Development of Near-isogenic Lines for Photoperiod-insensitive Genes, Ppd-B1 and Ppd-D1, Carried by the Japanese Wheat Cultivars and their Effect on Apical Development

Chinoy, J.J. (1949) Correlation between growth and development. Nature 164: 879–880.

Chinoy, J.J. (1950) Effect of vernalization and photoperiodic treatments on growth and development of wheat. Nature 165: 882–883.

Craufurd, P.Q. and P.M. Cartwright (1989) Effect of photoperiod and chlormequat on apical development and growth in a spring wheat (<i>Triticum aestivum</i>) cultivar. Ann. Bot. 63: 515&ndash;525.

DYCK J A, 2004, 44, 1976, 10.2135/cropsci2004.1976

Fujita, M., Y. Taniguchi, K. Ujihara and A. Sasaki (1995) Ear primordia development and stem elongation of near-isogenic lines for vernalization requirement in extremely-early maturing wheat cultivars (<i>Triticum aestivum</i> L.). Breed. Sci. 45: 97&ndash;104 (in Japanese with English summary).

Gonzalez, F.G., G.A. Slafer and D.J. Miralles (2005) Pre-anthesis development and number of fertile florets in wheat as affected by photoperiod sensitivity genes <i>Ppd-D1</i> and <i>Ppd-B1</i>. Euphytica 146: 253&ndash;269.

Gotoh, T. (1979) Genetic studies on growth habit of some important spring wheat cultivars in Japan, with special reference to the identification of the spring genes involved. Jpn. J. Breed. 29: 133&ndash;145.

10.1007/s00122-004-1799-1

Hashimoto, R. and J. Hirano (1963) Selection of parental materials for crosses in the early-maturity breeding program of wheat. (Part 3) Genetic studies on maturing date in F₂&ndash;F₅ generations. Bull. Chugoku Natl. Agric. Exp. Stn. A9: 31&ndash;61 (in Japanese with English summary).

HOSHINO T, 1987, 21, 226

Inamura, H., K. Suzuki and S. Nonaka (1955) On the standard of successive stages of barley and wheat spike development. Bull. Kanto-Tozan Natl. Agric. Exp. Stn. 8: 75&ndash;91 (in Japanese with English summary).

Inamura, H., I. Yamaga, K. Suzuki and M. Gokan (1958) Study on the breeding of early varieties of wheat and barley. (I.) Varietal differences of the early wheat and barley in the internode-elongation in relation to the death of young ear by frost damage in early spring. Bull. Kanto-Tozan Natl. Agric. Exp. Stn. 11: 20&ndash;28 (in Japanese with English summary).

10.1023/A:1003862401570

Kato, K. and H. Yamagata (1988) Method for evaluation of chilling requirement and narrow-sense earliness of wheat cultivars. Jpn. J. Breed. 38: 172&ndash;186.

KATO K, 1991, 41, 475, 10.1270/jsbbs1951.41.475

1992, 84, 259

Kato, K., T. Yoshida, M. Tanio, M. Fujita, H. Nishida, Y. Akashi and H. Yoshino (2005) Analysis of homoeologous genes of <i>Ppd-1</i>, controlling photoperiodic response in wheat and contributed to early maturity breeding in Japan. Breed. Res. 7 (suppl. 1,2): 272 (in Japanese).

Laurie, D.A. (1997) Comparative genetics of flowering time. Plant Mol. Biol. 35: 167&ndash;177.

Pirasteh, B. and J.R. Welsh (1975) Monosomic analysis of photoperiod response in wheat. Crop Sci. 15: 503&ndash;505.

Rahman, M.S. and J.H. Wilson (1977) Determination of spikelet number in wheat. I. Effect of varying photoperiod on ear development. Aust. J. Agric. Res. 28: 565&ndash;574.

10.1071/AR9710537

Scarth, R. and C.N. Law (1983) The location of the photoperiod gene, <i>Ppd2</i> and an additional genetic factor for ear-emergence time on chromosome 2B of wheat. Heredity 51: 607&ndash;619.

Scarth, R. and C.N. Law (1984) The control of the day-length response in wheat by the group 2 chromosomes. Z. Pflanzenzuchtg 92: 140&ndash;150.

Scarth, R., E.J.M. Kirby and C.N. Law (1985) Effects of the photoperiod genes <i>Ppd1</i> and <i>Ppd2</i> on growth and development of the shoot apex in wheat. Ann. Bot. 55: 351&ndash;359.

10.1038/sj.hdy.6800178

Slafer, G.A. and H.M. Rawson (1994) Sensitivity of wheat phasic development to major environmental factors: a re-examination of some assumptions made by physiologists and modellers. Aust. J. Plant Physiol. 21: 393&ndash;426.

10.1139/gen-43-3-487

Takahashi, R. and S. Yasuda (1958) Genetic studies on heading date in barley. <i>In</i> &rdquo;Studies on the bulk method of plant breeding&rdquo; Sakai,K., R.Takahashi and H.Akemine (eds.), Yokendo, Tokyo, Japan. p. 44&ndash;64 (in Japanese).

10.1270/jsbbs.55.327

Taya, S. (1993) Breeding of early maturing wheat varieties with higher grain yield in southwestern regions of Japan. Bull. Kyushu Natl. Agric. Exp. Stn. 27: 333&ndash;398 (in Japanese with English summary).

Tottman, D.R. (1977) The identification of growth stages in winter wheat with reference to the application of growth-regulator herbicides. Ann. Appl. Biol. 87: 213&ndash;224.

10.1126/science.1117619

Wall, P.C. and P.M. Cartwright (1974) Effects of photoperiod, temperature and vernalization on the phenology and spikelet numbers of spring wheats. Ann. Appl. Biol. 76: 299&ndash;309.

Worland, A.J., A. B&ouml;rner, V. Korzun, W.M. Li, S. Petrovic and E.J. Sayers (1998) The influence of photoperiod genes on the adaptability of European winter wheats. <i>In</i> &ldquo;Wheat: Prospects for global improvement&rdquo; Braun,H.-J., F.Altay, W.E.Kronstad, S.P.S.Beniwal and A.McNab (eds.), Kluwer Academic Publishers, Dordrecht, Netherlands. p. 517&ndash;526.

Yasuda, S. and H. Shimoyama (1965) Analysis of internal factors influencing the heading time of wheat varieties. Ber. Ohara Inst. landw. Biol. Okayama U. 13: 23&ndash;38.

Yoshida, H., M. Kamio and K. Kawaguchi (1983) Evaluation of cultivars for early matureness in the Japanese wheat breeding. Proc. 6^th Int. Wheat Genet. Symp., Kyoto, Japan. p. 601&ndash;612.