Ac. Martinezramirez et al., INHERITANCE OF RESISTANCE TO A BACILLUS-THURINGIENSIS TOXIN IN A FIELD POPULATION OF DIAMONDBACK MOTH (PLUTELLA-XYLOSTELLA), Pesticide science, 43(2), 1995, pp. 115-120
Inheritance of resistance to the Bacillus thuringiensis Berl. CryIA(b)
crystal protein was studied in Plutella xylostella L. (diamondback mo
th). A field population 50-fold more resistant to CryIA(b) than a cont
rol susceptible strain was used. Dose-mortality curves of the resistan
t population, the susceptible strain and the F1 from the two reciproca
l crosses were compared. Resistance transmission to the F1 was depende
nt on the sex of the resistant progenitor. Sex ratio of the survivors
to high doses of CryIA(b) in the F1 of the two reciprocal crosses did
not corroborate the preliminary hypothesis of resistance being due to
a recessive sex-linked allele. Since, in a previous work, the loss of
CryIA(b) binding capacity of resistant insects had been demonstrated,
binding to midgut tissue sections from F1 individuals was also analyse
d. The presence of binding in all of the F1 preparations showed that,
at least, a recessive autosomal allele was responsible for the loss of
binding capacity in the resistant population.