A contiguous de novo genome assembly of sugar beet EL10 (Beta vulgaris L.)

A - Papers appearing in refereed journals

Mitchell McGrath, J., Funk, A., Galewski, P., Ou, S., Townsend, B. J., Davenport, K., Daligault, H., Johnson, S., Lee, J., Hastie, A., Darracq, A., Willems. G., Barnes, S., Liachko, I., Sullivan, S., Koren, S., Phillippy, A., Wang, J., Liu, T., Pulman, J., Childs, K., Shu, S., Yocum, A., Mutasa-Göttgens, E. S., Stevanato, P., Taguchi, K., Naegele, R. and Dorn, K. M. 2022. A contiguous de novo genome assembly of sugar beet EL10 (Beta vulgaris L.). DNA Research. 30 (1), p. dsac033. https://doi.org/10.1093/dnares/dsac033

AuthorsMitchell McGrath, J., Funk, A., Galewski, P., Ou, S., Townsend, B. J., Davenport, K., Daligault, H., Johnson, S., Lee, J., Hastie, A., Darracq, A., Willems. G., Barnes, S., Liachko, I., Sullivan, S., Koren, S., Phillippy, A., Wang, J., Liu, T., Pulman, J., Childs, K., Shu, S., Yocum, A., Mutasa-Göttgens, E. S., Stevanato, P., Taguchi, K., Naegele, R. and Dorn, K. M.
Abstract

A contiguous assembly of the inbred ‘EL10’ sugar beet (Beta vulgaris ssp. vulgaris) genome was constructed using PacBio long-read sequencing, BioNano optical mapping, Hi-C scaffolding, and Illumina short-read error correction. The EL10.1 assembly was 540 Mb, of which 96.2% was contained in nine chromosome-sized pseudomolecules with lengths from 52 to 65 Mb, and 31 contigs with a median size of 282 kb that remained unassembled. Gene annotation incorporating RNA-seq data and curated sequences via the MAKER annotation pipeline generated 24,255 gene models. Results indicated that the EL10.1 genome assembly is a contiguous genome assembly highly congruent with the published sugar beet reference genome. Gross duplicate gene analyses of EL10.1 revealed little large-scale intra-genome duplication. Reduced gene copy number for well-annotated gene families relative to other core eudicots was observed, especially for transcription factors. Variation in genome size in B. vulgaris was investigated by flow cytometry among 50 individuals producing estimates from 633 to 875 Mb/1C. Read-depth mapping with short-read whole-genome sequences from other sugar beet germplasm suggested that relatively few regions of the sugar beet genome appeared associated with high-copy number variation.

KeywordsBeta vulgaris; Beet; Genome assembly; Genome annotation; Comparative genomics
Year of Publication2022
JournalDNA Research
Journal citation30 (1), p. dsac033
Digital Object Identifier (DOI)https://doi.org/10.1093/dnares/dsac033
Open accessPublished as ‘gold’ (paid) open access
FunderBiotechnology and Biological Sciences Research Council
Publisher's version
Output statusPublished
Publication dates
Online08 Oct 2022
Publication process dates
Accepted12 Sep 2022

Permalink - https://repository.rothamsted.ac.uk/item/98v80/a-contiguous-de-novo-genome-assembly-of-sugar-beet-el10-beta-vulgaris-l

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