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A novel strategy for improving watermelon resistance to cucumber green mottle mosaic virus by exogenous boron application
Author(s) -
Bi Xinyue,
Guo Huiyan,
Li Xiaodong,
Zheng Lijiao,
An Mengnan,
Xia Zihao,
Wu Yuanhua
Publication year - 2022
Publication title -
molecular plant pathology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.945
H-Index - 103
eISSN - 1364-3703
pISSN - 1464-6722
DOI - 10.1111/mpp.13234
Subject(s) - spermine , biology , putrescine , spermidine , gene silencing , biochemistry , catabolism , metabolism , gene , enzyme
Abstract The molecular mode controlling cucumber green mottle mosaic virus (CGMMV)‐induced watermelon blood flesh disease (WBFD) is largely unknown. In this study, we have found that application of exogenous boron suppressed CGMMV infection in watermelon fruit and alleviated WBFD symptoms. Our transcriptome analysis showed that the most up‐regulated differentially expressed genes (DEGs) were associated with polyamine and auxin biosynthesis, abscisic acid catabolism, defence‐related pathways, cell wall modification, and energy and secondary metabolism, while the down‐regulated DEGs were mostly involved in ethylene biosynthesis, cell wall catabolism, and plasma membrane functions. Our virus‐induced gene silencing results showed that silencing of SPDS expression in watermelon resulted in a higher putrescine content and an inhibited CGMMV infection correlating with no WBFD symptoms. SBT and TUBB1 were also required for CGMMV infection. In contrast, silencing of XTH23 and PE/PEI7 (low‐level lignin, cellulose and pectin) and ATPS1 (low‐level glutathione) promoted CGMMV accumulation. Furthermore, RAP2‐3 , MYB6 , WRKY12 , H2A , and DnaJ11 are likely to participate in host antiviral resistance. In addition, a higher (spermidine + spermine):putrescine ratio, malondialdehyde content, and lactic acid content were responsible for fruit decay and acidification. Our results provide new knowledge on the roles of boron in watermelon resistance to CGMMV‐induced WBFD. This new knowledge can be used to design better control methods for CGMMV in the field and to breed CGMMV resistant watermelon and other cucurbit crops.

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