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Gene Expression and K(+) Uptake of Two Tomato Cultivars in Response to Sub-Optimal Temperature

Sub-optimal temperatures can adversely affect tomato (Solanum lycopersicum) growth, and K(+) plays an important role in the cold tolerance of plants. However, gene expression and K(+) uptake in tomato in response to sub-optimal temperatures are still not very clear. To address these questions, one c...

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Autores principales: Gao, Huan, Yang, Wanji, Li, Chunxia, Zhou, Xingang, Gao, Danmei, Khashi u Rahman, Muhammad, Li, Naihui, Wu, Fengzhi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7020494/
https://www.ncbi.nlm.nih.gov/pubmed/31947736
http://dx.doi.org/10.3390/plants9010065
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author Gao, Huan
Yang, Wanji
Li, Chunxia
Zhou, Xingang
Gao, Danmei
Khashi u Rahman, Muhammad
Li, Naihui
Wu, Fengzhi
author_facet Gao, Huan
Yang, Wanji
Li, Chunxia
Zhou, Xingang
Gao, Danmei
Khashi u Rahman, Muhammad
Li, Naihui
Wu, Fengzhi
author_sort Gao, Huan
collection PubMed
description Sub-optimal temperatures can adversely affect tomato (Solanum lycopersicum) growth, and K(+) plays an important role in the cold tolerance of plants. However, gene expression and K(+) uptake in tomato in response to sub-optimal temperatures are still not very clear. To address these questions, one cold-tolerant tomato cultivar, Dongnong 722 (T722), and one cold-sensitive cultivar, Dongnong 708 (S708), were exposed to sub-optimal (15/10 °C) and normal temperatures (25/18 °C), and the differences in growth, K(+) uptake characteristics and global gene expressions were investigated. The results showed that compared to S708, T722 exhibited lower reduction in plant growth rate, the whole plant K(+) amount and K(+) net uptake rate, and T722 also had higher peroxidase activity and lower K(+) efflux rate under sub-optimal temperature conditions. RNA-seq analysis showed that a total of 1476 and 2188 differentially expressed genes (DEGs) responding to sub-optimal temperature were identified in S708 and T722 roots, respectively. Functional classification revealed that most DEGs were involved in “plant hormone signal transduction”, “phenylpropanoid biosynthesis”, “sulfur metabolism” and “cytochrome P450”. The genes that were significantly up-regulated only in T722 were involved in the “phenylpropanoid biosynthesis” and “plant hormone signal transduction” pathways. Moreover, we also found that sub-optimal temperature inhibited the expression of gene coding for K(+) transporter SIHAK5 in both cultivars, but decreased the expression of gene coding for K(+) channel AKT1 only in S708. Overall, our results revealed the cold response genes in tomato roots, and provided a foundation for further investigation of mechanism involved in K(+) uptake in tomato under sub-optimal temperatures.
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spelling pubmed-70204942020-03-09 Gene Expression and K(+) Uptake of Two Tomato Cultivars in Response to Sub-Optimal Temperature Gao, Huan Yang, Wanji Li, Chunxia Zhou, Xingang Gao, Danmei Khashi u Rahman, Muhammad Li, Naihui Wu, Fengzhi Plants (Basel) Article Sub-optimal temperatures can adversely affect tomato (Solanum lycopersicum) growth, and K(+) plays an important role in the cold tolerance of plants. However, gene expression and K(+) uptake in tomato in response to sub-optimal temperatures are still not very clear. To address these questions, one cold-tolerant tomato cultivar, Dongnong 722 (T722), and one cold-sensitive cultivar, Dongnong 708 (S708), were exposed to sub-optimal (15/10 °C) and normal temperatures (25/18 °C), and the differences in growth, K(+) uptake characteristics and global gene expressions were investigated. The results showed that compared to S708, T722 exhibited lower reduction in plant growth rate, the whole plant K(+) amount and K(+) net uptake rate, and T722 also had higher peroxidase activity and lower K(+) efflux rate under sub-optimal temperature conditions. RNA-seq analysis showed that a total of 1476 and 2188 differentially expressed genes (DEGs) responding to sub-optimal temperature were identified in S708 and T722 roots, respectively. Functional classification revealed that most DEGs were involved in “plant hormone signal transduction”, “phenylpropanoid biosynthesis”, “sulfur metabolism” and “cytochrome P450”. The genes that were significantly up-regulated only in T722 were involved in the “phenylpropanoid biosynthesis” and “plant hormone signal transduction” pathways. Moreover, we also found that sub-optimal temperature inhibited the expression of gene coding for K(+) transporter SIHAK5 in both cultivars, but decreased the expression of gene coding for K(+) channel AKT1 only in S708. Overall, our results revealed the cold response genes in tomato roots, and provided a foundation for further investigation of mechanism involved in K(+) uptake in tomato under sub-optimal temperatures. MDPI 2020-01-03 /pmc/articles/PMC7020494/ /pubmed/31947736 http://dx.doi.org/10.3390/plants9010065 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
Gao, Huan
Yang, Wanji
Li, Chunxia
Zhou, Xingang
Gao, Danmei
Khashi u Rahman, Muhammad
Li, Naihui
Wu, Fengzhi
Gene Expression and K(+) Uptake of Two Tomato Cultivars in Response to Sub-Optimal Temperature
title Gene Expression and K(+) Uptake of Two Tomato Cultivars in Response to Sub-Optimal Temperature
title_full Gene Expression and K(+) Uptake of Two Tomato Cultivars in Response to Sub-Optimal Temperature
title_fullStr Gene Expression and K(+) Uptake of Two Tomato Cultivars in Response to Sub-Optimal Temperature
title_full_unstemmed Gene Expression and K(+) Uptake of Two Tomato Cultivars in Response to Sub-Optimal Temperature
title_short Gene Expression and K(+) Uptake of Two Tomato Cultivars in Response to Sub-Optimal Temperature
title_sort gene expression and k(+) uptake of two tomato cultivars in response to sub-optimal temperature
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7020494/
https://www.ncbi.nlm.nih.gov/pubmed/31947736
http://dx.doi.org/10.3390/plants9010065
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