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Unique Substrate Spectrum and PCR Application of Nanoarchaeum equitans Family B DNA Polymerase

The known archaeal family B DNA polymerases are unable to participate in the PCR in the presence of uracil. Here, we report on a novel archaeal family B DNA polymerase from Nanoarchaeum equitans that can successfully utilize deaminated bases such as uracil and hypoxanthine and on its application to...

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Published in:	Applied and Environmental Microbiology 2008-11, Vol.74 (21), p.6563-6569
Main Authors:	Choi, Jeong Jin, Song, Jae-Geun, Nam, Ki Hoon, Lee, Jong Il, Bae, Heejin, Kim, Gun A, Sun, Younguk, Kwon, Suk-Tae
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Language:	English
Subjects:	Bacteriophage lambda - genetics Biochemistry Biological and medical sciences Deoxyribonucleic acid DNA DNA polymerase DNA, Viral - genetics DNA-Directed DNA Polymerase - isolation & purification DNA-Directed DNA Polymerase - metabolism Enzymology and Protein Engineering Fundamental and applied biological sciences. Psychology Glycosylation Hypoxanthine - metabolism Microbiology Microorganisms Molecular Weight Nanoarchaeota - enzymology Nanoarchaeum equitans Polymerase Chain Reaction - methods Substrate Specificity Uracil - metabolism
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creator	Choi, Jeong Jin Song, Jae-Geun Nam, Ki Hoon Lee, Jong Il Bae, Heejin Kim, Gun A Sun, Younguk Kwon, Suk-Tae
description	The known archaeal family B DNA polymerases are unable to participate in the PCR in the presence of uracil. Here, we report on a novel archaeal family B DNA polymerase from Nanoarchaeum equitans that can successfully utilize deaminated bases such as uracil and hypoxanthine and on its application to PCR. N. equitans family B DNA polymerase (Neq DNA polymerase) produced λ DNA fragments up to 10 kb with an approximately 2.2-fold-lower error rate (5.53 x 10⁻⁶) than Taq DNA polymerase (11.98 x 10⁻⁶). Uniquely, Neq DNA polymerase also amplified λ DNA fragments using dUTP (in place of dTTP) or dITP (partially replaced with dGTP). To increase PCR efficiency, Taq and Neq DNA polymerases were mixed in different ratios; a ratio of 10:1 efficiently facilitated long PCR (20 kb). In the presence of dUTP, the PCR efficiency of the enzyme mixture was two- to threefold higher than that of either Taq and Neq DNA polymerase alone. These results suggest that Neq DNA polymerase and Neq plus DNA polymerase (a mixture of Taq and Neq DNA polymerases) are useful in DNA amplification and PCR-based applications, particularly in clinical diagnoses using uracil-DNA glycosylase.
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Here, we report on a novel archaeal family B DNA polymerase from Nanoarchaeum equitans that can successfully utilize deaminated bases such as uracil and hypoxanthine and on its application to PCR. N. equitans family B DNA polymerase (Neq DNA polymerase) produced λ DNA fragments up to 10 kb with an approximately 2.2-fold-lower error rate (5.53 x 10⁻⁶) than Taq DNA polymerase (11.98 x 10⁻⁶). Uniquely, Neq DNA polymerase also amplified λ DNA fragments using dUTP (in place of dTTP) or dITP (partially replaced with dGTP). To increase PCR efficiency, Taq and Neq DNA polymerases were mixed in different ratios; a ratio of 10:1 efficiently facilitated long PCR (20 kb). In the presence of dUTP, the PCR efficiency of the enzyme mixture was two- to threefold higher than that of either Taq and Neq DNA polymerase alone. 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Here, we report on a novel archaeal family B DNA polymerase from Nanoarchaeum equitans that can successfully utilize deaminated bases such as uracil and hypoxanthine and on its application to PCR. N. equitans family B DNA polymerase (Neq DNA polymerase) produced λ DNA fragments up to 10 kb with an approximately 2.2-fold-lower error rate (5.53 x 10⁻⁶) than Taq DNA polymerase (11.98 x 10⁻⁶). Uniquely, Neq DNA polymerase also amplified λ DNA fragments using dUTP (in place of dTTP) or dITP (partially replaced with dGTP). To increase PCR efficiency, Taq and Neq DNA polymerases were mixed in different ratios; a ratio of 10:1 efficiently facilitated long PCR (20 kb). In the presence of dUTP, the PCR efficiency of the enzyme mixture was two- to threefold higher than that of either Taq and Neq DNA polymerase alone. These results suggest that Neq DNA polymerase and Neq plus DNA polymerase (a mixture of Taq and Neq DNA polymerases) are useful in DNA amplification and PCR-based applications, particularly in clinical diagnoses using uracil-DNA glycosylase.</abstract><cop>Washington, DC</cop><pub>American Society for Microbiology</pub><pmid>18791030</pmid><doi>10.1128/AEM.00624-08</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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subjects	Bacteriophage lambda - genetics Biochemistry Biological and medical sciences Deoxyribonucleic acid DNA DNA polymerase DNA, Viral - genetics DNA-Directed DNA Polymerase - isolation & purification DNA-Directed DNA Polymerase - metabolism Enzymology and Protein Engineering Fundamental and applied biological sciences. Psychology Glycosylation Hypoxanthine - metabolism Microbiology Microorganisms Molecular Weight Nanoarchaeota - enzymology Nanoarchaeum equitans Polymerase Chain Reaction - methods Substrate Specificity Uracil - metabolism
title	Unique Substrate Spectrum and PCR Application of Nanoarchaeum equitans Family B DNA Polymerase
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