转录因子 CpMYB62 控制着决定葫芦科植物雌花的遗传网络。

IF 7.6 Q1 GENETICS & HEREDITY
园艺研究(英文) Pub Date : 2024-04-22 eCollection Date: 2024-06-01 DOI:10.1093/hr/uhae115
María Segura, Alicia García, German Gamarra, Álvaro Benítez, Jessica Iglesias-Moya, Cecilia Martínez, Manuel Jamilena
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引用次数: 0

摘要

在雌雄同株的物种中,雌花的发育过程决定了果实的发生和生产,因此与作物产量密切相关。本文介绍了 myb62 的鉴定、表型和分子特征。myb62 是一种甲烷磺酸乙酯功能缺失突变,它能完全阻断雌花的转化,使所有雌花转化为雄花。BSA-seq分析和WGS显示,myb62对应于基因CpMYB62编码区的一个C>T转换,产生了一个过早终止密码子和一个没有N端效应结构域的截短转录因子。应用外源乙烯可部分挽救 myb62 表型,这表明 CpMYB62 的功能是由乙烯介导的。支持这一结论的证据包括:首先,突变体的乙烯产量降低;其次,myb62 和乙烯不敏感突变体 etr2b 双突变体的雄花产量表型表明,myb62 与 etr2b 之间存在表观作用。此外,对 WT 和 myb62 顶芽的转录组分析证实,CpMYB62 可调控主性别决定基因,上调乙烯生物合成酶 CpACO2B 和 CpACS27A 的编码基因,以及促进心皮发育的转录因子(CpCRC)的编码基因、在控制葫芦科植物性别决定的基因网络中,CpMYB62 位于最上游,它激活了乙烯和其他参与葫芦科植物雌花决定的性别决定基因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The transcription factor CpMYB62 controls the genetic network that leads to the determination of female flowers in Cucurbita pepo.

In monoecious species, female flowering constitutes the developmental process that determines the onset and production of fruit and is therefore closely related to crop yield. This article presents the identification and phenotypic and molecular characterization of myb62, an ethylmethane sulfonate loss-of-function mutation that completely blocks the female floral transition, converting all female flowers into male flowers. BSA-seq analysis coupled with WGS showed that myb62 corresponds to a C>T transition in the coding region of the gene CpMYB62, generating a premature stop codon and a truncated transcription factor without its N-terminal effector domain. The myb62 phenotype was partially rescued by exogenous ethylene application, indicating that the function of CpMYB62 is mediated by ethylene. Different evidence supports this conclusion: first, the reduced ethylene production of the mutant, and second, the male flower productive phenotype of the double mutant between myb62 and the ethylene-insensitive mutant etr2b, which demonstrated that myb62 is epistatic over etr2b. Furthermore, transcriptomic analysis of WT and myb62 apical shoots confirmed that CpMYB62 regulates master sex-determining genes, upregulating those encoding the ethylene biosynthesis enzymes CpACO2B and CpACS27A and those encoding for transcription factors that promote the development of carpels(CpCRC), but downregulating those involved in the arrest of carpels (CpWIP1), In the gene network controlling sex determination in cucurbits, CpMYB62 occupies the most upstream position, activating ethylene and other sex determining genes involved in female flower determination in Cucurbita  pepo.

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