Rapid DNA Chemical Ligation for Amplification of RNA and DNA Signal

Enzymatic ligation methods are useful in the diagnostic detection of DNA sequences. Here, we describe the investigation of nonenzymatic phosphorothioate−iodoacetyl DNA chemical ligation as a method for the detection and identification of RNA and DNA. The specificity of ligation on the DNA target is...

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Published inBioconjugate chemistry Vol. 19; no. 1; pp. 327 - 333
Main Authors Abe, Hiroshi, Kondo, Yuko, Jinmei, Hiroshi, Abe, Naoko, Furukawa, Kazuhiro, Uchiyama, Atsushi, Tsuneda, Satoshi, Aikawa, Kyoko, Matsumoto, Isamu, Ito, Yoshihiro
Format Journal Article
LanguageEnglish
Published United States American Chemical Society 01.01.2008
Subjects
Base Pair Mismatch
Base Sequence
Biochemistry
Deoxyribonucleic acid
DNA
DNA - analysis
DNA - chemistry
DNA - genetics
Enzymes
Gene amplification
Hot Temperature
Iodoacetates - chemical synthesis
Iodoacetates - chemistry
Nucleic Acid Amplification Techniques - methods
Nucleic Acid Denaturation
Organothiophosphorus Compounds - chemical synthesis
Organothiophosphorus Compounds - chemistry
Ribonucleic acid
RNA
RNA - analysis
RNA - chemistry
RNA - genetics
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Abstract Enzymatic ligation methods are useful in the diagnostic detection of DNA sequences. Here, we describe the investigation of nonenzymatic phosphorothioate−iodoacetyl DNA chemical ligation as a method for the detection and identification of RNA and DNA. The specificity of ligation on the DNA target is shown to allow the discrimination of a single point mutation with a drop in the ligation yield of up to 16.1-fold. Although enzymatic ligation has very low activity for RNA targets, this reaction is very efficient for RNA targets. The speed of the chemical ligation with an RNA target achieves a 70% yield in 5 s, which is equal to or better than that of ligase-enzyme-mediated ligation with a DNA target. The reaction also exhibits a significant level of signal amplification under thermal cycling in periods as short as 100–120 min, with the RNA or DNA target acting in a catalytic way to ligate multiple pairs of probes.
AbstractList Enzymatic ligation methods are useful in the diagnostic detection of DNA sequences. Here, we describe the investigation of nonenzymatic phosphorothioate-iodoacetyl DNA chemical ligation as a method for the detection and identification of RNA and DNA. The specificity of ligation on the DNA target is shown to allow the discrimination of a single point mutation with a drop in the ligation yield of up to 16.1-fold. Although enzymatic ligation has very low activity for RNA targets, this reaction is very efficient for RNA targets. The speed of the chemical ligation with an RNA target achieves a 70% yield in 5 s, which is equal to or better than that of ligase-enzyme-mediated ligation with a DNA target. The reaction also exhibits a significant level of signal amplification under thermal cycling in periods as short as 100-120 min, with the RNA or DNA target acting in a catalytic way to ligate multiple pairs of probes. [PUBLICATION ABSTRACT]
Enzymatic ligation methods are useful in the diagnostic detection of DNA sequences. Here, we describe the investigation of nonenzymatic phosphorothioate--iodoacetyl DNA chemical ligation as a method for the detection and identification of RNA and DNA. The specificity of ligation on the DNA target is shown to allow the discrimination of a single point mutation with a drop in the ligation yield of up to 16.1-fold. Although enzymatic ligation has very low activity for RNA targets, this reaction is very efficient for RNA targets. The speed of the chemical ligation with an RNA target achieves a 70% yield in 5 s, which is equal to or better than that of ligase-enzyme-mediated ligation with a DNA target. The reaction also exhibits a significant level of signal amplification under thermal cycling in periods as short as 100-120 min, with the RNA or DNA target acting in a catalytic way to ligate multiple pairs of probes.
Enzymatic ligation methods are useful in the diagnostic detection of DNA sequences. Here, we describe the investigation of nonenzymatic phosphorothioate−iodoacetyl DNA chemical ligation as a method for the detection and identification of RNA and DNA. The specificity of ligation on the DNA target is shown to allow the discrimination of a single point mutation with a drop in the ligation yield of up to 16.1-fold. Although enzymatic ligation has very low activity for RNA targets, this reaction is very efficient for RNA targets. The speed of the chemical ligation with an RNA target achieves a 70% yield in 5 s, which is equal to or better than that of ligase-enzyme-mediated ligation with a DNA target. The reaction also exhibits a significant level of signal amplification under thermal cycling in periods as short as 100–120 min, with the RNA or DNA target acting in a catalytic way to ligate multiple pairs of probes.
Author Kondo, Yuko
Uchiyama, Atsushi
Furukawa, Kazuhiro
Abe, Naoko
Aikawa, Kyoko
Abe, Hiroshi
Jinmei, Hiroshi
Tsuneda, Satoshi
Matsumoto, Isamu
Ito, Yoshihiro
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Snippet Enzymatic ligation methods are useful in the diagnostic detection of DNA sequences. Here, we describe the investigation of nonenzymatic...
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SubjectTerms Base Pair Mismatch
Base Sequence
Biochemistry
Deoxyribonucleic acid
DNA
DNA - analysis
DNA - chemistry
DNA - genetics
Enzymes
Gene amplification
Hot Temperature
Iodoacetates - chemical synthesis
Iodoacetates - chemistry
Nucleic Acid Amplification Techniques - methods
Nucleic Acid Denaturation
Organothiophosphorus Compounds - chemical synthesis
Organothiophosphorus Compounds - chemistry
Ribonucleic acid
RNA
RNA - analysis
RNA - chemistry
RNA - genetics
Title Rapid DNA Chemical Ligation for Amplification of RNA and DNA Signal
URI http://dx.doi.org/10.1021/bc700244s
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Volume 19
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