A Microfluidic Diagnostic Device Capable of Autonomous Sample Mixing and Dispensing for the Simultaneous Genetic Detection of Multiple Plant Viruses

As an efficient approach to risk management in agriculture, the elimination of losses due to plant diseases and insect pests is one of the most important and urgent technological challenges for improving the crop yield. Therefore, we have developed a polydimethylsiloxane (PDMS)-based microfluidic de...

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Autores principales: Natsuhara, Daigo, Takishita, Keisuke, Tanaka, Kisuke, Kage, Azusa, Suzuki, Ryoji, Mizukami, Yuko, Saka, Norikuni, Nagai, Moeto, Shibata, Takayuki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7344993/
https://www.ncbi.nlm.nih.gov/pubmed/32466570
http://dx.doi.org/10.3390/mi11060540
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author Natsuhara, Daigo
Takishita, Keisuke
Tanaka, Kisuke
Kage, Azusa
Suzuki, Ryoji
Mizukami, Yuko
Saka, Norikuni
Nagai, Moeto
Shibata, Takayuki
author_facet Natsuhara, Daigo
Takishita, Keisuke
Tanaka, Kisuke
Kage, Azusa
Suzuki, Ryoji
Mizukami, Yuko
Saka, Norikuni
Nagai, Moeto
Shibata, Takayuki
author_sort Natsuhara, Daigo
collection PubMed
description As an efficient approach to risk management in agriculture, the elimination of losses due to plant diseases and insect pests is one of the most important and urgent technological challenges for improving the crop yield. Therefore, we have developed a polydimethylsiloxane (PDMS)-based microfluidic device for the multiplex genetic diagnosis of plant diseases and pests. It offers unique features, such as rapid detection, portability, simplicity, and the low-cost genetic diagnosis of a wide variety of plant viruses. In this study, to realize such a diagnostic device, we developed a method for the autonomous dispensing of fluid into a microchamber array, which was integrated with a set of three passive stop valves with different burst pressures (referred to as phaseguides) to facilitate precise fluid handling. Additionally, we estimated the mixing efficiencies of several types of passive mixers (referred to as chaotic mixers), which were integrated into a microchannel, through experimental and computational analyses. We first demonstrated the ability of the fabricated diagnostic devices to detect DNA-based plant viruses from an infected tomato crop based on the loop-mediated isothermal amplification (LAMP) method. Moreover, we demonstrated the simultaneous detection of RNA-based plant viruses, which can infect cucurbits, by using the reverse transcription LAMP (RT-LAMP) method. The multiplex RT-LAMP assays revealed that multiple RNA viruses extracted from diseased cucumber leaves were successfully detected within 60 min, without any cross-contamination between reaction microchambers, on our diagnostic device.
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spelling pubmed-73449932020-07-09 A Microfluidic Diagnostic Device Capable of Autonomous Sample Mixing and Dispensing for the Simultaneous Genetic Detection of Multiple Plant Viruses Natsuhara, Daigo Takishita, Keisuke Tanaka, Kisuke Kage, Azusa Suzuki, Ryoji Mizukami, Yuko Saka, Norikuni Nagai, Moeto Shibata, Takayuki Micromachines (Basel) Article As an efficient approach to risk management in agriculture, the elimination of losses due to plant diseases and insect pests is one of the most important and urgent technological challenges for improving the crop yield. Therefore, we have developed a polydimethylsiloxane (PDMS)-based microfluidic device for the multiplex genetic diagnosis of plant diseases and pests. It offers unique features, such as rapid detection, portability, simplicity, and the low-cost genetic diagnosis of a wide variety of plant viruses. In this study, to realize such a diagnostic device, we developed a method for the autonomous dispensing of fluid into a microchamber array, which was integrated with a set of three passive stop valves with different burst pressures (referred to as phaseguides) to facilitate precise fluid handling. Additionally, we estimated the mixing efficiencies of several types of passive mixers (referred to as chaotic mixers), which were integrated into a microchannel, through experimental and computational analyses. We first demonstrated the ability of the fabricated diagnostic devices to detect DNA-based plant viruses from an infected tomato crop based on the loop-mediated isothermal amplification (LAMP) method. Moreover, we demonstrated the simultaneous detection of RNA-based plant viruses, which can infect cucurbits, by using the reverse transcription LAMP (RT-LAMP) method. The multiplex RT-LAMP assays revealed that multiple RNA viruses extracted from diseased cucumber leaves were successfully detected within 60 min, without any cross-contamination between reaction microchambers, on our diagnostic device. MDPI 2020-05-26 /pmc/articles/PMC7344993/ /pubmed/32466570 http://dx.doi.org/10.3390/mi11060540 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Natsuhara, Daigo
Takishita, Keisuke
Tanaka, Kisuke
Kage, Azusa
Suzuki, Ryoji
Mizukami, Yuko
Saka, Norikuni
Nagai, Moeto
Shibata, Takayuki
A Microfluidic Diagnostic Device Capable of Autonomous Sample Mixing and Dispensing for the Simultaneous Genetic Detection of Multiple Plant Viruses
title A Microfluidic Diagnostic Device Capable of Autonomous Sample Mixing and Dispensing for the Simultaneous Genetic Detection of Multiple Plant Viruses
title_full A Microfluidic Diagnostic Device Capable of Autonomous Sample Mixing and Dispensing for the Simultaneous Genetic Detection of Multiple Plant Viruses
title_fullStr A Microfluidic Diagnostic Device Capable of Autonomous Sample Mixing and Dispensing for the Simultaneous Genetic Detection of Multiple Plant Viruses
title_full_unstemmed A Microfluidic Diagnostic Device Capable of Autonomous Sample Mixing and Dispensing for the Simultaneous Genetic Detection of Multiple Plant Viruses
title_short A Microfluidic Diagnostic Device Capable of Autonomous Sample Mixing and Dispensing for the Simultaneous Genetic Detection of Multiple Plant Viruses
title_sort microfluidic diagnostic device capable of autonomous sample mixing and dispensing for the simultaneous genetic detection of multiple plant viruses
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7344993/
https://www.ncbi.nlm.nih.gov/pubmed/32466570
http://dx.doi.org/10.3390/mi11060540
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