Wheat-Rye T2BS·2BL-2RL Recombinants with Resistance to Hessian Fly ()

Hessian fly, Mayetiola destructor (Say), is a destructive insect pest of common wheat (Triticum aestivum L.) and durum wheat (T turgidum L.) worldwide. Although 32 genes conferring resistance to Hessian fly have been identified, only a few genes are still effective in North America. A highly effective gene is H21, transferred to wheat from Chaupon rye via a whole-arm wheat-rye translocation T2BS.2R#2L. This translocation also carries a gene for field resistance to powdery mildew. To broaden the use of T2BS.2R#2L in wheat improvement, we attempted to reduce the length of the rye segment by recombination with another wheat-rye translocation T2BS.2BL-2R#2L. Recombination data indicated that the H21 locus was linked to the telomere; the powdery mildew locus was closely linked to the translocation breakpoint in T2BS.2BL-2R#2L. Recovered short-segment rye translocation chromosomes confer resistance to Hessian fly; however, no crossover event in the desirable configuration was recovered to produce a short-segment wheat-rye translocation with both H21 and the powdery mildew resistance gene. The T2BS.2BL-2R#2L recombinant chromosome was transferred to adapted winter and spring wheat cultivars.