Crosstalk regulation between vesicle trafficking and ion transport in plant response to abiotic stresses

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Abstract

Vesicle trafficking participates in the transport of intracellular/extracellular substances and signaling transduction in response to environmental changes through endocytosis and exocytosis. All life activities of plants, including normal growth, development and stress responses, are related to vesicle trafficking and ion transport. In recent years, the mechanism of vesicle trafficking has been continuously elucidated, and specific vesicle trafficking pathways in plants have also been identified. Research has shown that under environmental stresses, vesicular trafficking plays an important role in regulating the cellular localization and transport activity of ion transporters, which, in turn, take vital part in maintaining vesicular osmotic and pH homeostasis. This review outlines the processes, types of transport, and the key regulatory proteins involved in vesicle trafficking. It also provides an in-depth discussion on how vesicle trafficking interacts with ion transport proteins to regulate plant growth and development. Additionally, the review explores mechanisms by which plants use vesicle trafficking to cope with various abiotic stresses, including mineral deficiencies, heavy metal toxicity, and stresses caused by salt, drought, osmotic pressure, and pH imbalances. Finally, ideas and prospects are proposed for the interaction between vesicle trafficking proteins and ion transporters in the field of botany research. The review will provide a deeper understanding of the function of vesicle trafficking and the regulatory pathways of ion transport proteins, providing a comprehensive reference for research in this field.
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Crosstalk regulation between vesicle trafficking and ion transport in plant response to abiotic stresses | Authorea try { document.documentElement.classList.add('js'); } catch (e) { } var _gaq = _gaq || []; _gaq.push(['_setAccount', 'G-8VDV14Y67G']); _gaq.push(['_trackPageview']); (function() { var ga = document.createElement('script'); ga.type = 'text/javascript'; ga.async = true; ga.src = ('https:' == document.location.protocol ? 'https://ssl' : 'http://www') + '.google-analytics.com/ga.js'; var s = document.getElementsByTagName('script')[0]; s.parentNode.insertBefore(ga, s); })(); Skip to main content Preprints Collections Wiley Open Research IET Open Research Ecological Society of Japan All Collections About About Authorea FAQs Contact Us Quick Search anywhere Search for preprint articles, keywords, etc. Search Search ADVANCED SEARCH SCROLL This is a preprint and has not been peer reviewed. Data may be preliminary. 25 February 2025 V1 Latest version Share on Crosstalk regulation between vesicle trafficking and ion transport in plant response to abiotic stresses Authors : Guoning Qi , Fangyuan Zhou , Hao Yu , Huiping Song , Jamshaid Hussain , Wenhan Cao , and Shenkui Liu 0000-0001-5294-4765 Authors Info & Affiliations https://doi.org/10.22541/au.174047408.88693713/v1 272 views 160 downloads Contents Abstract Supplementary Material Information & Authors Metrics & Citations View Options References Figures Tables Media Share Abstract Vesicle trafficking participates in the transport of intracellular/extracellular substances and signaling transduction in response to environmental changes through endocytosis and exocytosis. All life activities of plants, including normal growth, development and stress responses, are related to vesicle trafficking and ion transport. In recent years, the mechanism of vesicle trafficking has been continuously elucidated, and specific vesicle trafficking pathways in plants have also been identified. Research has shown that under environmental stresses, vesicular trafficking plays an important role in regulating the cellular localization and transport activity of ion transporters, which, in turn, take vital part in maintaining vesicular osmotic and pH homeostasis. This review outlines the processes, types of transport, and the key regulatory proteins involved in vesicle trafficking. It also provides an in-depth discussion on how vesicle trafficking interacts with ion transport proteins to regulate plant growth and development. Additionally, the review explores mechanisms by which plants use vesicle trafficking to cope with various abiotic stresses, including mineral deficiencies, heavy metal toxicity, and stresses caused by salt, drought, osmotic pressure, and pH imbalances. Finally, ideas and prospects are proposed for the interaction between vesicle trafficking proteins and ion transporters in the field of botany research. The review will provide a deeper understanding of the function of vesicle trafficking and the regulatory pathways of ion transport proteins, providing a comprehensive reference for research in this field. Supplementary Material File (figures.docx) Download 7.53 MB File (manuscript-crosstalk regulation between vesicle trafficking and ion transportin plant response to abiotic stress.docx) Download 360.88 KB Information & Authors Information Version history V1 Version 1 25 February 2025 Copyright This work is licensed under a Non Exclusive No Reuse License. Keywords abiotic stresses crosstalk regulation ion transport signaling stomata vesicle trafficking Authors Affiliations Guoning Qi Zhejiang A and F University View all articles by this author Fangyuan Zhou Zhejiang A and F University View all articles by this author Hao Yu Zhejiang A and F University View all articles by this author Huiping Song Zhejiang A and F University View all articles by this author Jamshaid Hussain COMSATS University Islamabad - Abbottabad Campus View all articles by this author Wenhan Cao Zhejiang A and F University View all articles by this author Shenkui Liu 0000-0001-5294-4765 Zhejiang A and F University View all articles by this author Metrics & Citations Metrics Article Usage 272 views 160 downloads .FvxKWukQNSOunydq8rnd { width: 100px; } Citations Download citation Guoning Qi, Fangyuan Zhou, Hao Yu, et al. Crosstalk regulation between vesicle trafficking and ion transport in plant response to abiotic stresses. Authorea . 25 February 2025. 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