Nematode-resistance loci in upland cotton genomes are associated with structural differences.

ABSTRACT

Reniform and root-knot nematode are two of the most destructive pests of conventional upland cotton, Gossypium hirsutum L., and continue to be a major threat to cotton fiber production in semiarid regions of the Southern United States and Central America. Fortunately, naturally occurring tolerance to these nematodes has been identified in the Pima cotton species (Gossypium barbadense) and several upland cotton varieties (G. hirsutum), which has led to a robust breeding program that has successfully introgressed and stacked these independent resistant traits into several upland cotton lineages with superior agronomic traits, e.g. BAR 32-30 and BARBREN-713. This work identifies the genomic variations of these nematode-tolerant accessions by comparing their respective genomes to the susceptible, high-quality fiber-producing parental line of this lineage Phytogen 355 (PSC355). We discover several large genomic differences within marker regions that harbor putative resistance genes as well as expression mechanisms shared by the two resistant lines, with respect to the susceptible PSC355 parental line. This work emphasizes the utility of whole-genome comparisons as a means of elucidating large and small nuclear differences by lineage and phenotype.