[1]Kinoshita T. Report of committee on gene symbolization, nomenclature and linkage groups. Rice Genet Newsl, 1995, 12: 25-125.
[2]Maheswaran M, Mackill D J, Huang N, et al. Identification of RAPD markers linked to Se-3(t), a gene enhancing the level of photoperiod sensitivity in rice. Rice Genet Newsl, 1995, 12: 219-221.
[3]Ohshima I, Watanabe Y, Asahic C. Genetic analysis of heading time in cross between two indica varieties with two inhibitor genes for photoperiod sensitivity. Jpn J Breeding, 1993, 43: 101-106.
[4]Okumoto Y, Tanisaka T, Yamagata H. Heading-time genes of the rice varieties grown in the Tohoku-Hokuriku region in Japan. Jpn J Breeding, 1992, 42: 121-135.
[5]Okumoto Y, Tanisaka T. Trisomic analysis of a strong photoperiod-sensitivity gene E1 in rice (Oryza sativa L.). Euphytica, 1997, 95: 301-307.
[6]Yokoo M, Okuno K. Genetic analysis of earliness mutations induced in the rice cultivar Norin 8. Jpn J Breeding, 1993, 43: 1-11.
[7]Ichitani K, Okumoto Y, Tanisaka T. Photoperiod sensitivity gene of Se-1 locus found in photoperiod insensitive rice cultivars of the northern limit region of rice cultivation. Breeding Sci, 1997, 47: 145-152.
[8]Okumoto Y, Ichitani K, Inoue H. Photoperiod insensitivity gene essential to the varieties grown in the northern limit region of paddy rice (Oryza sativa L.) cultivation. Euphytica, 1996, 92: 63-66.
[9]Tsai K H. Gene loci and alleles controlling the duration of basic vegetative growth of rice//Rice Genetics. Manila, the Philippines: IRRI, 1986: 339-349.
[10]Inoue I, Nishida H, Okumoto Y, et al. Identification of an early heading time gene found in the Taiwanese rice cultivar Taichung 65. Breeding Sci, 1998, 48: 103-108.
[11]Ohshima I, Kikuchi F. Identification of a recessive inhibitor for photoperiod-sensitive gene, Se-1, in photoperiod-insensitive varieties of indica type rice//Proceedings of the 7th International Congress SABRAO. Taichang: SABRAO, 1994: 93-100.
[12]Yano M, Harushima Y, Nagamura Y, et al. Identification of quantitative trait loci controlling heading date in rice using a high-density linkage map. Theor Appl Genet, 1997, 95: 1025-1032.
[13]Lin S Y, Sasaki T, Yano M. Mapping quantitative trait loci controlling seed dormancy and heading date in rice, Oryza sativa L., using backcross inbred lines. Theor Appl Genet, 998, 96: 997-1003.
[14]Maheswaran M, Huang N, Sreerangasamy S R, et al. Mapping quantitative trait loci associated with days to flowering and photoperiod sensitivity in rice (Oryza sativa L.). Mol Breeding, 2000, 6: 145-155.
[15]Yano M, Katayose Y, Ashikari M, et al. Hd1, a major photoperiod sensitivity quantitative trait locus in rice, is closely related to the Arabidopsis flowering time gene CONSTANS. Plant Cell, 2000, 12: 2473-2483.
[16]Takahashi Y, Shomura A, Sasaki T, et al. Hd6, a rice quantitative trait locus involved in photoperiod sensitivity, encodes the α subunit of protein kinase CK2. Proc Natl Acad Sci, USA, 2001, 98(14): 7922-7927.
[17]Kojima S, Takahashi Y, Kobayashi Y. Hd3a, a rice ortholog of the Arabidopsis FT gene, promotes transition to flowing downstream of Hd1 under short-day conditions. Plant Cell Physiol, 2002, 43(10): 1096-1105.
[18]Doi K, Izawa T, Fuse T, et al. Ehd1, a B-type response regulator in rice, confers short-day promotion of flowering and controls FT-like gene expression independently of Hd1. Genes Dev, 2004, 118(8): 926-936.
[19] Xue W Y, Xing Y Z, Weng X Y, et al. Natural variation in Ghd7 is an important regulator of heading date and yield potential in rice. Nat Genet, 2008, 40: 761-767.
[20]Yamagata H, Okumoto Y, Tanisaka T. Analysis of genes controlling heading time in Japanese rice//Rice Genetics. Manila, the Philippines: IRRI, 1986: 351-359.
[21]Ichitani K, Okumoto Y, Tanisaka T. Genetic analyses of low photoperiod sensitivity of rice cultivars from the northern most regions of Japan. Plant Breeding, 1998, 117: 543-547.
[22]Lin H X, Yamamoto T, Sasaki T, et al. Characterization and detection of epistatic interaction three QTLs, Hd-1, Hd-2 and Hd-3, controlling heading date of rice using nearly isogenic lines. Theor Appl Genet, 2000, 101: 1021-1028.
[23]Nishida H, Okumoto Y, Nakagawa H, et al. Analysis of tester lines for rice (Oryza sativa L.) heading-time genes using reciprocal photoperiodic transfer treatments. Ann Bot, 2001, 88: 527-536.
[24]Yokoo M, Kikuchi F. Multiple allelism of the locus controlling heading time of rice, detected using the close linkage with the blast-resistance. Jpn J Breeding, 1977, 27: 123-130.
[25] 罗林广, 徐俊锋, 翟虎渠, 等. 水稻雄性不育恢复系明恢63的感光基因分析. 遗传学报, 2003, 30(9): 804-810.
[26] Wei X J, Jiang L, Xu J F, et al. Genetic analyses of heading date of japonica rice cultivars from Northeast China. Field Crops Res, 2008, 107: 147-154.
[27]Okumoto Y, Yoshimura A, Tanisaka T, et al. Analysis of a rice variety Taichung 65 and its isogenic early-heading lines for late-heading genes E1, E2 and E3. Jpn J Breeding, 1992, 42: 415-429.
[28]Xu J F, Jiang L, Wei X J, et al. Genotypes of heading date of middle indica rice in the mid-lower region of the Yangtze River. J Integr Plant Biol, 2007, 49(12): 1772-1781. |