Chromosome-Scale Genome Assembly Provides Insights into Speciation of Allotetraploid and Massive Biomass Accumulation of Elephant Grass (Pennisetum purpureumSchum.)

生物 基因组 紫狼尾草 狼尾草 基因组进化 基因 植物 遗传学 干物质
作者
Shengkui Zhang,Zhiqiang Xia,Wenqing Zhang,Can Li,Xiaohan Wang,Xianqin Lu,Xian‐Yan Zhao,Haizhen Ma,Xincheng Zhou,Weixiong Zhang,Tingting Zhu,Pandao Liu,Guodao Liu,Hubiao Yang,Jacobo Arango,Michael Peters,Wenquan Wang,Tao Xia
出处
期刊: [Cold Spring Harbor Laboratory]
被引量:5
标识
DOI:10.1101/2020.02.28.970749
摘要

Abstract Elephant grass ( Pennisetum purpureum Schum., A’A’BB, 2n=4x=28), which is characterized as robust growth and high biomass, and widely distributed in tropical and subtropical areas globally, is an important forage, biofuels and industrial plant. We sequenced its allopolyploid genome and assembled 2.07 Gb (96.88%) into A’ and B sub-genomes of 14 chromosomes with scaffold N50 of 8.47 Mb. A total of 38,453 and 36,981 genes were annotated in A’ and B sub-genomes, respectively. A phylogenetic analysis with species in Pennisetum identified that the speciation of the allotetraploid occurred approximately 15 MYA after the divergence between S.italica and P. glaucum . Double whole-genome duplication (WGD) and polyploidization events resulted in large scale gene expansion, especially in the key steps of growth and biomass accumulation. Integrated transcriptome profiling revealed the functional differentiation between sub-genomes; A’ sub-genome contributed more to plant growth, development and photosynthesis whereas B sub-genome primarily offered functions of effective transportation and resistance to stimulation. The results uncovered enhanced cellulose and lignin biosynthesis pathways with 645 and 666 genes expanded in A’ and B sub-genomes, respectively. Our findings provided deep insights into the speciation and genetic basis of fast growth and high biomass accumulation in the species. The genetic, genomic, and transcriptomic resources generated in this study will pave the way for further domestication and selection of these economical species and making them more adaptive to industrial utilization.

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