MaRTH1 suppression of ethylene response during banana fruit ripening and is controlled by MaXB3-MaNAC2 regulatory module
Wei Wei, Ying-ying Yang, Xin-guo Su, Jian-fei Kuang, Jian-ye Chen, Wang-jin Lu and Wei Shan
Postharvest Biology and Technology, Volume 182, December 2021, 111707
2021
บทคัดย่อ
RTE1 (Reversion to Ethylene Sensitivity 1) and its homolog RTH play important role in ethylene response through mediating the receptor signaling output, but their role in climacteric fruit ripening is not clear. In this study, we found two RTE1/RTH genes MaRTH1 and MaRTH2 in banana genome. MaRTH1 expression was inhibited by ethylene and down-regulated during ripening, whereas MaRTH2 expression showed no significant changes during the whole ripening process. Transient over-expression of MaRTH1 in bananas inhibited the effect of exogenous ethylene on endogenous ethylene production, thereby delayed fruit ripening. Using MaRTH1 promoter as a target, we performed yeast one-hybrid screening and isolated the NAC transcription factor MaNAC2, a banana ripening-associated transcriptional repressor degraded by an E3 ligase MaXB3 through ubiquitination. DNA-protein binding assays further confirmed that MaNAC2 repressed the expression of MaRTH1 by directly targeting its promoter. Moreover, the MaNAC2 transcriptional repression to MaRTH1 was inhibited by MaXB3, and this inhibitory action was attenuated by the proteasome inhibitor MG132. Collectively, these findings reveal that MaRTH1, which is modulated by MaXB3-MaNAC2 regulatory module, functions as a negative regulator of ethylene response during banana ripening.