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Genome sequencing of the Australian wild diploid species Gossypium australe highlights disease resistance and delayed gland morphogenesis

The diploid wild cotton species Gossypium australe possesses excellent traits including resistance to disease and delayed gland morphogenesis, and has been successfully used for distant breeding programmes to incorporate disease resistance traits into domesticated cotton. Here, we sequenced the G. a...

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Detalles Bibliográficos
Autores principales: Cai, Yingfan, Cai, Xiaoyan, Wang, Qinglian, Wang, Ping, Zhang, Yu, Cai, Chaowei, Xu, Yanchao, Wang, Kunbo, Zhou, Zhongli, Wang, Chenxiao, Geng, Shuaipeng, Li, Bo, Dong, Qi, Hou, Yuqing, Wang, Heng, Ai, Peng, Liu, Zhen, Yi, Feifei, Sun, Minshan, An, Guoyong, Cheng, Jieru, Zhang, Yuanyuan, Shi, Qian, Xie, Yuanhui, Shi, Xinying, Chang, Ying, Huang, Feifei, Chen, Yun, Hong, Shimiao, Mi, Lingyu, Sun, Quan, Zhang, Lin, Zhou, Baoliang, Peng, Renhai, Zhang, Xiao, Liu, Fang
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7004908/
https://www.ncbi.nlm.nih.gov/pubmed/31479566
http://dx.doi.org/10.1111/pbi.13249
Descripción
Sumario:The diploid wild cotton species Gossypium australe possesses excellent traits including resistance to disease and delayed gland morphogenesis, and has been successfully used for distant breeding programmes to incorporate disease resistance traits into domesticated cotton. Here, we sequenced the G. australe genome by integrating PacBio, Illumina short read, BioNano (DLS) and Hi‐C technologies, and acquired a high‐quality reference genome with a contig N50 of 1.83 Mb and a scaffold N50 of 143.60 Mb. We found that 73.5% of the G. australe genome is composed of various repeat sequences, differing from those of G. arboreum (85.39%), G. hirsutum (69.86%) and G. barbadense (69.83%). The G. australe genome showed closer collinear relationships with the genome of G. arboreum than G. raimondii and has undergone less extensive genome reorganization than the G. arboreum genome. Selection signature and transcriptomics analyses implicated multiple genes in disease resistance responses, including GauCCD7 and GauCBP1, and experiments revealed induction of both genes by Verticillium dahliae and by the plant hormones strigolactone (GR24), salicylic acid (SA) and methyl jasmonate (MeJA). Experiments using a Verticillium‐resistant domesticated G. barbadense cultivar confirmed that knockdown of the homologues of these genes caused a significant reduction in resistance against Verticillium dahliae. Moreover, knockdown of a newly identified gland‐associated gene GauGRAS1 caused a glandless phenotype in partial tissues using G. australe. The G. australe genome represents a valuable resource for cotton research and distant relative breeding as well as for understanding the evolutionary history of crop genomes.