ESCRT-dependent vacuolar sorting and degradation of the auxin biosynthetic enzyme YUC1 flavin monooxygenase 被引量：3

ESCRT-dependent vacuolar sorting and degradation of the auxin biosynthetic enzyme YUC1 flavin monooxygenase

导出

摘要 YUC flavin monooxygenases catalyze the ratelimiting step of auxin biosynthesis. Here we report the vacuolar targeting and degradation of GFP-YUC1. GFP-YUC1 fusion expressed in Arabidopsis protoplasts or transgenic plants was primarily localized in vacuoles. Surprisingly, we established that GFP-YUC1, a soluble protein, was sorted to vacuoles through the ESCRT pathway, which has long been recognized for sorting and targeting integral membrane proteins. We further show that GFP-YUC1 was ubiquitinated and in this form GFP-YUC1 was targeted for degradation, a process that was also stimulated by elevated auxin levels. Our findings revealed a molecular mechanism of GFP-YUC1 degradation and demonstrate that the ESCRT pathway can recognize both soluble and integral membrane proteins as cargoes. YUC flavin monooxygenases catalyze the ratelimiting step of auxin biosynthesis. Here we report the vacuolar targeting and degradation of GFP-YUC1. GFP-YUC1 fusion expressed in Arabidopsis protoplasts or transgenic plants was primarily localized in vacuoles. Surprisingly, we established that GFP-YUC1, a soluble protein, was sorted to vacuoles through the ESCRT pathway, which has long been recognized for sorting and targeting integral membrane proteins. We further show that GFP-YUC1 was ubiquitinated and in this form GFP-YUC1 was targeted for degradation, a process that was also stimulated by elevated auxin levels. Our findings revealed a molecular mechanism of GFP-YUC1 degradation and demonstrate that the ESCRT pathway can recognize both soluble and integral membrane proteins as cargoes.

作者 Chennan Ge Caiji Gao Qingguo Chen Liwen Jiang Yunde Zhao

机构地区 National Key Laboratory of Crop Genetic Improvement and National Center of Plant Gene Research(Wuhan) Section of Cell and Developmental Biology School of Life Sciences Guangdong Provincial Key Laboratory of Biotechnology for Plant Development

出处《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2019年第9期968-973,共6页 植物学报（英文版）

基金 supported by NIH grant R01GM114660 (to Y.Z.) the China Scholarship Council (201606760041 to C.N.G.) by grants from the grants from the National Natural Science Foundation of China (31671467 and 31870171 to C.G.)

关键词 GFP PVC bar TAA ESCRT-dependent VACUOLAR

分类号 Q945 [生物学—植物学]

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