Physiological and morpho-anatomical analyses of hyperhydric Arabidopsis thaliana influenced by media components

Hyperhydricity is a physiological anomaly that significantly affects the growth and proliferation rate of crops cultivated by tissue culture techniques. To better understand the mechanisms that govern hyperhydricity incidence, we examined the effects of several media components, particularly cytokin...

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Main Authors: Kemat, Nurashikin, Visser, Richard G. F., Krens, Frans A.
Format: Article
Published: Korean Society for Plant Biotechnology 2023
Online Access:http://psasir.upm.edu.my/id/eprint/109216/
https://www.kspbtjpb.org/journal/view.html?doi=10.5010/JPB.2023.50.032.255
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Institution: Universiti Putra Malaysia
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spelling my.upm.eprints.1092162024-08-27T04:07:40Z http://psasir.upm.edu.my/id/eprint/109216/ Physiological and morpho-anatomical analyses of hyperhydric Arabidopsis thaliana influenced by media components Kemat, Nurashikin Visser, Richard G. F. Krens, Frans A. Hyperhydricity is a physiological anomaly that significantly affects the growth and proliferation rate of crops cultivated by tissue culture techniques. To better understand the mechanisms that govern hyperhydricity incidence, we examined the effects of several media components, particularly cytokinin and gelling agents. These elements were found to be influential in both in vitro propagation and the development of hyperhydricity. Our study revealed that Arabidopsis thaliana seedlings had a greater manifestation of hyperhydricity symptoms when exposed to high cytokinin concentrations compared with the control. The presence of gelrite led to the manifestation of hyperhydric symptoms by elevated water build-up in the apoplast. The phenomenon of stomata closure was observed in the hyperhydric leaves, resulting in an increased ability to retain water and a decrease in the transpiration rates when compared to their respective control leaves. Additionally, histological examinations of the cross sections of hyperhydric leaves revealed an irregular cellular arrangement and large intercellular spaces. Furthermore, hyperhydric seedlings displayed impaired cuticular development in comparison to their normal seedlings. Korean Society for Plant Biotechnology 2023-12 Article PeerReviewed Kemat, Nurashikin and Visser, Richard G. F. and Krens, Frans A. (2023) Physiological and morpho-anatomical analyses of hyperhydric Arabidopsis thaliana influenced by media components. Journal of Plant Biotechnology, 50. pp. 255-266. ISSN 1229-2818; ESSN: 2384-1397 https://www.kspbtjpb.org/journal/view.html?doi=10.5010/JPB.2023.50.032.255 10.5010/jpb.2023.50.032.255
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
description Hyperhydricity is a physiological anomaly that significantly affects the growth and proliferation rate of crops cultivated by tissue culture techniques. To better understand the mechanisms that govern hyperhydricity incidence, we examined the effects of several media components, particularly cytokinin and gelling agents. These elements were found to be influential in both in vitro propagation and the development of hyperhydricity. Our study revealed that Arabidopsis thaliana seedlings had a greater manifestation of hyperhydricity symptoms when exposed to high cytokinin concentrations compared with the control. The presence of gelrite led to the manifestation of hyperhydric symptoms by elevated water build-up in the apoplast. The phenomenon of stomata closure was observed in the hyperhydric leaves, resulting in an increased ability to retain water and a decrease in the transpiration rates when compared to their respective control leaves. Additionally, histological examinations of the cross sections of hyperhydric leaves revealed an irregular cellular arrangement and large intercellular spaces. Furthermore, hyperhydric seedlings displayed impaired cuticular development in comparison to their normal seedlings.
format Article
author Kemat, Nurashikin
Visser, Richard G. F.
Krens, Frans A.
spellingShingle Kemat, Nurashikin
Visser, Richard G. F.
Krens, Frans A.
Physiological and morpho-anatomical analyses of hyperhydric Arabidopsis thaliana influenced by media components
author_facet Kemat, Nurashikin
Visser, Richard G. F.
Krens, Frans A.
author_sort Kemat, Nurashikin
title Physiological and morpho-anatomical analyses of hyperhydric Arabidopsis thaliana influenced by media components
title_short Physiological and morpho-anatomical analyses of hyperhydric Arabidopsis thaliana influenced by media components
title_full Physiological and morpho-anatomical analyses of hyperhydric Arabidopsis thaliana influenced by media components
title_fullStr Physiological and morpho-anatomical analyses of hyperhydric Arabidopsis thaliana influenced by media components
title_full_unstemmed Physiological and morpho-anatomical analyses of hyperhydric Arabidopsis thaliana influenced by media components
title_sort physiological and morpho-anatomical analyses of hyperhydric arabidopsis thaliana influenced by media components
publisher Korean Society for Plant Biotechnology
publishDate 2023
url http://psasir.upm.edu.my/id/eprint/109216/
https://www.kspbtjpb.org/journal/view.html?doi=10.5010/JPB.2023.50.032.255
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