Genetic control of recombination in the silkworm (original) (raw)
References
Abdullah, N F, and Charlesworth, B. 1974. Selection for reduced crossing over in Drosophila melanogaster. Genetics, 76, 447–451. CASPubMedPubMed Central Google Scholar
Acton, A B. 1961. An unsuccessful attempt to reduce recombination by selection. Amer Natur, 95, 119–120. Article Google Scholar
Ayuzawa, CH, Sekodo, I, Yamakawa, K, Sakukai, U, Kurata, W, Yaginuma, Y, and Tokoro, Y. 1972. Handbook of Silkworm Rearing Agricultural Technique Manual. Fuji Publishing Co. Ltd., Tokyo. Google Scholar
De Boer, R, and Van Der Hoeven, F A. 1977. Son-sire regression based on heritability estimates of chiasma frequency, using T7OH mouse translocation hctcrozygotes, and the relation between univalence, chiasma frequency and sperm production. Heredity, 39, 335–343. ArticleCASPubMed Google Scholar
Catcheside, D G. 1977. The Genetics of Recombination. Arnold, London. Google Scholar
Charlesworth, B, and Charlesworth, D. 1976. Theoretical genetics of Batesian mimicry. II. Evolution of supergenes. J Theor Biol, 55, 305–324. Article Google Scholar
Chikushi, H. 1972. Genes and Genetical Stocks of the Silkworm (Studies of Stock Culture in Biological Field No 1). Keigaku, Tokyo. Google Scholar
Chinnici, J P. 1971a. Modification of recombination frequency in Drosophila. I. Selection for increased and decreased crossing over. Genetics, 69, 71–83. CASPubMedPubMed Central Google Scholar
Chinnici, J P. 1971b. Modification of recombination frequency in Drosophila. II. The polygenic control of crossing over. Genetics, 69, 85–96. CASPubMedPubMed Central Google Scholar
Clarke, C A, and Sheppard, P M. 1971. Further studies on the genetics of the mimetic butterfly Papilio memnon L. Phil Trans Roy Soc London B, 263, 35–70. Article Google Scholar
Clarke, C A, and Sheppard, P M. 1972. The genetics of the mimetic butterfly Popilio polytcs L. Phil Trans Roy Soc London B, 263, 431–458. ArticleCASPubMed Google Scholar
Clarke, C A, and Sheppard, P M. 1977. A new tailed female form of Papilio memnon L. and its probable genetic control. Syst Entomol, 2, 17–19. Article Google Scholar
Clarke, C A, Sheppard, P M, and Thornton, I W B. 1968. The genetics of the mimetic butterfly Papilio memnon L. Phil Trans Roy Soc London B, 254, 37–89. Article Google Scholar
Dryja, A. 1959. Badania nad polimorfizmem Kraśnika Zmiennego (Zygaena ephialtes L.). (Genetical investigation on the polymorphism of Zygaena ephialtes L.). Panstwowe Wydawnictwo Naukowe, Warszawa, pp. 401 + folder of 12 plates and tables.
Emsley, M G. 1965. The geographical distribution of the color-pattern components of Heliconius erato and Heliconius melpomcne with gcnctical evidence for the systematic relationship between the two species. Zoologica (New York), 49, 245–286. Google Scholar
Fisher, R A. 1930. The Gcnetical Theory of Natural Selection. Clarendon Press, Oxford. Google Scholar
Hasimoto, H. 1960. Selection of crossover value between Striped and Yellow in the silkworm. 11ème Conference Technique Sericicole Internationale, Murcie (Espagne), 365–367.
Kidwell, M G. 1972a. Genetic change of recombination value in Drosophila melanogaster. I. Artificial selection for high and low recombination and some properties of recombination-modifying genes. Genetics, 70, 419–432. CASPubMedPubMed Central Google Scholar
Kidwell, M G. 1972b. Genetic change of recombination value in Drosophila melanogaster. II. Simulated natural selection. Genetics, 70, 433–443. CASPubMedPubMed Central Google Scholar
Maynard Smith, J. 1977. Why the genome does not congeal. Nature, 268, 693–696. Article Google Scholar
Maynard Smith, J. 1978. The Evolution of Sex. Cambridge University Press, London. Google Scholar
Parsons, P A. 1958. Selection for increased recombination in Drosophila melanogaster. Amer Natur, 92, 255–256. Article Google Scholar
Schapp, T. 1978. Why should the genome congeal? Nature, 276, 535–536. Article Google Scholar
Shaw, D D. 1972. Genetic and environmental components of chiasma control. II. The response to selection in Schistocerca. Chromosoma, 37, 297–308. ArticleCASPubMed Google Scholar
Sheppard, P M. 1975. Natural Selection and Heredity, fourth edition. Hutchinson, London. Google Scholar
Sturtevant, A H. 1915. No crossing over in the female of the silkworm moth. Amer Natur, 49, 42–44. Article Google Scholar
Suomalainen, E. 1965. On the chromosomes of the Geometrid moth genus Cidaria. Chromosorna (Berlin), 16, 166–184. Article Google Scholar
Suomalainen, E, Cook, L H, and Turner, J R G. 1973. Achiasmatic oogenesis in the heliconiine butterflies. Hereditas, 74, 302–304. Article Google Scholar
Traut, W. 1977. A study of recombination, formation of chiasmata and synaptonemal complexes in female and male meiosis of Ephestia kuehniella (Lepidoptera). Genetica, 47, 135–142. Article Google Scholar
Turner, J R G. 1971. Studies of Müllerian mimicry and its evolution in burnet moths and heliconid butterflies. In Ecological Genetics and Evolution, ed. E. R. Creed, pp. 224–260. Blackwell Scientific Publications, Oxford. Chapter Google Scholar
Turner, J R G. 1975. A tale of two butterflies. Natural History, 84 (2), 28–37. Google Scholar
Turner, J R G. 1976. Muellerian mimicry: classical “beanbag” evolution, and the role of ecological islands in adaptive race formation. In Population Genetics and Ecology, ed. S. Karlin and E. Nevo, pp. 185–218. Academic Press, New York and London. Google Scholar
Turner, J R G. 1977. Butterfly mimicry: the genetical evolution of an adaptation. Evol Biol, 10, 163–206. Google Scholar
Turner, J R G, and Crane, J. 1962. The genetics of some polymorphic forms of the butterflies Heliconius melpomene Linnaeus and H. erato Linnaeus. I. Major genes. Zoologica (New York), 47, 141–152. Google Scholar
Turner, J R G, Johnson, M S, and Eanes, W F. 1979. Contrasted modes of evolution in the same genome: allozymes and adaptive change in Heliconius. Proc Natl Acad Sci USA, 76, 1924–1928. ArticleCASPubMedPubMed Central Google Scholar
Turner, J R G, and Sheppard, P M. 1975. Absence of crossing-over in female butterflies (Heliconius). Heredity, 34, 265–269. ArticlePubMed Google Scholar