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Sphingolipid inhibitor response gene GhMYB86 controls fiber elongation by regulating microtubule arrangement
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作者 Fan Xu Guiming Li +7 位作者 Shengyang He Zhifeng Zeng Qiaoling Wang Hongju Zhang Xingying Yan Yulin Hu huidan tian Ming Luo 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2024年第9期1898-1914,共17页
Although the cell membrane and cytoskeleton play essential roles in cellular morphogenesis,the interaction between the membrane and cytoskeleton is poorly understood.Cotton fibers are extremely elongated single cells,... Although the cell membrane and cytoskeleton play essential roles in cellular morphogenesis,the interaction between the membrane and cytoskeleton is poorly understood.Cotton fibers are extremely elongated single cells,which makes them an ideal model for studying cell development.Here,we used the sphingolipid biosynthesis inhibitor,fumonisin B1(FB1),and found that it effectively suppressed the myeloblastosis(MYB)transcription factor GhMYB86,thereby negatively affecting fiber elongation.A direct target of GhMYB86 is GhTUB7,which encodes the tubulin protein,the major component of the microtubule cytoskeleton.Interestingly,both the overexpression of GhMYB86 and GhTUB7 caused an ectopic microtubule arrangement at the fiber tips,and then leading to shortened fibers.Moreover,we found that GhMBE2 interacted with GhMYB86 and that FB1 and reactive oxygen species induced its transport into the nucleus,thereby enhancing the promotion of GhTUB7 by GhMYB86.Overall,we established a GhMBE2-GhMYB86-GhTUB7 regulation module for fiber elongation and revealed that membrane sphingolipids affect fiber elongation by altering microtubule arrangement. 展开更多
关键词 cotton fiber membrane sphingolipid microtubule arrangement
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