Physiological Investigation and Transcriptome Analysis Reveals the Mechanisms of Setaria italica’s Yield Formation under Heat Stress

Physiological Investigation and Transcriptome Analysis Reveals the Mechanisms of Setaria italica’s Yield Formation under Heat Stress

Setaria italica is an important crop in China that plays a vital role in the Chinese dietary structure. In the last several decades, high temperature has become the most severe climate issue in the world, which causes great harm to the yield and quality formation of millet. In this study, two main c...

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Veröffentlicht in:International journal of molecular sciences 2024-03, Vol.25 (6), p.3171
Hauptverfasser: Hu, Manicao, Yang, Meng, Liu, Jingyang, Huang, Haozhe, Luan, Ruiwei, Yue, Hongliang, Zhang, Caixia
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Sprache:eng
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Agricultural production
Carbohydrates
Cell division
Chlorophyll
Climate change
Crops
Food security
Grain
Heat resistance
High temperature
Nutrition
Photosynthesis
Physiology
Seeds
Sucrose
Sugar
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container_issue 6
container_start_page 3171
container_title International journal of molecular sciences
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creator Hu, Manicao
Yang, Meng
Liu, Jingyang
Huang, Haozhe
Luan, Ruiwei
Yue, Hongliang
Zhang, Caixia
description Setaria italica is an important crop in China that plays a vital role in the Chinese dietary structure. In the last several decades, high temperature has become the most severe climate issue in the world, which causes great harm to the yield and quality formation of millet. In this study, two main cultivated varieties (ZG2 and AI88) were used to explore the photosynthesis and yield index of the whole plant under heat stress. Results implied that photosynthesis was not inhibited during the heat stress, and that the imbalance in sugar transport between different tissues may be the main factor that affects yield formation. In addition, the expression levels of seven SiSUT and twenty-four SiSWEET members were explored. Sugar transporters were heavily affected during the heat stress. The expression of SiSWEET13a was inhibited by heat stress in the stems, which may play a vital role in sugar transport between different tissues. These results provide new insights into the yield formation of crops under heat stress, which will provide guidance to crop breeding and cultivation.
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subjects Agricultural production
Carbohydrates
Cell division
Chlorophyll
Climate change
Crops
Food security
Grain
Heat resistance
High temperature
Nutrition
Photosynthesis
Physiology
Seeds
Sucrose
Sugar
title Physiological Investigation and Transcriptome Analysis Reveals the Mechanisms of Setaria italica’s Yield Formation under Heat Stress
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