High-quality genome assemblies for two Australimusa bananas (Musa spp.) and insights into regulatory mechanisms of superior fiber properties
文献类型: 外文期刊
第一作者: Zhou, Run
作者: Zhou, Run;Zhan, Ni;He, Weidi;Deng, Guiming;Dou, Tongxin;Hu, Chunhua;Bi, Fangcheng;Gao, Huijun;Dong, Tao;Liu, Siwen;Li, Chunyu;Yang, Qiaosong;Yi, Ganjun;Sheng, Ou;Zhou, Run;Wang, Shuo;Zhu, Xi-Tong;Xie, Wen-Zhao;Zheng, Yu-Yu;Wang, Lingqiang;Song, Jia-Ming;Chen, Ling-Ling;Dang, Jiangbo;Guo, Qigao
作者机构:
关键词: Australimusabananasx; T genome; Musaceae evolution; structural variations; fiber
期刊名称:PLANT COMMUNICATIONS ( 影响因子:10.5; 五年影响因子:10.5 )
ISSN: 2590-3462
年卷期: 2024 年 5 卷 1 期
页码:
收录情况: SCI
摘要: Bananas (Musa spp.) are monocotyledonous plants with high genetic diversity in the Musaceae family that are cultivated mainly in tropical and subtropical countries. The fruits are a popular food, and the plants themselves have diverse uses. Four genetic groups (genomes) are thought to have contributed to current banana cultivars: Musa acuminata (A genome), Musa balbisiana (B genome), Musa schizocarpa (S genome), and species of the Australimusa section (T genome). However, the T genome has not been effectively explored. Here, we present the high-quality TT genomes of two representative accessions, Abaca (Musa textilis), with high-quality natural fiber, and Utafun (Musa troglodytarum, Fe'i group), with abundant beta-carotene. Both the Abaca and Utafun assemblies comprise 10 pseudochromosomes, and their total genome sizes are 613 Mb and 619 Mb, respectively. Comparative genome analysis revealed that the larger size of the T genome is likely attributable to rapid expansion and slow removal of transposons. Compared with those of Musa AA or BB accessions or sisal (Agava sisalana), Abaca fibers exhibit superior mechanical properties, mainly because of their thicker cell walls with a higher content of cellulose, lignin, and hemicellulose. Expression of MusaCesA cellulose synthesis genes peaks earlier in Abaca than in AA or BB accessions during plant development, potentially leading to earlier cellulose accumulation during secondary cell wall formation. The Abaca-specific expressed gene MusaMYB26, which is directly regulated by MusaMYB61, may be an important regulator that promotes precocious expression of secondary cell wall MusaCesAs. Furthermore, MusaWRKY2 and MusaNAC68, which appear to be involved in regulating expression of MusaLAC and MusaCAD, may at least partially explain the high accumulation of lignin in Abaca. This work contributes to a better understanding of banana domestication and the diverse genetic resources in the Musaceae family, thus providing resources for Musa genetic improvement.
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