Hostname: page-component-586b7cd67f-2plfb Total loading time: 0 Render date: 2024-11-23T00:39:48.312Z Has data issue: false hasContentIssue false
  • English
  • Français

Chromosome translocations in Glossina austeni

Published online by Cambridge University Press:  14 April 2009

C. F. Curtis ,
D. I. Southern ,
P. E. Pell  and
T. A. Craig-Cameron
C. F. Curtis
Affiliation:
Tsetse Research Laboratory, Langford, Bristol
D. I. Southern
Affiliation:
Zoology Department, University of Manchester
P. E. Pell
Affiliation:
Zoology Department, University of Manchester
T. A. Craig-Cameron
Affiliation:
Zoology Department, University of Manchester
Rights & Permissions [Opens in a new window]

Summary

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

An autosomal translocation in the tsetse fly Glossina austeni was studied genetically, cytogenetically and for its effects on viability. Flies homo-zygous for the structural change could be identified by outcrossing to wild-type and demonstrating semi-sterility in all the progeny.

A cytogenetical analysis of male meioses in samples of pupae which were sibs of the semi-sterile progeny showed them to be structurally heterozygous for the translocation. Matings of the translocation heterozygotes and homozygotes gave the expected progeny ratios, with the exception of a deficit of females classified as translocation homozygotes. This was due to their sterility or inviability. Those female homozygotes which did breed showed a subnormal lifetime pupal production. These deleterious recessive effects were probably due to the translocation itself although the influence of linked loci could not be ruled out. These effects would prevent the mass rearing of this particular translocation for a tesetse control project.

Two other stocks which showed semi-sterility were found to carry autosomal translocations and two which currently showed holandric inheritance have Y-autosome translocations. One stock with holandric inheritance of extreme sterility carries a double translocation involving two autosomes and the Y chromosome.

Type
Research Article
Information
Genetics Research , Volume 20 , Issue 1 , August 1972 , pp. 101 - 113
Copyright
Copyright © Cambridge University Press 1972

References

REFERENCES

Carter, T. C., Lyon, M. F. & Phillips, R. J. S. (1955). Gene tagged chromosome translocations in eleven stocks of mice. Journal of Genetics 53, 154166.CrossRefGoogle Scholar
Curtis, C. F. (1968 a). Possible use of translocations to fix desirable genes in insect pest populations. Nature 218, 368369.CrossRefGoogle ScholarPubMed
Curtis, C. F. (1968 b). A possible genetic method for the control of insect pests with special reference to tsetse flies (Glossina spp.). Bulletin of Entomological Research 57, 509523.CrossRefGoogle ScholarPubMed
Curtis, C. F. (1969). The production of partially sterile mutants in Glossina austeni. Genetical Research 13, 289301.CrossRefGoogle ScholarPubMed
Curtis, C. F. (1971). Experiments on breeding translocation homozygotes in tsetse flies. In Sterility Principle for Insect Control or Eradication, pp. 425435. Vienna: I.A.E.A.Google Scholar
Curtis, C. F. & Hill, W. G. (1968). Theoretical and practical studies on a possible genetic method for tsetse fly control. In Isotopes and Radiation in Entomology, pp. 233247. Vienna: I.A.E.A.Google Scholar
Curtis, C. F. & Hill, W. G. (1971). Theoretical studies on the use of translocations for the control of tsetse flies and other disease vectors. Theoretical Population Biology 2, 7190.CrossRefGoogle ScholarPubMed
Curtis, C. F. & Robinson, A. A. (1971). Computer simulation of double translocations for pest control. Genetics 69, 97113.CrossRefGoogle ScholarPubMed
Falconer, D. S. (1960). Introduction to Quantitative Genetics. Edinburgh: Oliver and Boyd.Google Scholar
Gopinath, D. M. & Burnham, C. R. (1956). A cytogenetic study in maize of deficiency-duplication produced by crossing interchanges involving the same chromosome. Genetics 47, 382395.CrossRefGoogle Scholar
Haring, A. & Fraser, D. M. (1968). Spermatogenesis in Glossina austeni. Transactions of the Royal Society for tropical Medicine and Hygiene 62, 125.CrossRefGoogle Scholar
Itard, J. (1970). L'appareil reproducteur mâle des glossines, les étapes de sa formation chez la pupe, la spermatogenèse. Revue d'Élevage et de Médecine vétérinaire des Pays tropicaux 23, 5781.Google Scholar
Itard, J. (1971). Chromosomes de Glossina fusca congolensis. Comptes rendus hebdomaires des séances de l' Académie des Sciences, Paris 272, 25612564.Google Scholar
Jordan, A. M., Nash, T. A. M. & Boyle, J. A. (1967). The rearing of Glossina austeni Newst. with lop-eared rabbits as hosts. I. Efficacy of the method. Annala of tropical Medicine and Parasitology 61, 182188.CrossRefGoogle ScholarPubMed
Kernaghan, R. J. & Nash, T. A. M. (1964). A technique for the dispatch of pupae of Glossina and other insects by air from the tropics. Annals of Tropical Medicine and Parasitology 58, 355358.CrossRefGoogle ScholarPubMed
LaChance, L. E., Degrugillier, M. & Leverich, A. P. (1970). Cytogenetics of inherited partial sterility in three generations of the Large Milkweed Bug as related to holokinetic chromosomes. Chromoaoma (Berlin) 29, 2041.Google Scholar
Laven, H., Jost, E., Meyer, H. & Selinger, R. (1971). Semi-sterility for insect control. In Sterility Principle for Insect Control or Eradication, pp. 415424. Vienna: I.A.E.A.Google Scholar
Lea, D. E. & Catcheside, D. G. (1945). The relation between recessive lethals, dominant lethals and chromosome aberrations in Drosophila. Journal of Genetics 47, 1024.Google Scholar
Muller, H. J. & Settles, F. (1927). The non-functioning of genes in spermatozoa. Zeitschrift für induktive Abstammungs und Vererbungs Lehre 43, 285301.Google Scholar
Nash, T. A. M., Jordon, A. M. & Boyle, J. A. (1967). A method of maintaining Glossina austeni Newst. singly and a study of the feeding habits of the female in relation to larvi position and pupal weight. Bulletin of Entomological Research 57, 327336.CrossRefGoogle Scholar
Robinson, A. S. (1971). A study of chromosome translocations in Drosophila. Ph.D. Thesis, University of Bristol.Google Scholar
Saunders, D. S. (1971). Reproductive abnormalities in the tsetse fly Glossina morsitans orientalis Vanderplank, caused by a maternally acting toxicant in rabbit food. Bulletin of Entomological Research 60, 431438.CrossRefGoogle Scholar
Serebrovskii, A. S. (1940). On the possibility of a new method for the control of insect pests. Zoologicheskii Zhurnal 19, 618630.Google Scholar
Snell, G. D. (1946). An analysis of translocations in the mouse. Genetics 31, 157180.CrossRefGoogle ScholarPubMed
Southern, D. I., Craig-Cameron, T. A. & Pell, P. A. (1972 a). The meiotic sequence in G. morsitans morsitans. Transactions of the Royal Society of Tropical Medicine and Hygiene 66, 145149.CrossRefGoogle Scholar
Southern, D. I., Craig-Cameron, T. A. & Pell, P. A. (1972 b). A critical chromosome analysis of Glossina austeni. Bulletin of Entomological Research.CrossRefGoogle Scholar