Abstract
Chromosome imprinting is the process by which one of two genetically homologous chromosomes is predetermined to function differently from the other at a subsequent stage in development. In the coccid insects, imprinting occurs in the egg, at the time of fertilisation; it probably occurs at the same time and site in mammals, and possibly also in Sciara.
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References
Metz, C., Am. Nat., 72, 485–520 (1938).
Hughes-Schrader, S., Adv. Genet., 2, 127–203 (1948).
Lyon, M. F., Nature, 190, 372–373 (1961).
Cooper, D. W., VandeBerg, J. L., Sharman, G. B., and Poole, W. E., Nature new Biol., 230, 155–157 (1971).
Sharman, G. B., Nature, 230, 231–232 (1971).
Crouse, H. V., Genetics, 45, 1429–1443 (1960).
Brown, S. W., and Nur, U., Science, 145, 130–136 (1964).
Brown, S. W., and Wiegmann, L., Chromosoma, 28, 255–279 (1969).
Sabour, M., Genetics, 70, 291–298 (1972).
Brown, S. W., and Nelson-Rees, W. A., Genetics, 46, 983–1007 (1961).
Nelson-Rees, W. A., Chromosoma, 14, 1–17 (1963).
Nur, U., Chromosoma, 29, 42–61 (1970).
Nur, U., Chromosoma, 14, 123–139 (1963).
Nur, U., Am. Zool., 11, 301–308 (1971).
Nur, U., Chromosoma, 39, 381–401 (1972).
Chandra, H. S., Chromosoma, 14, 310–329 (1963).
Chandra, H. S., Chromosoma, 14, 330–346 (1963).
Rieffel, S. M., and Crouse, J. V., Chromosoma, 19, 231–276 (1966).
Crouse, H. V., Chromosoma, 11, 146–166 (1960).
Crouse, H. V., Chromosoma, 18, 230–253 (1966).
Sharman, G. B., and Johnston, P. G., Genetics, 74, (Suppl.), s250 (1973).
Ohno, S., Cold Spring Harb. Symp. quant. Biol., 38, 155–164 (1973).
Chandra, H. S., and Brown, S. W., Symposia, (13th International Congress of Genetics, Berkeley, 1973).
Ohno, S., Sex Chromosomes and Sex Linked Genes (Springer, Berlin, 1967).
Brown, S. W., and Chandra, H. S., Proc. natn. Acad. Sci. U.S.A., 70, 195–199 (1973).
Hook, E. B., and Schull, W. J., Nature, 244, 43–46 (1973).
Linder, D., Proc. natn. Acad. Sci. U.S.A., 63, 699–704 (1969).
Linder, D., and Power, J., Ann. human Genet., 34, 21–31 (1970).
Ellis, J. R., Marshall, R., Normand, I. C. S., and Penrose, L. S., Nature, 198, 411 (1963).
Mittwoch, U., Atkin, N. B., and Ellis, J. R., Cytogenetics, 2, 323–330 (1963).
Bomsel-Helmreich, O., Adv. Biosci., 6, 381–403 (1971).
Schmid, W., and Vischer, D., Cytogenetics, 6, 145–155 (1967).
Luthardt, F. W., and Donahue, R. P., Expl Cell. Res., 82, 143–151 (1973).
Pernis, B., Chiappino, G., Kelus, A. S., and Gell, P. G. H., J. exp. Med., 122, 853–876 (1965).
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Chandra, H., Brown, S. Chromosome imprinting and the mammalian X chromosome. Nature 253, 165–168 (1975). https://doi.org/10.1038/253165a0
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DOI: https://doi.org/10.1038/253165a0
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