In plants,submergence from flooding causes hypoxia,which impairs energy production and affects plant growth,productivity,and survival.In Arabidopsis,hypoxia induces nuclear localization of the group VII ethylene-respo...In plants,submergence from flooding causes hypoxia,which impairs energy production and affects plant growth,productivity,and survival.In Arabidopsis,hypoxia induces nuclear localization of the group VII ethylene-responsive transcription factor RELATED TO AP2.12(RAP2.12),following its dissociation from the plasma membrane-anchored ACYL-COA BINDING PRO-TEIN1(ACBP1)and ACBP2.Here,we show that polyunsaturated linolenoyl-Co A(18:3-Co A)regulates RAP2.12release from the plasma membrane.Submergence caused a significant increase in 18:3-Co A,but a significant decrease in 18:0-,18:1-,and 18:2-Co A.Application of 18:3-Co A promoted nuclear accumulation of the green fluorescent protein(GFP)fusions RAP2.12-GFP,HYPOXIA-RESPONSIVE ERF1-GFP,and RAP2.3-GFP,and enhanced transcript levels of hypoxia-responsive genes.Plants with decreased ACBP1 and ACBP2(acbp1 ACBP2-RNAi,produced by ACBP2 RNA interference in the acbp1 mutant)had reduced tolerance to hypoxia and impaired 18:3-Co A-induced expression of hypoxia-related genes.In knockout mutants and overexpression lines of LONG-CHAIN ACYL-COA SYNTHASE2(LACS2)and FATTY ACID DE-SATURASE 3(FAD3),the acyl-Co A pool size and 18:3-Co A levels were closely related to ERF-VII-mediated signaling and hypoxia tolerance.These findings demonstrate that polyunsaturation of long-chain acyl-Co As functions as important mechanism in the regulation of plant hypoxia signaling,by modulating ACBP–ERF-VII dynamics.展开更多
基金supported by the National Natural Science Foundation of China(Projects 31725004,31670276,and 31461143001 to S.X.Project 31700220 to L.J.X.)the Natural Science Foundation of Guangdong Province,China(Project 2015A030313122 to Q.F.C.)+1 种基金Sun Yat-Sen University(Projects 17lgpy110 and Plant KF02 to L.J.X.)supported by the Wilson and Amelia Wong Endowment Fund。
文摘In plants,submergence from flooding causes hypoxia,which impairs energy production and affects plant growth,productivity,and survival.In Arabidopsis,hypoxia induces nuclear localization of the group VII ethylene-responsive transcription factor RELATED TO AP2.12(RAP2.12),following its dissociation from the plasma membrane-anchored ACYL-COA BINDING PRO-TEIN1(ACBP1)and ACBP2.Here,we show that polyunsaturated linolenoyl-Co A(18:3-Co A)regulates RAP2.12release from the plasma membrane.Submergence caused a significant increase in 18:3-Co A,but a significant decrease in 18:0-,18:1-,and 18:2-Co A.Application of 18:3-Co A promoted nuclear accumulation of the green fluorescent protein(GFP)fusions RAP2.12-GFP,HYPOXIA-RESPONSIVE ERF1-GFP,and RAP2.3-GFP,and enhanced transcript levels of hypoxia-responsive genes.Plants with decreased ACBP1 and ACBP2(acbp1 ACBP2-RNAi,produced by ACBP2 RNA interference in the acbp1 mutant)had reduced tolerance to hypoxia and impaired 18:3-Co A-induced expression of hypoxia-related genes.In knockout mutants and overexpression lines of LONG-CHAIN ACYL-COA SYNTHASE2(LACS2)and FATTY ACID DE-SATURASE 3(FAD3),the acyl-Co A pool size and 18:3-Co A levels were closely related to ERF-VII-mediated signaling and hypoxia tolerance.These findings demonstrate that polyunsaturation of long-chain acyl-Co As functions as important mechanism in the regulation of plant hypoxia signaling,by modulating ACBP–ERF-VII dynamics.
