Hw. Ohm et al., RESISTANCE TO HESSIAN FLY CONDITIONED BY GENES H19 AND PROPOSED GENE H27 OF DURUM-WHEAT LINE PI422297, Crop science, 37(1), 1997, pp. 113-115
The durum wheat (Triticum turgidum Desf.) line PI422297 has been repor
ted to carry two genes that condition resistance to Hessian fly, Mayet
iola destructor (Say) biotype L, gene H19 and an unnamed gene that is
closely associated with gene H16. It is useful to identify the effects
of genes that confer host resistance In parental source lines for whe
at improvement. Our objectives were to determine the effectiveness of
H19 to biotype L at several temperatures, and to determine the effecti
veness of the second gene of PI422297 that is closely associated with
gene Hid. In the present study, gene H19 was transferred from PI422297
to susceptible durum wheat line D6647 to separate H19 from other gene
s and to compare it with the other resistance gene in PI422297. Durum
wheat lines homozygous for H19 were developed by identifying segregati
ng backcross F-2 families and pedigree selection. In the Fs generation
, lines homozygous for H19 were identified from testcrosses involving
durum wheat line IN80164 (H16H16). Nearly all seedlings of the homozyg
ous H19 lines were resistant at 19 degrees C, only 42 to 66% were resi
stant at 23 degrees C, and none were resistant at 26 degrees C. All, 8
9%, and 15% of PI422297 seedlings were resistant at 19, 23, and 26 deg
rees C, respectively. All seedlings of line IN80164 (H16H16) were resi
stant at 19 and 23 degrees C and 84 % were resistant at 26 degrees C.
Thus, the second gene in PI422297 is not H16, and it is tentatively de
signated as H27.