A low-cost fluorescence reader for in vitro transcription and nucleic acid detection with Cas13a.

A low-cost fluorescence reader for in vitro transcription and nucleic acid detection with Cas13a.

Point-of-care testing (POCT) in low-resource settings requires tools that can operate independently of typical laboratory infrastructure. Due to its favorable signal-to-background ratio, a wide variety of biomedical tests utilize fluorescence as a readout. However, fluorescence techniques often requ...

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Main Authors: Florian Katzmeier, Lukas Aufinger, Aurore Dupin, Jorge Quintero, Matthias Lenz, Ludwig Bauer, Sven Klumpe, Dawafuti Sherpa, Benedikt Dürr, Maximilian Honemann, Igor Styazhkin, Friedrich C Simmel, Michael Heymann
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2019-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0220091
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spelling doaj-298bfe3ccbbc47b69cb02d1334f6b5782021-03-03T21:16:05ZengPublic Library of Science (PLoS)PLoS ONE1932-62032019-01-011412e022009110.1371/journal.pone.0220091A low-cost fluorescence reader for in vitro transcription and nucleic acid detection with Cas13a.Florian KatzmeierLukas AufingerAurore DupinJorge QuinteroMatthias LenzLudwig BauerSven KlumpeDawafuti SherpaBenedikt DürrMaximilian HonemannIgor StyazhkinFriedrich C SimmelMichael HeymannPoint-of-care testing (POCT) in low-resource settings requires tools that can operate independently of typical laboratory infrastructure. Due to its favorable signal-to-background ratio, a wide variety of biomedical tests utilize fluorescence as a readout. However, fluorescence techniques often require expensive or complex instrumentation and can be difficult to adapt for POCT. To address this issue, we developed a pocket-sized fluorescence detector costing less than $15 that is easy to manufacture and can operate in low-resource settings. It is built from standard electronic components, including an LED and a light dependent resistor, filter foils and 3D printed parts, and reliably reaches a lower limit of detection (LOD) of ≈ 6.8 nM fluorescein, which is sufficient to follow typical biochemical reactions used in POCT applications. All assays are conducted on filter paper, which allows for a flat detector architecture to improve signal collection. We validate the device by quantifying in vitro RNA transcription and also demonstrate sequence-specific detection of target RNAs with an LOD of 3.7 nM using a Cas13a-based fluorescence assay. Cas13a is an RNA-guided, RNA-targeting CRISPR effector with promiscuous RNase activity upon recognition of its RNA target. Cas13a sensing is highly specific and adaptable and in combination with our detector represents a promising approach for nucleic acid POCT. Furthermore, our open-source device may be used in educational settings, through providing low cost instrumentation for quantitative assays or as a platform to integrate hardware, software and biochemistry concepts in the future.https://doi.org/10.1371/journal.pone.0220091
collection DOAJ
language English
format Article
sources DOAJ
author Florian Katzmeier
Lukas Aufinger
Aurore Dupin
Jorge Quintero
Matthias Lenz
Ludwig Bauer
Sven Klumpe
Dawafuti Sherpa
Benedikt Dürr
Maximilian Honemann
Igor Styazhkin
Friedrich C Simmel
Michael Heymann
spellingShingle Florian Katzmeier
Lukas Aufinger
Aurore Dupin
Jorge Quintero
Matthias Lenz
Ludwig Bauer
Sven Klumpe
Dawafuti Sherpa
Benedikt Dürr
Maximilian Honemann
Igor Styazhkin
Friedrich C Simmel
Michael Heymann
A low-cost fluorescence reader for in vitro transcription and nucleic acid detection with Cas13a.
PLoS ONE
author_facet Florian Katzmeier
Lukas Aufinger
Aurore Dupin
Jorge Quintero
Matthias Lenz
Ludwig Bauer
Sven Klumpe
Dawafuti Sherpa
Benedikt Dürr
Maximilian Honemann
Igor Styazhkin
Friedrich C Simmel
Michael Heymann
author_sort Florian Katzmeier
title A low-cost fluorescence reader for in vitro transcription and nucleic acid detection with Cas13a.
title_short A low-cost fluorescence reader for in vitro transcription and nucleic acid detection with Cas13a.
title_full A low-cost fluorescence reader for in vitro transcription and nucleic acid detection with Cas13a.
title_fullStr A low-cost fluorescence reader for in vitro transcription and nucleic acid detection with Cas13a.
title_full_unstemmed A low-cost fluorescence reader for in vitro transcription and nucleic acid detection with Cas13a.
title_sort low-cost fluorescence reader for in vitro transcription and nucleic acid detection with cas13a.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2019-01-01
description Point-of-care testing (POCT) in low-resource settings requires tools that can operate independently of typical laboratory infrastructure. Due to its favorable signal-to-background ratio, a wide variety of biomedical tests utilize fluorescence as a readout. However, fluorescence techniques often require expensive or complex instrumentation and can be difficult to adapt for POCT. To address this issue, we developed a pocket-sized fluorescence detector costing less than $15 that is easy to manufacture and can operate in low-resource settings. It is built from standard electronic components, including an LED and a light dependent resistor, filter foils and 3D printed parts, and reliably reaches a lower limit of detection (LOD) of ≈ 6.8 nM fluorescein, which is sufficient to follow typical biochemical reactions used in POCT applications. All assays are conducted on filter paper, which allows for a flat detector architecture to improve signal collection. We validate the device by quantifying in vitro RNA transcription and also demonstrate sequence-specific detection of target RNAs with an LOD of 3.7 nM using a Cas13a-based fluorescence assay. Cas13a is an RNA-guided, RNA-targeting CRISPR effector with promiscuous RNase activity upon recognition of its RNA target. Cas13a sensing is highly specific and adaptable and in combination with our detector represents a promising approach for nucleic acid POCT. Furthermore, our open-source device may be used in educational settings, through providing low cost instrumentation for quantitative assays or as a platform to integrate hardware, software and biochemistry concepts in the future.
url https://doi.org/10.1371/journal.pone.0220091
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