Enhanced Valsa canker resistance conferred by expression of MdLecRK-S.4.3 in Pyrus betulifolia is largely suppressed by PbePUB36

MdLecRK-S.4.3-induced resistance to Valsa canker in pear is compromised by PbePUB36, and MdLecRK-S.4.3 interacts with PbePUB36 and/or MdBAK1 to mediate immune responses. Abstract L-type lectin receptor-like kinases (L-LecRKs) act as sensors of extracellular signals and as initiators for plant immune...

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Published in:Journal of experimental botany 2023-08, Vol.74 (14), p.3998-4013
Main Authors: Sun, E, Yu, Hongqiang, Chen, Zhongjian, Cai, Minrui, Mao, Xia, Li, Yanyan, Zuo, Cunwu
Format: Article
Language:English
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Summary:MdLecRK-S.4.3-induced resistance to Valsa canker in pear is compromised by PbePUB36, and MdLecRK-S.4.3 interacts with PbePUB36 and/or MdBAK1 to mediate immune responses. Abstract L-type lectin receptor-like kinases (L-LecRKs) act as sensors of extracellular signals and as initiators for plant immune responses; however, the function of LecRK-S.4 in plant immunity has not yet been extensively investigated. In the present study we found that MdLecRK-S.4.3 in apple (Malus domestica), a homologous gene of LecRK-S.4, was differentially expressed during infection by Valsa mali and Valsa pyri. Overexpression of MdLecRK-S.4.3 facilitated the induction of immune responses and enhanced the resistance to Valsa canker of fruits of apple and pear (Pyrus betulifolia), and of suspension cells of pear ‘Duli-G03’. The expression of PbePUB36, a RLCK XI sub-family member, was significantly repressed in the MdLecRK-S.4.3-overexpressing cell lines. Overexpression of PbePUB36 interfered with the resistance to Valsa canker and the immune response caused by up-regulation of MdLecRK-S.4.3. In addition, we found that MdLecRK-S.4.3 interacted with BAK1 and/or PbePUB36 in vivo. Thus, whilst MdLecRK-S.4.3 activated various immune responses and positively regulated Valsa canker resistance, this could be largely compromised by PbePUB36. MdLecRK-S.4.3 interacted with PbePUB36 and/or MdBAK1 to mediate the immune responses. Our finding provides a basis for further examination of the molecular mechanisms underlying resistance to Valsa canker, and can contribute to resistance breeding.
ISSN:0022-0957
1460-2431
DOI:10.1093/jxb/erad126