%0 Journal Article
%T Genome resources for three modern cotton lines guide future breeding efforts.
%A Sreedasyam A
%A Lovell JT
%A Mamidi S
%A Khanal S
%A Jenkins JW
%A Plott C
%A Bryan KB
%A Li Z
%A Shu S
%A Carlson J
%A Goodstein D
%A De Santiago L
%A Kirkbride RC
%A Calleja S
%A Campbell T
%A Koebernick JC
%A Dever JK
%A Scheffler JA
%A Pauli D
%A Jenkins JN
%A McCarty JC
%A Williams M
%A Boston L
%A Webber J
%A Udall JA
%A Chen ZJ
%A Bourland F
%A Stiller WN
%A Saski CA
%A Grimwood J
%A Chee PW
%A Jones DC
%A Schmutz J
%J Nat Plants
%V 10
%N 6
%D 2024 06 30
%M 38816498
%F 17.352
%R 10.1038/s41477-024-01713-z
%X Cotton (Gossypium hirsutum L.) is the key renewable fibre crop worldwide, yet its yield and fibre quality show high variability due to genotype-specific traits and complex interactions among cultivars, management practices and environmental factors. Modern breeding practices may limit future yield gains due to a narrow founding gene pool. Precision breeding and biotechnological approaches offer potential solutions, contingent on accurate cultivar-specific data. Here we address this need by generating high-quality reference genomes for three modern cotton cultivars ('UGA230', 'UA48' and 'CSX8308') and updating the 'TM-1' cotton genetic standard reference. Despite hypothesized genetic uniformity, considerable sequence and structural variation was observed among the four genomes, which overlap with ancient and ongoing genomic introgressions from 'Pima' cotton, gene regulatory mechanisms and phenotypic trait divergence. Differentially expressed genes across fibre development correlate with fibre production, potentially contributing to the distinctive fibre quality traits observed in modern cotton cultivars. These genomes and comparative analyses provide a valuable foundation for future genetic endeavours to enhance global cotton yield and sustainability.