Sequence Characterization of Extra-Chromosomal Circular DNA Content in Multiple Blackgrass (Alopecurus myosuroides) Populations.

A - Papers appearing in refereed journals

Fu, W., Macgregor, D., Comont, D. and Saski, C. A. 2023. Sequence Characterization of Extra-Chromosomal Circular DNA Content in Multiple Blackgrass (Alopecurus myosuroides) Populations. Genes. 14 (10), p. 1905. https://doi.org/10.3390/genes14101905

AuthorsFu, W., Macgregor, D., Comont, D. and Saski, C. A.
Abstract

Alopecurus myosuroides (blackgrass) is a problematic weed of Western European winter wheat, and its success is largely due to widespread multiple-herbicide resistance. Previous analysis of F2 seed families derived from two distinct blackgrass populations exhibiting equivalent non-target site resistance (NTSR) phenotypes shows resistance is polygenic and evolves from standing genetic variation. Using a CIDER-seq pipeline, we show that herbicide-resistant (HR) and herbicide-sensitive (HS) F3 plants from these F2 seed families as well as the parent populations they were derived from carry extra-chromosomal circular DNA (eccDNA). We identify the similarities and differences in the coding structures within and between resistant and sensitive populations. Although the numbers and size of detected eccDNAs varied between the populations, comparisons between the HR and HS blackgrass populations identified shared and unique coding content, predicted genes, and functional protein domains. These include genes related to herbicide detoxification such as Cytochrome P450s, ATP-binding cassette transporters, and glutathione transferases including AmGSTF1. eccDNA content was mapped to the A. myosuroides reference genome, revealing genomic regions at the distal end of chromosome 5 and the near center of chromosomes 1 and 7 as regions with a high number of mapped eccDNA gene density. Mapping to 15 known herbicide-resistant QTL regions showed that the eccDNA coding sequences matched twelve, with four QTL matching HS coding sequences; only one region contained HR coding sequences. These findings establish that, like other pernicious weeds, blackgrass has eccDNAs that contain homologs of chromosomal genes, and these may contribute genetic heterogeneity and evolutionary innovation to rapidly adapt to abiotic stresses, including herbicide treatment.

KeywordsEccDNA; Blackgrass; Herbicide resistance; Rapid adaptation
Year of Publication2023
JournalGenes
Journal citation14 (10), p. 1905
Digital Object Identifier (DOI)https://doi.org/10.3390/genes14101905
Web address (URL)https://www.mdpi.com/2073-4425/14/10/1905
Open accessPublished as ‘gold’ (paid) open access
FunderBiotechnology and Biological Sciences Research Council
Bayer Crop Science
Funder project or codeGrowing Health [ISP]
Growing Health (WP1) - bio-inspired solutions for healthier agroecosystems: Understanding biointeractions
Growing Health (WP3) - bio-inspired solutions for healthier agroecosystems: Discovery landscapes
Publisher's version
Supplemental file
Supplemental file
Output statusPublished
Publication dates
Online04 Oct 2023
Publication process dates
Accepted28 Sep 2023
PublisherMDPI
ISSN2073-4425

Permalink - https://repository.rothamsted.ac.uk/item/98y35/sequence-characterization-of-extra-chromosomal-circular-dna-content-in-multiple-blackgrass-alopecurus-myosuroides-populations

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