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Rice LecRK5 phosphorylates a UGPase to regulate callose biosynthesis during pollen development.


ABSTRACT: The temporary callose layer surrounding the tetrads of microspores is critical for male gametophyte development in flowering plants, as abnormal callose deposition can lead to microspore abortion. A sophisticated signaling network regulates callose biosynthesis but these pathways are poorly understood. In this study, we characterized a rice male-sterile mutant, oslecrk5, which showed defective callose deposition during meiosis. OsLecRK5 encodes a plasma membrane-localized lectin receptor-like kinase, which can form a dimer with itself. Moreover, normal anther development requires the K-phosphorylation site (a conserved residue at the ATP-binding site) of OsLecRK5. In vitro assay showed that OsLecRK5 phosphorylates the callose synthesis enzyme UGP1, enhancing callose biosynthesis during anther development. Together, our results demonstrate that plasma membrane-localized OsLecRK5 phosphorylates UGP1 and promotes its activity in callose biosynthesis in rice. This is the first evidence that a receptor-like kinase positively regulates callose biosynthesis.

SUBMITTER: Wang B 

PROVIDER: S-EPMC7475243 | biostudies-literature | 2020 Jul

REPOSITORIES: biostudies-literature

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Rice LecRK5 phosphorylates a UGPase to regulate callose biosynthesis during pollen development.

Wang Bin B   Fang Ruiqiu R   Zhang Jia J   Han Jingluan J   Chen Faming F   He Furong F   Liu Yao-Guang YG   Chen Letian L  

Journal of experimental botany 20200701 14


The temporary callose layer surrounding the tetrads of microspores is critical for male gametophyte development in flowering plants, as abnormal callose deposition can lead to microspore abortion. A sophisticated signaling network regulates callose biosynthesis but these pathways are poorly understood. In this study, we characterized a rice male-sterile mutant, oslecrk5, which showed defective callose deposition during meiosis. OsLecRK5 encodes a plasma membrane-localized lectin receptor-like ki  ...[more]

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