Song Chun-Bo, Shan Wei, Yang Ying-Ying, Tan Xiao-Li, Fan Zhong-Qi, Chen Jian-Ye, Lu Wang-Jin, Kuang Jian-Fei
State Key Laboratory for Conservation and Utilization of Subtropical Agro-Bioresources/Guangdong Key Laboratory for Postharvest Science, College of Horticultural Science, South China Agricultural University, Guangzhou 510642, PR China.
State Key Laboratory for Conservation and Utilization of Subtropical Agro-Bioresources/Guangdong Key Laboratory for Postharvest Science, College of Horticultural Science, South China Agricultural University, Guangzhou 510642, PR China.
Biochim Biophys Acta Gene Regul Mech. 2018 Jun 20;1861(7):613-622. doi: 10.1016/j.bbagrm.2018.06.005.
The biological processes involved in banana fruit ripening are extremely complex and modulated by a number of genes such as transcription factors (TFs). Although TFs like MADS, ERF and NAC are implicated in controlling banana ripening, little is known about other TFs such as TCP in this process. In this work, 25 MaTCPs named MaTCP1 to MaTCP25 were characterized from our previously reported transcriptomes related to banana ripening. Expression analysis revealed that these MaTCPs displayed differential expression patterns during the progression of banana ripening. Particularly, MaTCP5, MaTCP19 and MaTCP20 were ethylene-inducible and nuclear-localized, with MaTCP5 and MaTCP20 acting as transcriptional activators while MaTCP19 being a transcriptional inhibitor. Moreover, MaTCP5 and MaTCP20 promoted the transcription of MaXTH10/11 that may play a role in fruit softening during banana ripening, whereas MaTCP19 repressed their transcription, by directly binding to their promoters. Importantly, protein-protein interaction assays demonstrated that MaTCP20 physically interacts with MaTCP5 and MaTCP19 to form heterodimers in vitro and in vivo, and these protein complexes affects their transcriptional activities in regulating the target genes. Taken together, our results provide an overview of the interactions between MaTCPs in controlling the ripening-associated genes and lay a foundation for further investigation of MaTCP gene family in regulating banana fruit ripening.
香蕉果实成熟过程中涉及的生物学过程极其复杂,受到许多基因的调控,如转录因子(TFs)。尽管MADS、ERF和NAC等转录因子与香蕉成熟的调控有关,但在此过程中对于其他转录因子,如TCP,人们了解甚少。在这项研究中,从我们之前报道的与香蕉成熟相关的转录组中鉴定出了25个MaTCPs,命名为MaTCP1至MaTCP25。表达分析表明,这些MaTCPs在香蕉成熟过程中呈现出不同的表达模式。特别是,MaTCP5、MaTCP19和MaTCP20受乙烯诱导且定位于细胞核,其中MaTCP5和MaTCP20作为转录激活因子,而MaTCP19是转录抑制因子。此外,MaTCP5和MaTCP20促进了MaXTH10/11的转录,MaXTH10/11可能在香蕉成熟期间的果实软化中发挥作用,而MaTCP19通过直接结合其启动子来抑制它们的转录。重要的是,蛋白质-蛋白质相互作用分析表明,MaTCP20在体外和体内与MaTCP5和MaTCP19发生物理相互作用形成异二聚体,并且这些蛋白质复合物影响它们在调控靶基因中的转录活性。综上所述,我们的结果概述了MaTCPs在控制成熟相关基因方面的相互作用,为进一步研究MaTCP基因家族在调控香蕉果实成熟中的作用奠定了基础。
