摘要
The growth and yield of tea plants are seriously limited by drought stress.Fatty acid desaturases(FADs)contribute to the mediation of membrane fluidity in response to different stresses,although the role ofω-3 FAD(Omega-3fatty acid desaturase)-mediated damage induced by drought stress in tea plants is poorly understood.In this study,drought stress significantly promoted the synthesis of C18:3(linolenic acid)and the expression level of CsFAD3.Yeast experiments further demonstrated that CsFAD3 can convert C18:2 to C18:3,and that the 35S:GFP-CsFAD3fusion protein was localized in the endoplasmic reticulum of Nicotiana benthamiana cells.CsFAD3-silenced tea leaves exhibited poor drought tolerance,with a lower F_(v)/F_(m)and a higher malondialdehyde(MDA)content than the control plants.However,transgenic 35S:CsFAD3 Arabidopsis plants showed the opposite phenotypes.In addition,the jasmonic acid(JA)content and the expression levels of CsLOX2,CsLOX4,CsAOS,CsAOC3 and CsOPR2 were significantly reduced in CsFAD3-silenced leaves under drought stress.However,no substantial difference in the salicylic acid(SA)content was detected under normal or drought conditions.An analysis of Atcoi1(JA receptor)or Atnpr1(SA receptor)mutant Arabidopsis plants in 35S:CsFAD3 backgrounds further revealed that knockout of Atcoi1impaired the drought-tolerant phenotypes of CsFAD3 overexpression lines.Therefore,this study demonstrated that CsFAD3 plays a crucial role in drought tolerance by mediating JA pathways.
基金
supported by the Science Foundation for Anhui Province,China(2022AH050919)
the Anhui Provincial Key Research and Development,China(2022l07020019)
the Anhui Province Science and Technology Major Project,China(202203a06020014)
the National Key Research and Development Program of China(2021YFD1601103)
the Anhui University Collaborative Innovation Project,China(GXXT-2020-080)。
