A Chromosomal-Scale Genome Assembly of Modern Cultivated Hybrid Sugarcane Provides Insights into Origination and Evolution
Jan 1, 2024·,,,,,,,,,,,,,,,,,,,,,,,,·
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Yixue Bao
Qing Zhang
Jiangfeng Huang
Shengcheng Zhang
Wei Yao
Zehuai Yu
Zuhu Deng
Jiaxin Yu
Weilong Kong
Xikai Yu
Shan Lu
Yibin Wang
Ru Li
Yuhan Song
Chengwu Zou
Yuzhi Xu
Zongling Liu
Fan Yu
Jiaming Song
Youzong Huang
Jisen Zhang
Haifeng Wang
Baoshan Chen
Xingtan Zhang
Muqing Zhang
Abstract
Sugarcane is a vital crop with significant economic and industrial value. However, the cultivated sugarcane’s ultra-complex genome still needs to be resolved due to its high ploidy and extensive recombination between the two subgenomes. Here, we generate a chromosomal-scale, haplotype-resolved genome assembly for a hybrid sugarcane cultivar ZZ1. This assembly contains 10.4,Gb genomic sequences and 68,509 annotated genes with defined alleles in two sub-genomes distributed in 99 original and 15 recombined chromosomes. RNA-seq data analysis shows that sugar accumulation-associated gene families have been primarily expanded from the ZZSO subgenome. However, genes responding to pokkah boeng disease susceptibility have been derived dominantly from the ZZSS subgenome. The region harboring the possible smut resistance genes has expanded significantly. Among them, the expansion of WAK and FLS2 families is proposed to have occurred during the breeding of ZZ1. Our findings provide insights into the complex genome of hybrid sugarcane cultivars and pave the way for future genomics and molecular breeding studies in sugarcane.
Type
Publication
Nature Communications