A simple and affordable kinetic assay of nucleic acids with SYBR Gold gel staining.

A simple and affordable kinetic assay of nucleic acids with SYBR Gold gel staining.

Labeling substrates or products are paramount in determining enzymatic kinetic parameters. Several options are available; many laboratories use either radioactive or fluorescent labeling because of their high sensitivity. However, those methods have their own drawbacks such as half-life decay, expen...

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Main Authors: Danielle Guillen, Mika Schievelbein, Kushkumar Patel, Davis Jose, Jonathan Ouellet
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0229527
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spelling doaj-513005b177cc4a13a9bd89cc344a16052021-03-03T21:34:56ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01153e022952710.1371/journal.pone.0229527A simple and affordable kinetic assay of nucleic acids with SYBR Gold gel staining.Danielle GuillenMika SchievelbeinKushkumar PatelDavis JoseJonathan OuelletLabeling substrates or products are paramount in determining enzymatic kinetic parameters. Several options are available; many laboratories use either radioactive or fluorescent labeling because of their high sensitivity. However, those methods have their own drawbacks such as half-life decay, expensive and hazardous. Here, we propose a novel, simple, economical and fast alternative to substrate labeling for studying the kinetics of nucleic acids: post-migration gel staining with SYBR Gold. Cleavage rates similar to the ones reported in the literature for the I-R3 DNA-cleaving DNA enzyme in the presence of zinc chloride are an indication of the quality of the new method. Moreover, the activity of the hammerhead ribozyme was also monitored by our method to illustrate its versatility. This labeling-free method has several advantages such as its ease of use as well as cost effective and versatility with both non-structured and structured RNAs or DNAs.https://doi.org/10.1371/journal.pone.0229527
collection DOAJ
language English
format Article
sources DOAJ
author Danielle Guillen
Mika Schievelbein
Kushkumar Patel
Davis Jose
Jonathan Ouellet
spellingShingle Danielle Guillen
Mika Schievelbein
Kushkumar Patel
Davis Jose
Jonathan Ouellet
A simple and affordable kinetic assay of nucleic acids with SYBR Gold gel staining.
PLoS ONE
author_facet Danielle Guillen
Mika Schievelbein
Kushkumar Patel
Davis Jose
Jonathan Ouellet
author_sort Danielle Guillen
title A simple and affordable kinetic assay of nucleic acids with SYBR Gold gel staining.
title_short A simple and affordable kinetic assay of nucleic acids with SYBR Gold gel staining.
title_full A simple and affordable kinetic assay of nucleic acids with SYBR Gold gel staining.
title_fullStr A simple and affordable kinetic assay of nucleic acids with SYBR Gold gel staining.
title_full_unstemmed A simple and affordable kinetic assay of nucleic acids with SYBR Gold gel staining.
title_sort simple and affordable kinetic assay of nucleic acids with sybr gold gel staining.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description Labeling substrates or products are paramount in determining enzymatic kinetic parameters. Several options are available; many laboratories use either radioactive or fluorescent labeling because of their high sensitivity. However, those methods have their own drawbacks such as half-life decay, expensive and hazardous. Here, we propose a novel, simple, economical and fast alternative to substrate labeling for studying the kinetics of nucleic acids: post-migration gel staining with SYBR Gold. Cleavage rates similar to the ones reported in the literature for the I-R3 DNA-cleaving DNA enzyme in the presence of zinc chloride are an indication of the quality of the new method. Moreover, the activity of the hammerhead ribozyme was also monitored by our method to illustrate its versatility. This labeling-free method has several advantages such as its ease of use as well as cost effective and versatility with both non-structured and structured RNAs or DNAs.
url https://doi.org/10.1371/journal.pone.0229527
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