Transgressive segregation, heritability, and number of genes controlling durable resistance to stripe rust in one Chinese and two Italian wheat cultivars
Zj. Zhang et al., Transgressive segregation, heritability, and number of genes controlling durable resistance to stripe rust in one Chinese and two Italian wheat cultivars, PHYTOPATHOL, 91(7), 2001, pp. 680-686
Wheat (Triticum aestivum) cvs. Libellula (LB), San Pastore (SP), and Xian N
ong 4 (XN4) possess durable resistance to stripe rust, caused by Puccinia s
triiformis f. sp. tritici, and cv. Ming Xian 169 (MX169) is highly suscepti
ble to the rust. Inheritance of stripe rust resistance was studied by cross
ing the four cultivars and evaluating the resistance of parental, F-1, F-2,
backcross, and F-3 plants in the fields. Transgressive segregation for res
istance was observed in the resistant by resistant crosses of LB x XN4 and
XN4 x SP, but not in cross LB x SP. These results indicate that (i) the res
istance genes in XN4 are different from those in LB and SP, and (ii) LB and
SP share common resistance genes. The number of genes segregating for the
resistance was estimated by quantitative methods from the data of F-2, back
cross, and F-3 populations, LB and XN4 appear to have two to three resistan
ce genes, and SP appears to have two to four resistance genes when crossed
with MX169. The resistance gene number in resistant by resistant cross LB x
XN4 was four to five, approximately equal to the sum of the genes in LB an
d XN4. Similarly, the resistance gene number in cross XN4 x SP was approxim
ately equal to the sum of the genes in XN4 and SP. Broad-sense heritability
was high in ail crosses except LB x SP. Compared with the three MX169-invo
lved crosses, narrow-sense heritability was higher in LB x MX169 and SP x M
X169 crosses than in the XN4 x MX169 cross. The LB x XN4 and XN4 x SP cross
es showed moderate narrow-sense heritability.