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Characteristics of banana B genome MADS-box family demonstrate their roles in fruit development, ripening, and stress

MADS箱 生物 成熟 小果野蕉 基因 基因组 基因家族 遗传学 系统发育树 转录组 转录因子 植物 基因表达 拟南芥 突变体
作者
Yunke Zheng,Mengting Liu,Caihong Jia,Jingyi Wang,Biyu Xu,Zhiqiang Jin,Wen Li,Juhua Liu
出处
期刊:Scientific Reports [Nature Portfolio]
卷期号:10 (1) 被引量:7
标识
DOI:10.1038/s41598-020-77870-w
摘要

Abstract MADS-box genes are critical regulators of growth and development in flowering plants. Sequencing of the Musa balbisiana (B) genome has provided a platform for the systematic analysis of the MADS-box gene family in the important banana ancestor Musa balbisiana . Seventy-seven MADS-box genes, including 18 type I and 59 type II, were strictly identified from the banana (Pisang Klutuk Wulung, PKW, 2n = 2x = 22) B genome. These genes have been preferentially placed on the banana B genome. Evolutionary analysis suggested that M. balbisiana MCM1-AGAMOUS-DEFICIENS-SRF (MbMADS) might be organized into the MIKC c , MIKC*, Mα, Mβ, and Mγ groups according to the phylogeny. MIKC c was then further categorized into 10 subfamilies according to conserved motif and gene structure analyses. The well-defined MADS-box genes highlight gene birth and death in banana. MbMADSes originated from the same ancestor as MaMADSes . Transcriptome analysis in cultivated banana (ABB) revealed that MbMADSes were conserved and differentially expressed in several organs, in various fruit developing and ripening stages, and in stress treatments, indicating the participation of these genes in fruit development, ripening, and stress responses. Of note, SEP/AGL2 and AG, as well as other several type II MADS-box genes, including the STMADS11 and TM3/SOC1 subfamilies, indicated elevated expression throughout banana fruit development, ripening, and stress treatments, indicating their new parts in controlling fruit development and ripening. According to the co-expression network analysis, MbMADS75 interacted with bZIP and seven other transcription factors to perform its function. This systematic analysis reveals fruit development, ripening, and stress candidate MbMADSes genes for additional functional studies in plants, improving our understanding of the transcriptional regulation of MbMADSes genes and providing a base for genetic modification of MADS-mediated fruit development, ripening, and stress.

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