Nodulation is an energy-expensive behavior driven by legumes by providing carbon sources to bacteroids and obtaining nitrogen sources in return.The energy sensor sucrose nonfermenting 1-related protein kinase 1(SnRK1)...Nodulation is an energy-expensive behavior driven by legumes by providing carbon sources to bacteroids and obtaining nitrogen sources in return.The energy sensor sucrose nonfermenting 1-related protein kinase 1(SnRK1)is the hub of energy regulation in eukaryotes.However,the molecular mechanism by which SnRK1 coordinates the allocation of energy and substances during symbiotic nitrogen fixation(SNF)remains unknown.In this study,we identified the novel legume-specific SnRK1α4,a member of the SnRK1 family that positively regulates SNF.Phenotypic analysis showed that nodule size and nitrogenase activity increased in SnRK1α4-overexpressing plants and decreased significantly in snrk1α4 mutants.We demonstrated that a key upstream kinase involved in nodulation,Does Not Make Infection 2(DMI2),can phosphorylate SnRK1α4 at Thr175 to cause its activation.Further evidence clarified that SnRK1α4 phosphorylates the malate dehydrogenases MDH1/2 to promote malate production in the cytoplasm,supplying carbon sources to bacteroids.Therefore,our findings reveal an essential role of the DMI2–SnRK1α4–MDH pathway in supplying carbon sources to bacteroids for SNF and provide a new module for constructing cereal crops with SNF.展开更多
基金the National Key Research Development Program of China(2022YFA0912100)the National Natural Science Foundation of China(NFSC+1 种基金32070272)the major demonstration project"The Open Competition"for seed industry science and technology innovation in Inner Mongolia(2022JBGS0016).
文摘Nodulation is an energy-expensive behavior driven by legumes by providing carbon sources to bacteroids and obtaining nitrogen sources in return.The energy sensor sucrose nonfermenting 1-related protein kinase 1(SnRK1)is the hub of energy regulation in eukaryotes.However,the molecular mechanism by which SnRK1 coordinates the allocation of energy and substances during symbiotic nitrogen fixation(SNF)remains unknown.In this study,we identified the novel legume-specific SnRK1α4,a member of the SnRK1 family that positively regulates SNF.Phenotypic analysis showed that nodule size and nitrogenase activity increased in SnRK1α4-overexpressing plants and decreased significantly in snrk1α4 mutants.We demonstrated that a key upstream kinase involved in nodulation,Does Not Make Infection 2(DMI2),can phosphorylate SnRK1α4 at Thr175 to cause its activation.Further evidence clarified that SnRK1α4 phosphorylates the malate dehydrogenases MDH1/2 to promote malate production in the cytoplasm,supplying carbon sources to bacteroids.Therefore,our findings reveal an essential role of the DMI2–SnRK1α4–MDH pathway in supplying carbon sources to bacteroids for SNF and provide a new module for constructing cereal crops with SNF.
