Chromosome-scale genome assembly and de novo annotation of Alopecurus aequalis.

Authors :: Wright J
Baker K
Barker T
Catchpole L
Durrant A
Fraser F
Gharbi K
Harrison C
Henderson S
Irish N
Kaithakottil G
Leitch IJ
Li J
Lucchini S
Neve P
Powell R
Rees H
Swarbreck D
Watkins C
Wood J
McTaggart S
Hall A
MacGregor D
Source :: Scientific data [Sci Data] 2024 Dec 18; Vol. 11 (1), pp. 1368. Date of Electronic Publication: 2024 Dec 18.
Publication Year :: 2024
Abstract: Alopecurus aequalis is a winter annual or short-lived perennial bunchgrass which has in recent years emerged as the dominant agricultural weed of barley and wheat in certain regions of China and Japan, causing significant yield losses. Its robust tillering capacity and high fecundity, combined with the development of both target and non-target-site resistance to herbicides means it is a formidable challenge to food security. Here we report on a chromosome-scale assembly of A. aequalis with a genome size of 2.83 Gb. The genome contained 33,758 high-confidence protein-coding genes with functional annotation. Comparative genomics revealed that the genome structure of A. aequalis is more similar to Hordeum vulgare rather than the more closely related Alopecurus myosuroides.<br />Competing Interests: Competing interests: The authors declare no competing interests.<br /> (© 2024. The Author(s).)