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The use of red cell antigens for timing break-down of erythrocytes during digestion in Ornithodoros savignyi (Audouin, 1827)

Published online by Cambridge University Press:  06 April 2009

D. R. Osterhoff  and
R. Gothe
D. R. Osterhoff
Affiliation:
Department of Zootechnology, Faculty of Veterinary Science, Onderstepoort, S. Africa
R. Gothe*
Affiliation:
Department of Zootechnology, Faculty of Veterinary Science, Onderstepoort, S. Africa
*
*From the Tropen-Institut, Giessen (Germany); at present working at the Veterinary Research Institute, Onderstepoort, S. Africa.
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Extract

The commencement and duration of haemolysis and the length of time the erythrocytes remain intact in engorged virgin and fertilized females and in male Ornithodoros savignyi were investigated by means of red cell antigens.

There were no differences between fertilized and unfertilized females, haemolytic tests were possible in both groups up to 120 h after engorgement.

In the male group haemolytic tests were possible only up to 24 h after engorgement.

In both female groups inhibition of the in vitro haemolysis could be observed until the fifth day, after feeding on a calf with erythrocyte mosaicism, indicating the loss or masking of antigens due to the damage of cell walls.

The authors wish to thank Dr G. Theiler for her interest and advice during this work.

Type
Research Article
Information
Parasitology , Volume 56 , Issue 4 , November 1966 , pp. 613 - 618
Copyright
Copyright © Cambridge University Press 1966

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References

REFERENCES

Balashov, Y. S. (1961). The structure of digestive organs and the blood digestion in Argasidae. Parazit. Sb. 20, 185225.Google Scholar
Braend, M. (1959). Blood Groups of cattle in Norway, 144 pp. Scandinavisk Bladforlag.Google Scholar
Ferguson, L. C. (1941). Heritable antigens in the erythrocytes of cattle. J. Immun. 40, 213–42.CrossRefGoogle Scholar
Hughes, T. E. (1954). Some histological changes which occur in the gut epithelium of Ixodes ricinus females during gorging and up to oviposition. Ann. trop. Med. Parasit. 48, 337404.Google Scholar
Osterhoff, D. R. (1960). Blood groups in bovines. I. Production of cattle iso-immune sera and blood group reagents. Onderstepoort J. vet. Res. 28, 479–91.Google Scholar
Osterhoff, D. R. (1961). Twins are ideal experimental animals. Fmg. S.Afr. 8, 18.Google Scholar
Owen, R. D. (1945). Immunogenetic consequences of vascular anastomoses between bovine twins. Science, N.Y. 102, 400–1.Google Scholar
Rendel, J. (1957). Blood groups of farm animals. Anim. Breed. Abstr. 25, 223–38.Google Scholar
Rendel, J. (1958). Studies of cattle blood groups. III. Blood-grouping as a method of diagnosing the zygosity of twins. Act. Agric. scand. 8, 162–90.CrossRefGoogle Scholar
Roesler, R. (1934). Histologische, physiologische und serologische Untersuchungen über die Verdauung bei der Zeckengattung Ixodes Latr. Z. Morph. Ökol. Tiere 28, 297317.CrossRefGoogle Scholar
Stormont, C. (1950). Additional gene-controlled antigenic factors in the bovine erythrocytes. Genetics, Princeton 36, 134–61.CrossRefGoogle Scholar
Tatchell, R. J. (1964). Digestion in the tick, Argas persicus, Oken. Parasitology 54, 423–40.CrossRefGoogle ScholarPubMed