine-purine mispairs), and (3) C : C, A : A, G : G, T : T>T : C, C : T>A : G, G : A (purine-purine or pyrimidine-pyrimidine mispairs), and their order is (1)>(2)>(3). The data from the nucleotide insertion fidelity by the MBP-HBV polymerase suggest that the HBV polymerase may be as error-prone as HIV-1 RT.

• Korean Journal of Microbiology
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• v.31 no.2
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• pp.141-147
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• 1993

Plasmid DNAs were detected from the mitochondrial fraction of four strains of whiterot fungus, Pleurotus ostreatus. The size of the plasmids were 10.2 and 7.2 kb in strain NFFA 2, 10.2 kb in NFFA 4001, 11.2 kb in NFFA 4501, and 10.2 and 11.2 kb in KFCC 11635. The two strains,NFFA 2ml and NFFA 2m2, which are mutant derivatives of NFFA 2, did not contain any plasmids. The cleavage by proteinase K indicated that these plasmids have DNA ends associated with proteins. In digestion with proteinase K all the plasm ids remained resistant to lambda exonuclease which hydrolyzes DNA from 5' ends and were sensitive to exonuclease III which hydrolyzes DNA from 3' ends. This suggests that the plasmids are linear double-stranded DNA and the terminal proteins are covalently linked to 5' ends of plasm ids. In order to find relationship between these plasmids, hybridization of plasm ids by each separate plasmid DNA was done. The result indicated that the plasmids can be classified into at least 3 groups. Plasmids of group I were present in all the P ostreatus. More mitochondrial plasmids were detected in P cornucopiae. P ,florida, P pulmonarius, P sajor-caju, and P spodoleucus. The size of plasmids ranged between 7.2 kb and 14 kb. All the species except P cornucopiae contained plasmids of approximately 10 kb which hybridized with the 10.2 kb plasmid (group I) of P ostreatus NFFA 2.

• BMB Reports
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• v.37 no.3
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• pp.269-274
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• 2004

DNA polymerases without the 3' exonuclease function ($exo^-$ pol) have been widely used in sequencing and SNP genotyping. As a major player that expedited the coming of the postgenomic era, $exo^-$ polymerases worked remarkably well in the Human Genome Sequencing Project. However, it has become a challenge for this class of polymerases to efficiently screen the large number of SNPs that are found in the human genome. For more than three decades it has been recognized that polymerase fidelity varied according to the presence of proofreading activity that is mediated by its internal 3' exonuclease. Polymerases with proofreading function are famous for their high fidelity in DNA replication both in vivo and in vitro, but this well-known class of polymerases has been almost completely neglected in genetic analysis in the postgenomic era. We speculate that $exo^+$ polymerases may exhibit higher nucleotide identification ability when compared to $exo^-$ polymerases for an in vitro genetic analysis. With the application of $exo^+$ polymerases in SNP assays, a novel mechanism for the maintenance of DNA replication, the on/off switch, was discovered. Two new SNP assays have been developed to carry out genome-wide genotyping, taking advantage of the enzymatic properties of $exo^+$ polymerases. Furthermore, the on/off switch mechanism embodies a powerful nucleotide identification ability, which can be used to discriminate the bases that are upstream of the 3' terminus, and thus defines a new concept in de novo sequencing technology. Application of $exo^+$ polymerases to genetic analysis, and especially SNP assays, will greatly accelerate the pace to personalized medicine.

• Asian Pacific Journal of Cancer Prevention
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• v.15 no.6
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• pp.2571-2576
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• 2014

Background: Published studies on the association between the exonuclease 1 (EXO1) Glu589Lys polymorphism and cancer susceptibility have yielded conflicting results. Thus, a meta-analysis of published studies was performed to assess the possible association. Materials and Methods: All eligible case-control studies published up to January 2013 on the association between the EXO1 Glu589Lys polymorphism and cancer susceptibility were identified by searching PubMed, Web of Science, Science Direct and hand search. Either fixed-effect or random-effect models were used to calculate pooled odds ratios (ORs) with 95% confidence intervals (CIs) using the Comprehensive Meta-Analysis software version 2.2. Results: A total of 4,391 cancer cases and 4,339 controls from 10 studies were included. Overall, no significant association between the EXO1 Glu589Lys polymorphism and cancer susceptibility was observed in either genetic model. However; in subgroup analyses by cancer type, a significant association between EXO1 Glu589Lys and lung cancer risk was found (Lys vs Glu: OR=1.23, 95%CI=1.07-1.41, $p_{heterogeneity}$=0.05). Further, subgroup analysis by ethnicity indicated that there was a statistically increased cancer risk in Asians (Lys vs Glu: OR=1.42, 95%CI=1.30-1.55, $p_{heterogeneity}$=0.07; Lys/Lys vs Glu/Glu: OR=1.93, 95%CI=1.20-3.12, $p_{heterogeneity}$=0.01; Lys/Lys+Glu/Lys vs Glu/Glu: OR=1.52, 95%CI=1.37-1.68, $p_{heterogeneity}$=0.42; Lys/Lys vs Glu/Lys+Glu/Glu: OR=1.68, 95%CI=1.07-2.65, $p_{heterogeneity}$=0.02). However, significant association was absent in Caucasians. Conclusions: This meta-analysis suggests, for the first time, that the EXO1 Glu589Lys polymorphism is not associated with overall cancer susceptibility, although marginal associations were found for lung cancer and Asian subgroups. Additional well-designed studies with larger sample size focusing on different ethnicities and cancer types are needed to confirm these findings.

• Proceedings of the Korean Society of Applied Pharmacology
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• 1994.04a
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• pp.192-192
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• 1994

본 논문에서는 cytochrome P450 LA1 유전자의 5'-upsteam 조절부위의 클로닝을 실시하였다. pUC19 vector에 연결시킨 3.4 Kb 크기의 Pstl DNA조각을 Sst1, Nco1 제한 효소로 자른 뒤, Exonuclease III 를 처리하여 약 200bp 씩의 차이를 갖는 여러 크기의 plasmid들을 얻었다. 이 plasmid 의 핵산서열을 알아보기 위해 dideoxy nucletide를 이용한 sequencing방법으로 그 핵산서열의 결정 실험을 시도하였다. 또한, 다환상 방향족 탄화수소 화합물에 반응성을 갖는 C57BL/6N 생쥐와 반응성을 갖지않는 DBA/2N 생쥐에 있어 phase II 대사 효소인UDP-glucuronosyltransferase 효소활성에 대한 3-methylcholanthrene의 영향을 알아보기 위해 C57BL/6N 생쥐와 DBA/2N 생쥐에 각각 다른 농도의 3-methylcholanthrene을 처리하거나 각기 다른 시간에 3-methylcholanthrene를 처리하였다. 그 결과 UDP-glucuronosyl-transferase의 mRNA가 3-methylcholanthrene양의 증가에 따라, 처치시간이 길어짐에 따라 증가되어지며 그 mRNA위 크기는 약 2.2Kb 정도임을 알았다. 이로부터 UDP-ghucuronosyltransferase 또한 cytochrome P45O와 함께 다환상 방향족 탄화수소 화합물 조절인자를 통한 조절을 받을 것이며 phase I phase II 약물 대사 효소가 조절상 밀접한 관련을 가짐을 예측할 수 있었다.

• BMB Reports
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• v.30 no.3
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• pp.188-193
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• 1997

Membrane lipid peroxidation processes yield products that may react with DNA to cause mutations. Lipid hydroperoxides from linoleic acid in the presence of transition metal ions caused strand breaks in plasmid DNA. DNA damage induced by reactive aldehydes known to be produced by decomposition of lipid hydroperoxides, such as 4-hydroxynonenal or rnalondialdehyde, was repaired by endonucleases and exonuclease III which resulted in the increase of single strand breaks in DNA. Lipid hydroperoxides as well as malondialdehyde and 4-hydroxynonenal also caused mutations in the pUC18 lacZ' gene when measured as a loss of ${\alpha}-cornplementation$. In conclusion. the lipid peroxidation could be an important intermediary event in DNA damage and mutation by oxidative stress.