The origin of spontaneous and experimental haploids in the Mexican axolotl (Siredon — or Ambystoma — Mexicanum)
1957; Wiley; Volume: 134; Issue: 3 Linguagem: Inglês
10.1002/jez.1401340303
ISSN1097-010X
AutoresR. R. Humphrey, G. Fankhauser,
Tópico(s)Fish biology, ecology, and behavior
ResumoJournal of Experimental ZoologyVolume 134, Issue 3 p. 427-447 Article The origin of spontaneous and experimental haploids in the Mexican axolotl (Siredon — or Ambystoma — Mexicanum) R. R. Humphrey, R. R. Humphrey Department of Anatomy, University of Buffalo, and Department of Biology, Princeton University Search for more papers by this authorG. Fankhauser, G. Fankhauser Department of Anatomy, University of Buffalo, and Department of Biology, Princeton University Search for more papers by this author R. R. Humphrey, R. R. Humphrey Department of Anatomy, University of Buffalo, and Department of Biology, Princeton University Search for more papers by this authorG. Fankhauser, G. Fankhauser Department of Anatomy, University of Buffalo, and Department of Biology, Princeton University Search for more papers by this author First published: April 1957 https://doi.org/10.1002/jez.1401340303Citations: 12 This work was supported in part from 1947 to 1950 by a grant from the Rockefeller Foundation to Princeton University, and has been aided since 1950 by grants from the American Cancer Society to Princeton University administered through the Committee on Growth of The National Research Council, and by the Eugene Higgins Fund of Princeton University. AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat Literature Cited Böök, J. A. 1941 Induction of haploidy in a cold treatment experiment with egg cells of the salamander Triton taeniatus. Kungl. Fysiogr. Sällsk. Lund Forh., 11, no. 12: 1–16. Briggs, R. 1952 An analysis of the inactivation of the frog sperm nucleus by toluidine blue. J. Gen. Physiol., 35: 761–780. Chase, S. S. 1949 Monoploid frequencies in a commercial double cross hybrid maize, and in its component single cross hybrids and inbred lines. Genetics, 34: 328–332. Chase, S. S. 1952 Production of homozygous diploids in maize from monoploids. Am. J. Agronomy, 44: 263–267. Costello, D. P. 1942 Induced haploidy and triploidy in Californian Triturus. Anat. Rec., 84: no. 4: 60. Fankhauser, G. 1937a The production and development of haploid salamander larvae. J. Hered., 28: 1–15. Fankhauser, G. 1937b The development of fragments of the fertilized Triton egg with the egg nucleus alone (“gyno-merogony”). J. Exp. Zool., 75: 413–469. Fankhauser, G. 1945 The effects of changes in chromosome number on amphibian development. Quart. Rev. Biol., 20: 20–78. Fankhauser, G., and R. R. Humphrey 1952 The rare occurrence of mitosis without spindle apparatus (“colchicine mitosis”) producing endopolyploidy in embryos of the axolotl. Proc. Nat. Acad. Sci., 38: 1073–1082. Fischberg, M. 1947a Experimentelle Ausloesing von haploider und diploider Parthenogene bei den Urodelen Triton palmatus und Triton alpestris. Arch. Julius Klaus-Stiftg., 22: 331–336. Fischberg, M. 1947b Experimentelle Ausloesung von Heteroploidie durch Kältebehandlung der Eier von Triton alpestris aus verschiedenen populationen. Genetica, 24: 213–329. Hagerup, O. 1945 Facultative parthenogenesis and haploidy in Epipactis latifolia. Kig. Danske Videnskab. Selskab. Biol. Medd., 19, no. 11: 1–13. Humphrey, R. R. 1948 A lethal fluid imbalance in the Mexican axolotl. J. Hered., 39: 255–261. Ivanov, M. A. 1938 Experimental production of haploids in Nicotiana rustica L. (and a discussion of haploidy in flowering plants). Genetica, 20: 295–397. Jorgensen, C. A. 1928 The experimental formation of heteroploid plants in the genus Solanum. J. Genet., 19: 133–211. Kawamura, T. 1939 Artificial parthenogenesis in the frog. I. Chromosome numbers and their relation to cleavage histories. J. Sci. Hiroshima Univ., Ser. B., Div. 1, 6: 115–218. Kawamura, T. 1941 Polyploidy in the Japanese newt, Triturus pyrrhogaster. Zool. Mag. (Tokyo), 53: 550–552. Kaylor, C. T. 1937 Experiments on androgenesis in the newt, Triturus viridescens. J. Exp. Zool., 76: 375–394. Knapp, E. 1939 Haploide Pflanzen von Antirrhinum majus. Ber. Deutsche Bot. Ges.' 54: 371–379. Michalski, J. V. 1948 Spontaneous aberrations in chromosome number (triploidy and haploidy) among larvae of the two-lined salamander, Eurycea bislineata. Anat. Rec., 100: no. 4: 64. Parmenter, C. L. 1933 Haploid, diploid, triploid, and tetraploid chromosome numbers and their origin in parthenogenetically developed larvae and frogs of Rana pipiens and Rana palustris. J. Exp. Zool., 66: 409–453. Parmenter, C. L. 1940 Chromosome numbers in Rana fusca parthenogenetically developed from eggs with known polar body and cleavage history. J. Morph., 66: 241–260. Stauffer, E. 1945 Versuche zur experimentellen Herstellung haploider Axolotl-Merogone. Rev. Suisse Zool., 52: 231–327. Citing Literature Volume134, Issue3April 1957Pages 427-447 ReferencesRelatedInformation
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