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Genic determination of the autogamy trait in the hypotrich ciliate, Euplotes crassus

Published online by Cambridge University Press:  14 April 2009

Fernando Dini  and
Pierangelo Luporini
Fernando Dini
Affiliation:
Department of Zoology, University of Toronto, Toronto, Ontario, CanadaM5S 1A1
Pierangelo Luporini
Affiliation:
Istituto di Zoologia, Universita' di Pisa, Pisa Italy and Istituto di Zoologia, Universita' di Camerino, Camerino, Italy
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Cross-fertilizing stocks of Euplotes crassus, differing as to the ability to undergo autogamy, were subjected to breeding analysis. The resulting data are consistent with the interpretation that a single locus (a) with a pair of alleles (a+; a) controls the ability to undergo autogamy. The two alleles express a simple dominance relationship in which the dominant allele (a+) permits expression of the autogamy trait. Cross-breeding experiments also suggest that the a locus is not linked to the mt locus which determines the mating-type trait.

Type
Research Article
Information
Genetics Research , Volume 35 , Issue 1 , February 1980 , pp. 107 - 119
Copyright
Copyright © Cambridge University Press 1980

References

REFERENCES

Dini, F. & Luporini, P. (1976). The mate-killer trait in a stock of Euplotes crassus (Dujardin) (Ciliata Hypotrichida). Monitore Zoologico Italiano (N.S.) 10, 1524.Google Scholar
Dini, F. & Luporini, P. (1979). The multiple mating type system of the marine ciliate Euplotes crassus (Dujardin). Archiv für Protistenkunde 121, 238245.CrossRefGoogle Scholar
Gates, M. A. (1978), Morphometric variation in the hypotrich genus Euplotes. Journal of Protozoology 25, 238250.CrossRefGoogle Scholar
Grell, K. G. (1973). Protozoology. 554 pp. Springer-Verlag.CrossRefGoogle Scholar
Heckmann, K. (1963). Paarungssystem und genabhängige Paarungstypdifferenzierung bei dem hypotrichen Ciliaten Euplotes vannus O. F. Muller. Archiv für Protistenkunde 106, 393421.Google Scholar
Heckmann, K. (1964). Experimentelle Untersuchungen an Euplotes crassus. I. Paarungssystem, Konjugation und Determination der Paarungstypen. Zeitschrift für Vererbungslehre 95, 114124.Google Scholar
Heckmann, K. & Frankel, J. (1968). Genie control of cortical pattern in Euplotes. The Journal of Experimental Zoology 168, 1138.CrossRefGoogle Scholar
Kosaka, T. (1973). Mating type of marine stocks of Euplotes woodruffi (Ciliata) in Japan. Journal of Science of the Hiroshima University 24, 135144.Google Scholar
Luporini, P. & Dini, F. (1975). Genetic control of the mate-killer trait in a stock of Euplotes crassus (Ciliata, Hypotrichida). Bollettino di Zoologia 42, 475476.Google Scholar
Luporini, P. & Dini, F. (1977). The breeding system and the genetic relationship between autogamous and non-autogamous sympatric populations of Euplotes crassus (Dujardin) (Ciliata Hypotrichida) Monitore Zoologico Italiano (N.S.) 11, 119154.Google Scholar
Luporini, P. & Nobili, R. (1967). New mating types and the problem of one or more syngens in Euplotes minuta Yocum (Ciliata, Hypotrichida). Atti dell'Associazione Genetica Italiana 12, 344360.Google Scholar
Nanney, D. L. (1958). Epigenetic control systems. Proceedings of the National Academy of Sciences of the United States of America 44, 712717.CrossRefGoogle ScholarPubMed
Nobili, R. & Luporini, P. (1967). Maintenance of heterozygosity at the mt locus after autogamy in Euplotes minuta (Ciliata Hypotrichida). Genetical Research 10, 3543.CrossRefGoogle Scholar
Nobili, R., Luporini, P. & Dini, F. (1978). Breeding system, species relationships and evolutionary trends in some marine species of Euplotidae (Hypotrichida Ciliata). In Marine Organisms: Genetics, Ecology, and Evolution, vol. II (ed. Battaglia, B. and Beardmore, J. A.), pp. 591616. Plenum Press.Google Scholar
Raikov, I. B. (1972). Nuclear phenomena during conjugation and autogamy in ciliates. In Research in Protozoology, vol. IV (ed. Chen, T. T.), pp. 147289. Pergamon Press.CrossRefGoogle Scholar
Sand, S. A. (1957). Phenotypic variability and the influence of temperature on somatic instability in cultures derived from hybrids between Nicotiana langsdorffii and N. sanderae. Genetics 42, 685703.CrossRefGoogle ScholarPubMed
Scossiroli, E. & Palenzona, L. (1971). Manuale di Biometria. 259 pp. Zanichelli.Google Scholar
Siegel, R. W. & Heckmann, K. (1966). Inheritance of autogamy and the killer trait in Euplotes minuta. Journal of Protozoology 13, 3438.CrossRefGoogle ScholarPubMed
Sinnot, E. W., Dunn, L. C. & Dobzhansky, Th. (1950). Principles of Genetics. 358 pp. McGraw-Hill.Google Scholar
Smith, H. H. & Sand, S. A. (1957). Genetic studies on somatic instability in cultures derived from hybrids between Nicotiana langsdorffii and N. sanderae. Genetics 42, 561582.CrossRefGoogle ScholarPubMed
Sonneborn, T. M. (1975). The Paramecium aurelia complex of fourteen sibling species. Transactions of the American Microscopical Society 94, 155178.CrossRefGoogle Scholar