A chromosome-level genome assembly and annotation of the maize elite breeding line Dan340

Yikun Zhao; Yuancong Wang; De Ma; Guang Feng; Yongxue Huo; Zhihao Liu; Ling Zhou; Yunlong Zhang; Liwen Xu; Liang Wang; Han Zhao; Jiuran Zhao; Fengge Wang

doi:10.46471/gigabyte.63

A chromosome-level genome assembly and annotation of the maize elite breeding line Dan340

GigaByte. 2022 Jun 14:2022:gigabyte63. doi: 10.46471/gigabyte.63. eCollection 2022.

Authors

Yikun Zhao¹, Yuancong Wang², De Ma³, Guang Feng⁴, Yongxue Huo¹, Zhihao Liu¹, Ling Zhou², Yunlong Zhang¹, Liwen Xu¹, Liang Wang⁴, Han Zhao², Jiuran Zhao¹, Fengge Wang¹

Affiliations

¹ Maize Research Center, Beijing Academy of Agricultural and Forest Sciences (BAAFS)/Beijing Key Laboratory of Maize DNA Fingerprinting and Molecular Breeding, Beijing 100097, China.
² Provincial Key Laboratory of Agrobiology, Institute of Crop Germplasm and Biotechnology, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, China.
³ Novogene Bioinformatics Institute, Beijing 100015, China.
⁴ Dandong Academy of Agricultural Sciences, Liaoning 118199, China.

Abstract

Background: Maize is an important model organism for genetics and genomics research. Though reference genomes of maize are available, some genomes of important genetic germplasms for maize breeding are still lacking, for instance, the cultivar Dan340, which is a backbone inbred line of the LvDa Red Cob Group with several desirable characteristics. In this study, we constructed a high-quality chromosome-level reference genome for Dan340 by using long HiFi reads, short reads, and Hi-C. The final assembly of the Dan340 genome was 2348.72 Mb, which was anchored to 10 chromosomes. Repeat sequences accounted for 73.40% of the genome and 39,733 protein-coding genes were annotated. Comparative genomic analysis between Dan340 and other maize lines identified that 1806 genes from 359 gene families were specific to Dan340.

Conclusions: Our genome assembly and annotation provide a valuable resource for improving maize breeding and further understanding the intraspecific genome diversity in maize.

Grants and funding

This research was supported by grants from the special project for the construction of scientific and technological innovation capacity of Beijing Academy of Agriculture and Forestry Sciences (NO. KJCX20200305).