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A mummified foetus from the tomb of Tutankhamun

Published online by Cambridge University Press:  02 January 2015

Abstract

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Type
Research Article
Copyright
Copyright © Antiquity Publications Ltd 1979

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References

Boyd, W. C. Boyd, L. G. 1934. An attempt to determine the blood groups of mummies, Proceedings of the Society for Experimental Biology and Medicine, xxxi, 671.Google Scholar
Boyd, W. C. Boyd, L. G 1937. Blood grouping tests on 300 mummies with notes on the precipitin test, Journal of Immunology, xxxII, 307.Google Scholar
Connolly, R. C. 1969. Microdetermination of blood group substances in ancient human tissue Nature, 224, 325.Google Scholar
Connolly, R. C. Harrison, R. G. Ahmed, Soheir 1976. Serological evidence for the parentage of Tutankhamun and Smenkhkare, The Journal of Egyptian Archaeology, LxII, 184.Google Scholar
constandoulakis, M. kay, H. E. M. 1962. A and B antigens of the human foetal erythrocyte, British Journal of Haematology, vIII, 57.Google Scholar
Constandoulakis, M. Kay, H. B. M. Giles, C. M. parkin, D. M. 1963. Observations on the A2 gene and H antigen in foetal life, British Journal of Haematology, IX, 63.Google Scholar
Davidsohn, I. stejskal, R. 1972. Tissue antigens A, B and H in health and disease, Haematologia, VI, 177.Google Scholar
Derry, , , D. E. 1933. Appendix 1 in Carter, H. The tomb of Tutankhamen (London), 167.Google Scholar
Harrison, R. G. Abdalla, A. B. 1972. The remains of Tutankhamun, Antiquity, XLVI, 8.Google Scholar
Harrison, R. G., Connollyh, C. Abdallaa, B. 1965. Kinship of Smenkhkare and Tutankhamun affirmed by serological micromethod, Nature, 224, 325.Google Scholar
kempt, T. 1930. Uber den Empfindlichkeitsgrad der Blütkörperchen gegenüber Isohamagglutininen im Fotätteben und im Kindersalter beim Menschen, Acta Pathologica et Microbiologica Scandinavtca, VII, 146.Google Scholar
Moureau, P. 1953. Contribution à I’étude des facteurs d’individualisation du sang humain et leur applications en médecine légale. Le mémoire. Les groupes M et N d’hémo-agglutination de Landsteiner et Levine, Revue Belge des Sciences et Médécine, VII, 540.Google Scholar
Race, , , R. R. Sanger, R. 1975, Blood groups in Man (Oxford).Google Scholar
Speiser, P. 1959. Ueber die bisher jüngste menschliche Frucht (27 mm/2.2 g), an der bereits die Erbmerkmale A1 M, N, s, Fy(a+), C, c, D, E, e, Jk (a+?) in Blut festgestellt werden Konnten, Wiener Klinische Wochensckrift, LXXI, 549.Google Scholar