Mutation detection in DNA oligonucleotides based on a guanine quenching method coupled with enzymatic digestion of single-stranded DNA

Tatsuo Maruyama; Toshimitsu Shinohara; Hirofumi Ichinose; Momoko Kitaoka; Nobuko Okamura; Noriho Kamiya; Masahiro Goto

doi:10.1007/s10529-005-3681-x

Mutation detection in DNA oligonucleotides based on a guanine quenching method coupled with enzymatic digestion of single-stranded DNA

Tatsuo Maruyama, Toshimitsu Shinohara, Hirofumi Ichinose, Momoko Kitaoka, Nobuko Okamura, Noriho Kamiya, Masahiro Goto

Applied Chemistry

Research output: Contribution to journal › Article › peer-review

22 Citations (Scopus)

Abstract

Fluorescence quenching by guanine allows DNA hybridization to be monitored and any point mutations in oligonucleotides to be detected. However, fluorescence quenching is often affected by untargeted guanine located in a protruding end (single-strand DNA) of the probe-target DNA duplex resulting in an unsatisfactory sensitivity. In the present study, we used enzymatic digestion of the protruding end of a probe-target DNA duplex to avoid interference by untargeted guanine on fluorescence quenching for detection of a nucleobase mutation. Enzymatic digestion of the protruding end of the DNA duplex fully prevented interference by untargeted guanine, and produced a marked difference in the quenching ratios (36% for wild-type, and 0% for mutant).

Original language	English
Pages (from-to)	1349-1354
Number of pages	6
Journal	Biotechnology letters
Volume	27
Issue number	18
DOIs	https://doi.org/10.1007/s10529-005-3681-x
Publication status	Published - Sept 2005

All Science Journal Classification (ASJC) codes

Biotechnology
Bioengineering
Applied Microbiology and Biotechnology

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title = "Mutation detection in DNA oligonucleotides based on a guanine quenching method coupled with enzymatic digestion of single-stranded DNA",

abstract = "Fluorescence quenching by guanine allows DNA hybridization to be monitored and any point mutations in oligonucleotides to be detected. However, fluorescence quenching is often affected by untargeted guanine located in a protruding end (single-strand DNA) of the probe-target DNA duplex resulting in an unsatisfactory sensitivity. In the present study, we used enzymatic digestion of the protruding end of a probe-target DNA duplex to avoid interference by untargeted guanine on fluorescence quenching for detection of a nucleobase mutation. Enzymatic digestion of the protruding end of the DNA duplex fully prevented interference by untargeted guanine, and produced a marked difference in the quenching ratios (36% for wild-type, and 0% for mutant).",

author = "Tatsuo Maruyama and Toshimitsu Shinohara and Hirofumi Ichinose and Momoko Kitaoka and Nobuko Okamura and Noriho Kamiya and Masahiro Goto",

note = "Funding Information: This research was supported by the GOTO Project of the {\textquoteleft}{\textquoteleft}Science and Technology Incubation Program in Advanced Region{\textquoteright}{\textquoteright} of Innovation Plaza Fukuoka under the Japan Science and Technology Agency, and a Grant-in-Aid for the 21st Century COE Program, {\textquoteleft}{\textquoteleft}Functional Innovation of Molecular Informatics{\textquoteright}{\textquoteright} from the Ministry of Education, Culture, Science, Sports and Technology of Japan.",

year = "2005",

month = sep,

doi = "10.1007/s10529-005-3681-x",

language = "English",

volume = "27",

pages = "1349--1354",

journal = "Biotechnology letters",

issn = "0141-5492",

publisher = "Springer Netherlands",

number = "18",

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TY - JOUR

T1 - Mutation detection in DNA oligonucleotides based on a guanine quenching method coupled with enzymatic digestion of single-stranded DNA

AU - Maruyama, Tatsuo

AU - Shinohara, Toshimitsu

AU - Ichinose, Hirofumi

AU - Kitaoka, Momoko

AU - Okamura, Nobuko

AU - Kamiya, Noriho

AU - Goto, Masahiro

N1 - Funding Information: This research was supported by the GOTO Project of the ‘‘Science and Technology Incubation Program in Advanced Region’’ of Innovation Plaza Fukuoka under the Japan Science and Technology Agency, and a Grant-in-Aid for the 21st Century COE Program, ‘‘Functional Innovation of Molecular Informatics’’ from the Ministry of Education, Culture, Science, Sports and Technology of Japan.

PY - 2005/9

Y1 - 2005/9

N2 - Fluorescence quenching by guanine allows DNA hybridization to be monitored and any point mutations in oligonucleotides to be detected. However, fluorescence quenching is often affected by untargeted guanine located in a protruding end (single-strand DNA) of the probe-target DNA duplex resulting in an unsatisfactory sensitivity. In the present study, we used enzymatic digestion of the protruding end of a probe-target DNA duplex to avoid interference by untargeted guanine on fluorescence quenching for detection of a nucleobase mutation. Enzymatic digestion of the protruding end of the DNA duplex fully prevented interference by untargeted guanine, and produced a marked difference in the quenching ratios (36% for wild-type, and 0% for mutant).

AB - Fluorescence quenching by guanine allows DNA hybridization to be monitored and any point mutations in oligonucleotides to be detected. However, fluorescence quenching is often affected by untargeted guanine located in a protruding end (single-strand DNA) of the probe-target DNA duplex resulting in an unsatisfactory sensitivity. In the present study, we used enzymatic digestion of the protruding end of a probe-target DNA duplex to avoid interference by untargeted guanine on fluorescence quenching for detection of a nucleobase mutation. Enzymatic digestion of the protruding end of the DNA duplex fully prevented interference by untargeted guanine, and produced a marked difference in the quenching ratios (36% for wild-type, and 0% for mutant).

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AN - SCOPUS:29144531861

SN - 0141-5492

VL - 27

SP - 1349

EP - 1354

JO - Biotechnology letters

JF - Biotechnology letters

IS - 18

ER -

Mutation detection in DNA oligonucleotides based on a guanine quenching method coupled with enzymatic digestion of single-stranded DNA

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