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Journal of Genetics

, Volume 83, Issue 2, pp 125–162 | Cite as

The distribution of sex-factors in theX-Chromosome ofDrosophila melanogaster

  • T. H. Dobzhansky
  • Jack Schultz
Article
  • 35 Downloads

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Indian Academy Classic Journal 
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References

  1. Bridges, C. B. (1921). “Triploid intcrsexes inDrosophila melanogaster.”Science,54, 252–4.PubMedCrossRefGoogle Scholar
  2. — (1922). “The origin of variations in sexual and sex-limited characters.”Amer. Natur. 56, 51–63.CrossRefGoogle Scholar
  3. — (1923). “Aberrations in chromosomal materials.”Eugenics, Genetics and the Family,1, 76–81.Google Scholar
  4. — (1925). “Sex in relation to chromosomes and genes.”Amer. Natur. 59, 127–37.CrossRefGoogle Scholar
  5. -(1932). “The genetics of sex inDrosophila.”Sex and Internal Secretions, pp. 55–93.Google Scholar
  6. Darlington, C. D. (1932).Recent Advances in Cytology. Philadelphia: Blackiston's.Google Scholar
  7. Dobzhansky, Th. (1929). “The influence of the quantity and quality of chromosomal material on the size of the cells inDrosophila melanogaster.”Roux' Arch. Entwicklm. 115, 363–79.CrossRefGoogle Scholar
  8. — (1930a). “Genetical and environmental factors influencing the type of intersexes inDrosophila melanogaster.”Amer. Natur. 64, 2G1–71.Google Scholar
  9. — (1930)b. “Studies on the intersexes and supersexes inDrosophila melanogaster.”Bull. Bureau Genetics, Leningrad,8, 91–158.Google Scholar
  10. — (1932a). “Cytological map of the X-chromosomo ofDrosophila melanogaster”.Biolog. Zentrlbl. 52, 493–509.Google Scholar
  11. — (1932)b. “Deletion of a section of the X-chromosomo ofDrosophila melanogaster.”Bull. Bureau Genetics, Leningrad,9, 193–216.Google Scholar
  12. — (1932c). “The baroid mutation inDrosophila melanogaster.”Genetics,17, 369–92.PubMedGoogle Scholar
  13. Dobzhansky, Th. and C. B. Bridges (1928). “The reproductive system of triploid intersexes inDrosophila melanogaster.”Amer. Natur. 62, 425–34.CrossRefGoogle Scholar
  14. Dobzhansky, Th. and J. Schultz (1931). “Evidence for multiple sex factors in the X-chromosome ofDrosophila melanogaster.”Proc. Nat. Acad. Sci. 17, 513–18.PubMedCrossRefGoogle Scholar
  15. Goldschmidt, R. (1920). “Die quantitative Grundlagen von Vererbung und Artbildung.”Roux' VortrÄge und AufsÄtze,24, 1–163.Google Scholar
  16. — (1923). “Untersuchungen über IntersexualitÄt. III.”Zeit. ind. Abst. Vererb. 31, 100–33.CrossRefGoogle Scholar
  17. -(1927).Physiologische Theorie der Vererbung. Berlin.Google Scholar
  18. — (1931).Die sexuellen Zwischenstufen. Monographien aus dem Gesamtgebiet der Physiologie der Pflanzen und der Tiero, 23. Borlin: Julius Springor.Google Scholar
  19. Gowen, J. W. (1931). “Genetic non-disjunctional forms inDrosophila.”Amer. Natur. 65, 193–213.CrossRefGoogle Scholar
  20. — (1933). “Meiosis as a genetic character inDrosophila melanogaster,”Journ. Exp. Zool. 65, 83–106.CrossRefGoogle Scholar
  21. Kosswig, C. (1933). “Genotypische und phÄnotypische Geschlechtsbestimmung bei Zahnkarpfen. III. Farbfaktoron als relative Geschlechtsrealisatoren.”Roux' Arch. Entwicklm. 128, 393–446.CrossRefGoogle Scholar
  22. Morgan, T. H., Bridges C. B. and Sturtevant A. H. (1928). “The constitution of the germinal material in relation to heredity.”Carnegie Inst. Washington Year Book,27, 330–5.Google Scholar
  23. Muller, H. J. (1930a). “Types of visible variations induced by X-rays inDrosophila.”Journ. Gen. 22, 299–334.CrossRefGoogle Scholar
  24. — (1930)b. “Radiation and genotics.”Amer. Natur. 64, 220–51.CrossRefGoogle Scholar
  25. — (1932). “Some genetic aspects of sex.”Amer. Natur. 66, 118–38.CrossRefGoogle Scholar
  26. Müller, H. J. and Painter, T. S. (1932). “The differentiation of the sex chromosomes ofDrosophila into genetically active and inert regions.”Zeit. ind. Abst. Vererb. 62, 316–65.CrossRefGoogle Scholar
  27. Muller, H. J. and Stone, W. S. (1930). “Analysis of several induced gene rearrangements involving the X-chromosome ofDrosophila.”Anat. Record,47, 393–4.Google Scholar
  28. Offermann, C. A. and Muller, H. J. (1932). “Regional differences in crossing over as a function of the chromosome structure.”Proc. VI Internat,. Congr. Genetics,2, 143–5.Google Scholar
  29. Painter, T. S. (1931). “A cytological map of the X-chromosome ofDrosophila melanogaster.”Science,73, 647–8.PubMedCrossRefGoogle Scholar
  30. Painter, T. S. and Muller H. J. (1929). “The parallel cytology and genetics of induced translocations and deletions inDrosophila.”Journ. Heredity,20, 287–98.Google Scholar
  31. Patterson, J. T. (1930). “Proof that the entire chromosome is not eliminated in the production of somatic variations by X-rays inDrosophila.”Genetics,15, 141–9.PubMedGoogle Scholar
  32. — (1931). “The production of gynandromorphs inDrosophila melanogaster by X-rays.”Journ. Exp. Zool. 60, 173–211.CrossRefGoogle Scholar
  33. Sivertzev-Dobzhansky, N. P. and Dobzhansky, Th. (1933). “Deficiency and duplications for the gone bobbed inDrosophila melanogaster.”Genetics,18, 173–92.PubMedGoogle Scholar
  34. Stern, C. (1926). “Vererbung im Y-Chromosom vonDrosophila melanogaster.”Biol-Zentrlbl. 46, 344–8.Google Scholar
  35. — (1027). “Ein genetischor ∩d zytologischcr Beweis für Vererbung imY-Chromosom vonDrosophila melanogaster.”Zeit. ind. Abst. Vererb. 44, 188–231.Google Scholar
  36. Wettstein, F. (1924). “Morphologic und Physiologie des Form Wechsels der Moose auf genetischer Grundlage I.”Zeit. ind. Abst. Vererb. 33, 1–236.CrossRefGoogle Scholar
  37. — (1028). “Morphologie und Physiologie dos Formwechsels der Moose auf genetischer Grundlage. 11.”Bibliotheca Genetica,10, 1–216.Google Scholar
  38. Winde, O. (1932). “The Nature of Sex Chromosomes.”Proc. VI Internal. Congr. Genetics,1, 343–55.Google Scholar
  39. Witschi, E. (1929). “Bestimmung und Vererbung des Geschlechts bei Tieren.”Handbuch der Vererbungswissenschaft,11, 10. Berlin: Borntraeger.Google Scholar

Copyright information

© Indian Academy of Sciences 2004

Authors and Affiliations

  • T. H. Dobzhansky
    • 1
  • Jack Schultz
    • 1
    • 2
  1. 1.W. G. Kerckhoff Laboratories of the Biological SciencesCalifornia Institute of TechnologyPasadena
  2. 2.Carnegie Institution of WashingtonUSA

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