Schoenoplectiella juncoides, a noxious sedge weed in Japanese rice paddy, has two ALS genes, and ALS-inhibitor-resistant plants have a mutation in one of the ALS genes. The authors aimed (a) to quantitate the effect of the number of mutant alleles of ALS genes on whole-plant resistance of S. juncoides and (b) to clarify a mode of inheritance of the resistance by investigating resistance levels of the progenies of a hybrid between two S. juncoides plants with Trp574Leu substitution in different ALS. A dose-response analysis on the parental lines and the F1 population suggested that the two ALS genes contribute equally to whole-plant resistant levels. A dose-response study on the F2 population indicated that it could be classified into five groups based on the sensitivities to metsulfuron-methyl. The five groups (in ascending order of resistance levels) were considered to have zero, one, two, three, and four mutant alleles. The stacking effect of mutant alleles on resistance enhancement was more significant when the number of mutant alleles was low than when it was high; in other words, each additional mutant allele stacking increases plant resistance, but the effect saturates as the number of mutant alleles increases. A chi-square test supported that the segregation ratio of the five groups corresponds to 1:4:6:4:1 of Mendelian independence for the two ALS loci.
Keywords: ALS alleles; Inheritance; Schoenoplectiella juncoides; Stacking effect; Target-site resistance.
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