Effective and site-specific phosphoramidation reaction for universally labeling nucleic acids

Here we report efficient and selective postsynthesis labeling strategies, based on an advanced phosphoramidation reaction, for nucleic acids of either synthetic or enzyme-catalyzed origin. The reactions provided phosphorimidazolide intermediates of DNA or RNA which, whether reacted in one pot (one-s...

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Veröffentlicht in:	Analytical biochemistry 2014-03, Vol.449, p.118-128
Hauptverfasser:	Su, Yu-Chih, Chen, Hsing-Yin, Ko, Ni Chien, Hwang, Chi-Ching, Wu, Min Hui, Wang, Li-Fang, Wang, Yun-Ming, Chang, Sheng-Nan, Wang, Eng-Chi, Wang, Tzu-Pin
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Sprache:	eng
Schlagworte:	Amides - chemistry DNA - chemistry Fluorescein-5-isothiocyanate - chemistry Fluorescent Dyes - chemistry Labeling Nucleic acid Phosphoramidation Phosphorylation Postsynthesis RNA - chemistry Site specific
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container_title	Analytical biochemistry
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creator	Su, Yu-Chih Chen, Hsing-Yin Ko, Ni Chien Hwang, Chi-Ching Wu, Min Hui Wang, Li-Fang Wang, Yun-Ming Chang, Sheng-Nan Wang, Eng-Chi Wang, Tzu-Pin
description	Here we report efficient and selective postsynthesis labeling strategies, based on an advanced phosphoramidation reaction, for nucleic acids of either synthetic or enzyme-catalyzed origin. The reactions provided phosphorimidazolide intermediates of DNA or RNA which, whether reacted in one pot (one-step) or purified (two-step), were directly or indirectly phosphoramidated with label molecules. The acquired fluorophore-labeled nucleic acids, prepared from the phosphoramidation reactions, demonstrated labeling efficacy by their F/N ratio values (number of fluorophores per molecule of nucleic acid) of 0.02–1.2 which are comparable or better than conventional postsynthesis fluorescent labeling methods for DNA and RNA. Yet, PCR and UV melting studies of the one-step phosphoramidation-prepared FITC-labeled DNA indicated that the reaction might facilitate nonspecific hybridization in nucleic acids. Intrinsic hybridization specificity of nucleic acids was, however, conserved in the two-step phosphoramidation reaction. The reaction of site-specific labeling nucleic acids at the 5′-end was supported by fluorescence quenching and UV melting studies of fluorophore-labeled DNA. The two-step phosphoramidation-based, effective, and site-specific labeling method has the potential to expedite critical research including visualization, quantification, structural determination, localization, and distribution of nucleic acids in vivo and in vitro.
doi_str_mv	10.1016/j.ab.2013.12.021
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The reactions provided phosphorimidazolide intermediates of DNA or RNA which, whether reacted in one pot (one-step) or purified (two-step), were directly or indirectly phosphoramidated with label molecules. The acquired fluorophore-labeled nucleic acids, prepared from the phosphoramidation reactions, demonstrated labeling efficacy by their F/N ratio values (number of fluorophores per molecule of nucleic acid) of 0.02–1.2 which are comparable or better than conventional postsynthesis fluorescent labeling methods for DNA and RNA. Yet, PCR and UV melting studies of the one-step phosphoramidation-prepared FITC-labeled DNA indicated that the reaction might facilitate nonspecific hybridization in nucleic acids. Intrinsic hybridization specificity of nucleic acids was, however, conserved in the two-step phosphoramidation reaction. The reaction of site-specific labeling nucleic acids at the 5′-end was supported by fluorescence quenching and UV melting studies of fluorophore-labeled DNA. 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subjects	Amides - chemistry DNA - chemistry Fluorescein-5-isothiocyanate - chemistry Fluorescent Dyes - chemistry Labeling Nucleic acid Phosphoramidation Phosphorylation Postsynthesis RNA - chemistry Site specific
title	Effective and site-specific phosphoramidation reaction for universally labeling nucleic acids
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