Advertisement

Genes and development of characters

I. The study of the growth of the imaginal discs of eyes of the wild type larvae and three mutants — Lobec, glass2 and eyeless2 inDrosophila melanogaster
  • N. N. Medvedev
Abhandlungen

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

Literature cited

  1. Alpatov, W. W., 1929, Growth and variation of the larvae ofDrosophila melanogaster. Journ. exper. Zoology,52, 402–437.Google Scholar
  2. Bridges, C. B. andMorgan, T. H., 1919, The second-chromosome group of mutant characters. Carnegie Inst. Wash. Publ. No. 278.Google Scholar
  3. - and -, 1923, Third-chromosome group of mutant characters. Carnegie Inst. Wash. Publ. No. 327.Google Scholar
  4. Chen, T. Y., 1929, The development of imaginal buds in normal and mutantsDrosophila melanogaster. Journ. Morph. a. Physiol.,47, 135–199.Google Scholar
  5. Derrick, G. E., 1928, The development of the eye and optic tract inDrosophila melanogaster and its “eyeless” mutant. Univ. Oklahoma. Bull.,8, 100–105.Google Scholar
  6. Dobzhansky, Th., 1930, The manifold effects of genes Stubble and stubbloid inDrosophila melanogaster. Zeitschr. f. ind. Abstammungslehre,54, 427–457.Google Scholar
  7. —, 1930, The studies on the intersexes and supersexes inDrosophila melanogaster. Bull. Bureau of Genetics, No. 8, 91–158 (in Russian).Google Scholar
  8. Philiptschenko, Jur., 1929, The genes and the development of the form of ear in wheat. Bull. Bureau of Genetics, No. 7, 1–29 (in Russian).Google Scholar
  9. Philiptschenko, Jur., 1930, Again on the question of genes and the development of the form of ear in wheat. Bull. Bureau of Genetics, No. 8, 1–18 (in Russian).Google Scholar
  10. —, 1929, Gene und Entwicklung der Ährenform beim Weizen. Biol. Zentralbl.,49, 1–16.Google Scholar
  11. Feldman, H. W., 1933, The genetics of the ear of the house mouse. Proc. Sixth Intern. Congr. of Genetics v.II, 51–52.Google Scholar
  12. Gabritschevsky, E. andC. B. Bridges, 1928, Physiological aspects of the giant race. Zeitschr. f. ind. Abstammungslehre,46, 231–284.Google Scholar
  13. Goldschmidt, R., 1927, Physiologische Theorie der Vererbung. Berlin.Google Scholar
  14. Graubard, M., 1933, Thyrosinase in mutants ofDr. melanogaster. Journ. of Genetics,27, 199–218.Google Scholar
  15. Gregory, P. W. andCastle, W. E., 1931, Further studies on the embryological basis of size inheritance in the Rabbit. Journ. Experim. Zoology,59, 199–211.Google Scholar
  16. Guthrie, J. D., 1925, The asimmetry of the small-eyed condition in “eyeless”Drosophila. Journ. experim. Zoology,43, 307–314.Google Scholar
  17. Haecker, V., 1918, Entwicklungsgeschichte Eigenschaftsanalyse (Phänogenetik) Jena, 1–344.Google Scholar
  18. Hagedoorn, A. L., 1911, Autocatalytical substance the determinants for the inheritable characters. Vortr. u. Aufs.V. Roux, 12.Google Scholar
  19. Haldane, J. B. S., 1932, The time of action of gene and its bearing on some evolutionary problems. Amer. Natur. LXVI,702, 5–24.Google Scholar
  20. Hersh, R. K., 1924, The effect of temperature upon the full-eyed rase ofDrosophila melanogaster. Journ. Exper. Zoology,39, 43–53.Google Scholar
  21. —, 1931, Facet number and genetic growth constans in Bar-eyed stocks ofDrosophila. Journ. Exper. Zoology,60, 213–248.Google Scholar
  22. Huettner, A. F., 1923, The origin of the germ cells inDrosophila melanogaster. Journ. Morph.37, 385–428.Google Scholar
  23. Johannsen, O. A., Eye structure in normal and eye-mutantsDrosophila. Journ. Morph. a. Physiol.,39, 337–349.Google Scholar
  24. Kerkis, Jul., 1931, The growth of the gonads inDrosophila melanogaster. Genetics,16, 212–224.Google Scholar
  25. Krafka, Joseph, 1924, Development of the compound eye ofDrosophila melanogaster and its Bar-eyed mutant. Biol. Bull.,47, 143–149.Google Scholar
  26. Loeb, J., 1916, The organism as a whole from a physicochemical viewpoint. New York.Google Scholar
  27. Ly, Y. C., 1927, The effect of chromosome abberations on development inDrosophila melanogaster. Genetics,12, 1–58.Google Scholar
  28. Morgan, T. H., 1919, The physical basis of heredity. Philadelphia.Google Scholar
  29. — andSturtevant, A. H., 1925, The genetics ofDrosophila. Bibliogr. Genetica,2, 1–262.Google Scholar
  30. Plunkett, Ch. R., 1926, The interaction of the genetic and environmental factors in development. Journ. exper. Zoology,46, 181–244.Google Scholar
  31. Richards, M. H. andFurrow, E. Y., 1925, The eye and optic tract in normal and “eyeless”Drosophila. Biol. Bull.,48, 243–259.Google Scholar
  32. Severtziev, A. H., 1922, Essaies on the theory of evolution (in Russian).Google Scholar
  33. Shultz, J., 1929, The minute reaction in the development ofDrosophila melanogaster. Genetics,14, 366–419.Google Scholar
  34. —, 1932, The developmental system affected by the genes for eye colour inDrosophila VI Inter. Congress of Genetics, vol. II, 178–179.Google Scholar

Copyright information

© Verlag von Gebrüder Borntraeger 1935

Authors and Affiliations

  • N. N. Medvedev
    • 1
  1. 1.Leningrad UniversityLeningradUSSR

Personalised recommendations