Hostname: page-component-848d4c4894-pjpqr Total loading time: 0 Render date: 2024-06-17T05:22:29.584Z Has data issue: false hasContentIssue false
  • English
  • Français

Genetical investigations on a strain of house-flies resistant to organophosphates and carbamates

Published online by Cambridge University Press:  10 July 2009

J. D Bell
J. D Bell
Affiliation:
London School of Hygiene & Tropical Medicine*
Get access Rights & Permissions [Opens in a new window]

Extract

The inheritance of carbamate resistence in the Fc strain of Musca domestica L. was investigated by the method described by Nguy & Busvine (1960) and more than one gene, most probably two genes, were found to be responsiple for carbamate resistence. A further experiment showed organophosphate and carbamate inheritance to be linked. As it was already known that the genes for organophosphate resistence were on the third and fifth chromosome, the third and fifth chromosomal resistence factors were separated by use of marker genes. Both factors gave low to moderate levels of resistence to organophosphates and carbamates. The third chromosomal factor appeared to be associated with increased oxidative activity and the fifth chromosomal factor with a modified aliesterase mechanism. The effect of the two genes was cumulative.

Type
Research Paper
Information
Bulletin of Entomological Research , Volume 58 , Issue 2 , November 1968 , pp. 191 - 200
Copyright
Copyright © Cambridge University Press 1968

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Bell, J. D. (1968). Patterns of cross resistance to organophosphates and carbamates in Musca domestica.—Bull. ent. Res. 58 pp. 137151.CrossRefGoogle Scholar
Busvine, J. R. (1962). A laboratory technique for measuring the susceptibility of houseflies and blowflies to insecticides.—Lab. Pract. 11 pp. 464468.Google Scholar
Franco, M. G. & Oppenoorth, F. J. (1962). Genetical experiments on the gene for low aliesterase activity and organophosphates resistance in Musca domestica L.—Entomologia exp. appl. 5 pp. 119123.CrossRefGoogle Scholar
Georghiou, G. P. & Garber, M. J. (1965). Studies on the inheritance of carbamate-resistance in the housefly (Musca domestica L.).—Bull. Wld Hlth Org. 32. pp. 181196.Google ScholarPubMed
Hart, R. J. (1962). Houseflies resistant to organic phosphate in Australia.—Nature, Lond. 195 no. 4846 pp. 11231124.CrossRefGoogle ScholarPubMed
Hart, R. J. (1963). The inheritance of diazinon resistance in an Australian strain of Musca domestica L.—Bull. ent. Res. 54 pp. 461465.CrossRefGoogle Scholar
Nguy, V. D. & Busvine, J. R. (1960). Studies of the genetics of resistance to parathion and malathion in the housefly.—Bull. Wld Hlth Org. 22 pp. 531542.Google ScholarPubMed
Oppenoorth, F. J. (1959). Genetics of resistance to organophosphorous insecticides and low ali-esterase activity in the housefly.—Entomologia exp. appl. 2 pp. 304319.CrossRefGoogle Scholar
Oppenoorth, F. J. (1965). Biochemical genetics of insecticide resistance.—A. Rev. Ent. 10 pp. 185206.CrossRefGoogle Scholar
Oppenoorth, F. J. & Van Asperen, K. (1960). Allelic genes in the housefly producing modified enzymes that cause organophosphate resistance.—Science, 132 no. 3422 pp. 298299.CrossRefGoogle ScholarPubMed
Oppenoorth, F. J. & Asperen, K. (1961). The detoxication enzymes causing organophoshate resistance in the housefly; properties, inhibition, and the action of inhibitors as synergists.—Entomologia exp. appl. 4 pp. 311333.CrossRefGoogle Scholar