番茄蟹爪同源物与染色质重塑因子相互作用,介导心皮发育和花的决定

Laura Castañeda, E. Giménez, B. Pineda, B. García-Sogo, Ana Ortíz-Atienza, R. Micol-Ponce, T. Angosto, J. Capel, V. Moreno, Fernando J. Yuste-Lisbona, R. Lozano
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引用次数: 5

摘要

螃蟹爪(CRC)同源物在被子植物的分生组织(FM)决定和雌蕊形成中起着至关重要的作用,这是确保植物成功繁殖和作物生产的关键发育过程。在这里,我们揭示了在番茄果实迭代生长(图)突变体花中观察到的心皮-内心皮表型的不完全外显性和可变表达性是由于缺乏CRC基因的同源物Solanum lycopersicum CRCa (SlCRCa)的功能。同样,对SlCRCa和SlCRCb同源物的综合功能分析,包括拟南芥互补实验,使我们能够提出它们作为FM确定性的积极调节因子,以补偿和部分冗余的方式起作用,以保障花和果实的正常形成。此外,我们提供了第一个证据,证明假设的CRC同源物作为染色质重塑复合体的成员,通过抑制WUSCHEL表达来终止花干细胞的活性。
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Tomato CRABS CLAW paralogues interact with chromatin remodelling factors to mediate carpel development and floral determinacy
CRABS CLAW (CRC) orthologues play a crucial role in floral meristem (FM) determinacy and gynoecium formation across angiosperms, key developmental processes for ensuring successful plant reproduction and crop production. Here, we revealed that the incomplete penetrance and variable expressivity of the carpel-inside-carpel phenotype observed in flowers of the tomato fruit iterative growth (fig) mutant is due to a lack of function of a homologue of the CRC gene, Solanum lycopersicum CRCa (SlCRCa). Likewise, a comprehensive functional analysis of SlCRCa and SlCRCb paralogues, including Arabidopsis complementation experiments, allowed us to propose that they operate as positive regulators of FM determinacy by acting in a compensatory and partially redundant manner to safeguard the proper formation of flowers and fruits. Furthermore, we provide the first evidence for the role of putative CRC orthologues as members of the chromatin remodelling complex that terminates floral stem cell activity by repressing WUSCHEL expression.
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