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Highly sensitive enclosed multilayer paper-based microfluidic sensor for quantifying proline in plants.

Authors :
Choi, Young-Soo
Im, Min Kyu
Lee, Mi Rha
Kim, Cheol Soo
Lee, Kyeong-Hwan
Source :
Analytica Chimica Acta. Apr2020, Vol. 1105, p169-177. 9p.
Publication Year :
2020

Abstract

Free proline, termed proline, is a biomarker used for diagnosing drought stress in plants. A previously developed proline–ninhydrin reaction-based paper sensor could quickly and easily detect proline, but it was limited by low sensitivity. In this study, we developed an enclosed multilayer paper-based microfluidic sensor with high sensitivity for the quantitative detection of proline in plants. The multilayer paper-based sensor was manufactured using simple wax printing and origami methods, and contained an internal mixing channel to allow good mixing of the proline with ninhydrin, increasing the proline–ninhydrin reactivity and providing accurate and sensitive proline detection. By preloading ninhydrin onto the sample loading area, uniform coloration of the sensing window was achieved, allowing quantitative analysis of various proline concentrations using a constant reaction time. Only the sensing window and sample loading area were exposed to limit sample evaporation and contamination from the external environment. The LOD of the fabricated sensor was 23 μM, which is approximately 29-fold lower than that of the previously proposed paper sensor (657 μM). Samples were extracted from A. thaliana plants subjected to drought stress for proline detection. The proline concentrations measured using the developed paper sensor and a spectrophotometric method were not statistically significant at a confidence level of 95%. Therefore, the developed sensor can be applied to measure proline concentrations precisely in the field with a low detection limit. The developed paper-based sensor can be used to detect the early stages of drought in plants and thus improve crop productivity. Image 1 • An enclosed multilayer paper-based microfluidic sensor for proline quantification is manufactured. • The enclosed multilayer sensor structure avoids sample evaporation and contamination. • The sensor detects proline with a LOD of 23 μM. • The sensor is suitable for the early detection of drought stress in plants. • The measured proline concentration is similar to that measured by spectrometry. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00032670
Volume :
1105
Database :
Academic Search Index
Journal :
Analytica Chimica Acta
Publication Type :
Academic Journal
Accession number :
142000941
Full Text :
https://doi.org/10.1016/j.aca.2020.01.038