CIRAD, UMR AGAP, F-34398, Montpellier, France.
CIRAD, UMR QUALISUD, F-97130, Capesterre-Belle-Eau, Guadeloupe, France.
New Phytol. 2014 May;202(3):986-1000. doi: 10.1111/nph.12710. Epub 2014 Feb 7.
Whole-genome duplications (WGDs) are widespread in plants, and three lineage-specific WGDs occurred in the banana (Musa acuminata) genome. Here, we analysed the impact of WGDs on the evolution of banana gene families involved in ethylene biosynthesis and signalling, a key pathway for banana fruit ripening. Banana ethylene pathway genes were identified using comparative genomics approaches and their duplication modes and expression profiles were analysed. Seven out of 10 banana ethylene gene families evolved through WGD and four of them (1-aminocyclopropane-1-carboxylate synthase (ACS), ethylene-insensitive 3-like (EIL), ethylene-insensitive 3-binding F-box (EBF) and ethylene response factor (ERF)) were preferentially retained. Banana orthologues of AtEIN3 and AtEIL1, two major genes for ethylene signalling in Arabidopsis, were particularly expanded. This expansion was paralleled by that of EBF genes which are responsible for control of EIL protein levels. Gene expression profiles in banana fruits suggested functional redundancy for several MaEBF and MaEIL genes derived from WGD and subfunctionalization for some of them. We propose that EIL and EBF genes were co-retained after WGD in banana to maintain balanced control of EIL protein levels and thus avoid detrimental effects of constitutive ethylene signalling. In the course of evolution, subfunctionalization was favoured to promote finer control of ethylene signalling.
全基因组加倍(WGD)在植物中广泛存在,而香蕉(Musa acuminata)基因组中发生了三次谱系特异性的 WGD。在这里,我们分析了 WGD 对参与香蕉果实成熟的乙烯生物合成和信号转导关键途径的基因家族进化的影响。利用比较基因组学方法鉴定了香蕉乙烯途径基因,并分析了它们的复制模式和表达谱。10 个香蕉乙烯基因家族中有 7 个是通过 WGD 进化而来的,其中 4 个(1-氨基环丙烷-1-羧酸合酶(ACS)、乙烯不敏感 3 样(EIL)、乙烯不敏感 3 结合 F 框(EBF)和乙烯响应因子(ERF))被优先保留。拟南芥乙烯信号的两个主要基因 AtEIN3 和 AtEIL1 的香蕉同源基因特别扩增。这种扩张与负责控制 EIL 蛋白水平的 EBF 基因的扩张平行。香蕉果实中的基因表达谱表明,WGD 产生的多个 MaEBF 和 MaEIL 基因具有功能冗余,而其中一些基因具有亚功能化。我们提出,EIL 和 EBF 基因在香蕉的 WGD 后被共同保留,以维持 EIL 蛋白水平的平衡控制,从而避免组成性乙烯信号的不利影响。在进化过程中,亚功能化被促进,以促进更精细的乙烯信号控制。
