Multi-omics analyses on the response mechanisms of 'Shine Muscat' grapevine to low degree of excess copper stress (Low-ECS).

Mengxia Chen, Xiang Fang, Zicheng Wang, Lingfei Shangguan, Tianhua Liu, Chun Chen, Zhongjie Liu, Mengqing Ge, Chuan Zhang, Ting Zheng, Jinggui Fang

Environmental pollution (Barking, Essex : 1987) 2021 Oct 01

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Copper stress is one of the most severe heavy metal stresses in plants. Grapevine has a relatively higher copper tolerance than other fruit crops. However, there are no reports regarding the tolerance mechanisms of the 'Shine Muscat' ('SM') grape to a low degree of excess copper stress (Low-ECS). Based on the physiological indicators and multi-omics (transcriptome, proteome, metabolome, and microRNAome) data, 8 h (h) after copper treatment was the most severe stress time point. Nonetheless, copper stress was alleviated 64 h after treatment. Cu ion transportation, photosynthesis pathway, antioxidant system, hormone metabolism, and autophagy were the primary response systems in 'SM' grapevine under Low-ECS. Numerous genes and proteins, such as HMA5, ABC transporters, PMM, GME, DHAR, MDHAR, ARGs, and ARPs, played essential roles in the 'SM' grapevine's response to Low-ECS. This work was carried out to gain insights into the multi-omics responses of 'SM' grapevine to Low-ECS. This study provides genetic and agronomic information that will guide better vinery management and breeding copper-resistant grape cultivars. Copyright © 2021 Elsevier Ltd. All rights reserved.

Citation

Mengxia Chen, Xiang Fang, Zicheng Wang, Lingfei Shangguan, Tianhua Liu, Chun Chen, Zhongjie Liu, Mengqing Ge, Chuan Zhang, Ting Zheng, Jinggui Fang. Multi-omics analyses on the response mechanisms of 'Shine Muscat' grapevine to low degree of excess copper stress (Low-ECS). Environmental pollution (Barking, Essex : 1987). 2021 Oct 01;286:117278