木薯分枝发育过程的动态转录组分析与关键基因发掘OA
Dynamic transcriptome analysis and key gene discovery during cassava branching development
分枝是决定木薯株型与产量的关键性状之一,但其分子调控机制尚不明确.本研究以多分枝木薯品种 SC5为材料,通过测定分枝发育不同阶段的植物激素含量,并结合转录组测序,系统解析了木薯分枝的调控网络.结果显示,木薯分枝过程中生长素与细胞分裂素含量持续下降,而赤霉素含量呈先升后降趋势,并在腋芽激活期达到峰值.与之相应,生长素生物合成与信号转导基因表达持续下调,而赤霉素相关基因显著上调.进一步鉴定获得 7 个关键转录因子,包括MeTCP(2 个)、MeMADS(2 个)、MeAP2(1 个)、MeHD-ZIP(1 个)和MeERF(1 个),其表达模式与分枝发育进程密切关联.综上所述,木薯分枝发育受植物激素动态平衡与多层次转录调控网络的协同调控.
Branching is a key trait that determines plant architecture and yield in cassava.However,its molecular regulatory mechanisms remain unclear.In this study,we used the multi-branching cassava cultivar SC5 as material.We systematically analyzed the regulatory network of cassava branching by measuring phytohormone levels at different developmental stages and integrating transcriptome sequencing analysis.The results showed that during cassava branching,the contents of auxin and cytokinin continuously decreased.Gibberellin content initially increased and reached a peak value at the stage of axil-lary bud activation,and then decreased.Correspondingly,the expression of genes involved in auxin biosynthesis and sig-naling transduction were consistently down-regulated.Meanwhile,the gibberellin-related genes were significantly up-regulated.Furthermore,seven key transcription factors were identified,including MeTCP(2),MeMADS(2),MeAP2(1),MeHD-ZIP(1),and MeERF(1).Their expression patterns were closely associated with branching development.In conclu-sion,branching development in cassava was coordinately regulated by the dynamic balance of phytohormones and a multi layered transcriptional regulatory network.
蔡兆琴;何观咏;何文;阮丽霞;梁振华;李永珍;李恒锐;陈会鲜
广西南亚热带农业科学研究所,广西龙州 532415广西南亚热带农业科学研究所,广西龙州 532415广西南亚热带农业科学研究所,广西龙州 532415广西南亚热带农业科学研究所,广西龙州 532415广西南亚热带农业科学研究所,广西龙州 532415广西壮族自治区农业科学院,广西 南宁 530007广西南亚热带农业科学研究所,广西龙州 532415广西南亚热带农业科学研究所,广西龙州 532415
木薯分枝转录组植物激素转录因子
cassavabranchingtranscriptomeplant hormonetranscription factor
《作物学报》 2026 (5)
1430-1441,12
本研究由国家重点研发计划项目(2023YFD1600600),广西青年科学基金项目(2024GXNSFBA010382,2024GXNSFAA010006),广西农业科学院稳定资助科研团队项目(桂农科 2021YT157)和广西南亚热带农业科学研究所自筹项目(NYS2025ZC03)资助.This study was supported by the National Key Research and Development Program of China(2023YFD1600600),the Guangxi Youth Science Foundation Project(2024GXNSFBA010382,2024GXNSFAA010006),the Guangxi Academy of Agricultural Sciences Stable Funding Re-search Team Project(Guinongke 2021YT157),and the Self-funded Project of Guangxi South Subtropical Agricultural Science Research Institute(NYS2025ZC03).
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