Fanwei Zeng scite author profile

Fanwei Zeng

2Publications

11Citation Statements Received

83Citation Statements Given

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140

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Gansu Agricultural University

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Physiological, biochemical and molecular responses associated with drought tolerance in grafted grapevine

et al. 2023

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Background Grafting is one of the promising techniques for improving abiotic stress tolerance in horticultural crops, but the underlying regulatory mechanisms of drought on grafted grapevine are largely unexplored. Results Herein, we investigated the phenotypic, physiologic, biochemical, and drought related genes change of self-rooted 1103P (1103 Paulsen), SM (Shine Muscat) and grafted SM/1103P (SM shoot/1103P root) under drought stress condition. The results indicated that grafted grapevine effectively alleviated drought damage in grape leaves by higher RWC, water potential and free water content. Drought stress led to the alterations of chlorophyll, carotenoid, photosynthetic parameters and chlorophyll fluorescence in grapevine leaves after drought treatment indicated grafted plants improved the photosystem response to drought stress. Moreover, grafted plants under drought stress exhibited higher levels of abscisic acid (ABA), indoleacetic acid (IAA) and soluble protein, but less contents of hydrogen peroxide (H2O2) and malondialdehyde (MDA) both in leaves and roots. Drought stress also increased the activities of antioxidant enzymes (SOD, POD and CAT) and activated the transcript expression of VvCu/ZnSOD, VvPOD4 and VvCAT1) in both leaves and roots. Further expression analysis by real-time PCR indicated that the expression levels of ABA-dependent and ABA-independent related genes could be activated in grafted grape after drought treatment. Conclusions Taken together, our findings demonstrated that grafting onto 1103P enhanced tolerance against drought stress in grape by improving water content, photosynthesis and antioxidant defense capacity, which provided a valuable information for understanding the mechanisms of drought tolerance regulated by grafting plants.

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Grape BES1 transcription factor gene VvBES1-3 confers salt tolerance in transgenic Arabidopsis

Cao

Zeng

et al. 2023

Gene

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Fanwei Zeng

Physiological, biochemical and molecular responses associated with drought tolerance in grafted grapevine

Grape BES1 transcription factor gene VvBES1-3 confers salt tolerance in transgenic Arabidopsis

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