Genome Assembly of Alfalfa Cultivar Zhongmu-4 and Identification of SNPs Associated with Agronomic Traits
- Author:
Long RUICAI
1
;
Zhang FAN
;
Zhang ZHIWU
;
Li MINGNA
;
Chen LIN
;
Wang XUE
;
Liu WENWEN
;
Zhang TIEJUN
;
Yu LONG-XI
;
He FEI
;
Jiang XUEQIAN
;
Yang XIJIANG
;
Yang CHANGFU
;
Wang ZHEN
;
Kang JUNMEI
;
Yang QINGCHUAN
Author Information
1. Institute of Animal Sciences,Chinese Academy of Agricultural Sciences,Beijing 100193,China
- Keywords:
Alfalfa;
Autotetraploid;
Genome assembly;
Resequencing;
Genome-wide association study
- From:
Genomics, Proteomics & Bioinformatics
2022;20(1):14-28
- CountryChina
- Language:Chinese
-
Abstract:
Alfalfa(Medicago sativa L.)is the most important legume forage crop worldwide with high nutritional value and yield.For a long time,the breeding of alfalfa was hampered by lacking reliable information on the autotetraploid genome and molecular markers linked to important agro-nomic traits.We herein reported the de novo assembly of the allele-aware chromosome-level genome of Zhongmu-4,a cultivar widely cultivated in China,and a comprehensive database of genomic variations based on resequencing of 220 germplasms.Approximate 2.74 Gb contigs(N50 of 2.06 Mb),accounting for 88.39%of the estimated genome,were assembled,and 2.56 Gb contigs were anchored to 32 pseudo-chromosomes.A total of 34,922 allelic genes were identified from the allele-aware genome.We observed the expansion of gene families,especially those related to the nitrogen metabolism,and the increase of repetitive elements including transposable elements,which probably resulted in the increase of Zhongmu-4 genome compared with Medicago truncatula.Population structure analysis revealed that the accessions from Asia and South America had rela-tively lower genetic diversity than those from Europe,suggesting that geography may influence alfalfa genetic divergence during local adaption.Genome-wide association studies identified 101 sin-gle nucleotide polymorphisms(SNPs)associated with 27 agronomic traits.Two candidate genes were predicted to be correlated with fall dormancy and salt response.We believe that the allele-aware chromosome-level genome sequence of Zhongmu-4 combined with the resequencing data of the diverse alfalfa germplasms will facilitate genetic research and genomics-assisted breeding in variety improvement of alfalfa.
