ZmCCD8 regulates sugar and amino acid accumulation in maize kernels via strigolactone signalling

IF 10.1 1区 生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Yanting Zhong, Yongqi Wang, Xiaoying Pan, Ruifeng Wang, Dongdong Li, Wei Ren, Ziyi Hao, Xionggao Shi, Jingyu Guo, Elia Ramarojaona, Mario Schilder, Harro Bouwmeester, Limei Chen, Peng Yu, Jijun Yan, Jinfang Chu, Yanjun Xu, Wenxin Liu, Zhaobin Dong, Yi Wang, Xiaolan Zhang, Fusuo Zhang, Xuexian Li
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Abstract

How carbon (sucrose) and nitrogen (amino acid) accumulation is coordinatively controlled in cereal grains remains largely enigmatic. We found that overexpression of the strigolactone (SL) biosynthesis gene CAROTENOID CLEAVAGE DIOXYGENASE 8 (CCD8) resulted in greater ear diameter and enhanced sucrose and amino acid accumulation in maize kernels. Loss of ZmCCD8 function reduced kernel growth with lower sugar and amino acid concentrations. Transcriptomic analysis showed down-regulation of the transcription factors ZmMYB42 and ZmMYB63 in ZmCCD8 overexpression alleles and up-regulation in zmccd8 null alleles. Importantly, ZmMYB42 and ZmMYB63 were negatively regulated by the SL signalling component UNBRANCHED 3, and repressed expression of the sucrose transporters ZmSWEET10 and ZmSWEET13c and the lysine/histidine transporter ZmLHT14. Consequently, null alleles of ZmMYB42 or ZmMYB63 promoted accumulation of soluble sugars and free amino acids in maize kernels, whereas ZmLHT14 overexpression enhanced amino acid accumulation in kernels. Moreover, overexpression of the SL receptor DWARF 14B resulted in more sucrose and amino acid accumulation in kernels, down-regulation of ZmMYB42 and ZmMYB63 expression, and up-regulation of ZmSWEETs and ZmLHT14 transcription. Together, we uncover a distinct SL signalling pathway that regulates sucrose and amino acid accumulation in kernels. Significant association of two SNPs in the 5′ upstream region of ZmCCD8 with ear and cob diameter implicates its potential in breeding toward higher yield and nitrogen efficiency.
ZmCCD8 通过绞股蓝内酯信号调控玉米籽粒中糖和氨基酸的积累
谷物中碳(蔗糖)和氮(氨基酸)的积累是如何协调控制的在很大程度上仍然是个谜。我们发现,过量表达绞股蓝内酯(SL)生物合成基因CAROTENOID CLEAVAGE DIOXYGENASE 8(CCD8)可使玉米籽粒的穗直径增大,蔗糖和氨基酸积累增加。ZmCCD8 功能缺失会降低玉米籽粒的生长,同时降低糖和氨基酸的浓度。转录组分析表明,ZmCCD8过表达等位基因中转录因子ZmMYB42和ZmMYB63下调,而zmccd8无效等位基因中上调。重要的是,ZmMYB42 和 ZmMYB63 受 SL 信号元件 UNBRANCHED 3 的负调控,并抑制蔗糖转运体 ZmSWEET10 和 ZmSWEET13c 以及赖氨酸/组氨酸转运体 ZmLHT14 的表达。因此,ZmMYB42 或 ZmMYB63 的空等位基因会促进玉米籽粒中可溶性糖和游离氨基酸的积累,而 ZmLHT14 的过表达则会促进籽粒中氨基酸的积累。此外,SL 受体 DWARF 14B 的过表达导致更多的蔗糖和氨基酸在籽粒中积累,ZmMYB42 和 ZmMYB63 的表达下调,ZmSWEETs 和 ZmLHT14 的转录上调。总之,我们发现了一条独特的 SL 信号通路,它能调节果核中蔗糖和氨基酸的积累。ZmCCD8上游5′区域的两个SNPs与果穗和果穗直径有显著关联,这表明ZmCCD8在育种中具有提高产量和氮效率的潜力。
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来源期刊
Plant Biotechnology Journal
Plant Biotechnology Journal 生物-生物工程与应用微生物
CiteScore
20.50
自引率
2.90%
发文量
201
审稿时长
1 months
期刊介绍: Plant Biotechnology Journal aspires to publish original research and insightful reviews of high impact, authored by prominent researchers in applied plant science. The journal places a special emphasis on molecular plant sciences and their practical applications through plant biotechnology. Our goal is to establish a platform for showcasing significant advances in the field, encompassing curiosity-driven studies with potential applications, strategic research in plant biotechnology, scientific analysis of crucial issues for the beneficial utilization of plant sciences, and assessments of the performance of plant biotechnology products in practical applications.
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