1. Differential subgenome expression underlies biomass accumulation in allotetraploid Pennisetum giganteum.
- Author
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Xing, Longsheng, Wang, Meijia, He, Qiang, Zhang, Hongyu, Liang, Hanfei, Zhou, Qinghong, Liu, Yu, Liu, Ze, Wang, Yu, Du, Cailian, Xiao, Yao, Liu, Jianan, Li, Wei, Liu, Guixia, and Du, Huilong
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GENE expression ,BIOMASS ,PENNISETUM ,GENOMICS ,CARBON 4 photosynthesis ,COMPARATIVE genomics - Abstract
Background: Pennisetum giganteum (AABB, 2n = 4x = 28) is a C4 plant in the genus Pennisetum with origin in Africa but currently also grown in Asia and America. It is a crucial forage and potential energy grass with significant advantages in yield, stress resistance, and environmental adaptation. However, the mechanisms underlying these advantageous traits remain largely unexplored. Here, we present a high-quality genome assembly of the allotetraploid P. giganteum aiming at providing insights into biomass accumulation. Results: Our assembly has a genome size 2.03 Gb and contig N50 of 88.47 Mb that was further divided into A and B subgenomes. Genome evolution analysis revealed the evolutionary relationships across the Panicoideae subfamily lineages and identified numerous genome rearrangements that had occurred in P. giganteum. Comparative genomic analysis showed functional differentiation between the subgenomes. Transcriptome analysis found no subgenome dominance at the overall gene expression level; however, differentially expressed homoeologous genes and homoeolog-specific expressed genes between the two subgenomes were identified, suggesting that complementary effects between the A and B subgenomes contributed to biomass accumulation of P. giganteum. Besides, C4 photosynthesis-related genes were significantly expanded in P. giganteum and their sequences and expression patterns were highly conserved between the two subgenomes, implying that both subgenomes contributed greatly and almost equally to the highly efficient C4 photosynthesis in P. giganteum. We also identified key candidate genes in the C4 photosynthesis pathway that showed sustained high expression across all developmental stages of P. giganteum. Conclusions: Our study provides important genomic resources for elucidating the genetic basis of advantageous traits in polyploid species, and facilitates further functional genomics research and genetic improvement of P. giganteum. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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