Southerton S G, Strauss S H, Olive M R, et al. Eucalyptus has a functional equivalent of the Arabidopsis floral meristem identity gene LEAFY[J]. Plant molecular biology, 1998, 37(6): 897-910
[2]
Leseberg C H, Li A, Kang H, et al. MADS-box genes in dioecious aspen I: characterization of PTM1 and PTM2 floral MADS-box genes[J]. Physiology and Molecular Biology of Plants, 2003, 9: 187-196
[3]
Kotoda N, Wada M, Kusaba S, et al. Overexpression of MdMADS5, an APETALA1-like gene of apple, causes early flowering in transgenic Arabidopsis[J]. Plant Science, 2002, 162(5): 679-687
[4]
Pena L, Martín-Trillo M, Juárez J, et al. Constitutive expression of Arabidopsis LEAFY or APETALA1 genes in citrus reduces their generation time[J]. Nature biotechnology, 2001, 19: 263-267
[5]
Coen E S, Carpenter R. The Metamorphosis of Flowers [J]. The Plant Cell, 1993, 5(10):1175-1181
[6]
Ahn J H, Miller D, Winter V J, et al. A divergent external loop confers antagonistic activity on floral regulators FT and TFL1[J]. The EMBO Journal, 2006, 25: 605-614
[7]
Yu H, Ito T, Wellmer F, et al. Repression of AGAMOUS-LIKE 24 is a crucial step in promoting flower development [J]. Nature Genetics, 2004, 36: 157-161
[8]
Bradley D, Ratcliffe O, Vincent C, et al. Inflorescence commitment and architecture in Arabidopsis[J]. Science, 1997, 275(5296): 80-83
[9]
Kobayashi Y, Kaya H, Goto K, et al. A pair of related genes with antagonistic roles in mediating flowering signals[J]. Science, 1999, 286(5446): 1960
[10]
Mohamed R, Wang C T, Ma C, et al. Populus CEN/TFL1 regulates first onset of flowering, axillary meristem identity and dormancy release in Populus[J]. Plant Journal, 2010, 62(4): 674-688
[11]
Parcy F, Nilsson O, Busch M A, et al. A genetic framework for floral patterning[J]. Nature, 1998, 395: 561-566
[12]
Sitaraman J, Bui M, Liu Z. LEUNIG HOMOLOG and LEUNIG perform partially redundant functions during Arabidopsis embryo and floral development [J]. Plant Physiology, 2008, 147(2): 672-681
[13]
Grandi V, Gregis V, Kater M M. Uncovering genetic and molecular interactions among floral meristem identity genes in Arabidopsis thaliana[J]. The Plant Journal, 2012, 69(5): 881-893
[14]
Li D, Liu C, Shen L, et al. A Repressor Complex Governs the Integration of Flowering Signals in Arabidopsis[J]. Developmental Cell, 2008, 15(1): 110-120
[15]
Tilly J J, Allen D W, Jack T. The CArG boxes in the promoter of the Arabidopsis floral organ identity gene APETALA3 mediate diverse regulatory effects [J]. Development, 1998, 125: 1647-1657
[16]
Liu X, Kim Y J, Müller R, et al. AGAMOUS terminates floral stem cell maintenance in Arabidopsis by directly repressing WUSCHEL through recruitment of Polycomb Group proteins [J]. The Plant Cell, 2011, 23(10): 3654-3670
[17]
Qi X L, Jiang Y, Tang F, et al. An Arabidopsis thaliana (Ler) inbred line AFDL exhibiting abnormal flower development mainly caused by reduced AP1 expression[J]. Chinese Science Bulletin, 2011, 56(1): 39-47
Murray M G, Thompson W F. Rapid isolation of high molecular weight plant DNA [J]. Nucleic Acids Research, 1980, 8(19): 4321-4326
[21]
Higo K, Ugawa Y, Iwamoto M, et al. Plant cis-acting regulatory DNA elements (PLACE) database: 1999 [J]. Nucleic Acids Research, 1999, 27(1): 297-300
[22]
Prestridge D S. SIGNAL SCAN: a computer program that scans DNA sequences for eukaryotic transcriptional elements [J]. Computer applications in the biosciences: CABIOS, 1991, 7(2): 203-206
[23]
Clough S J, Bent A F. Flor捡????穰???漠??潭晰??桦???????????楦獯?映汁?牲???档潴?敲?????来????????????学????????????????????び??㈠??????na[J]. The Plant Journal, 1998, 16(6): 735-743
[24]
Cecchetti V, Pomponi M, Altamura M M, et al. Expression of rolB in tobacco flowers affects the coordinated processes of anther dehiscence and style elongation [J]. The Plant Journal, 2004, 38(3): 512-525
[25]
Winter K U, Weiser C, Kaufmann K, et al. Evolution of class B floral homeotic proteins: obligate heterodimerization originated from homodimerization[J]. Molecular Biology and Evolution, 2002, 19(5): 587-596
[26]
Benlloch R, Kim M C, Sayou C, et al. Integrating long-day flowering signals: a LEAFY binding site is essential for proper photoperiodic activation of APETALA1[J]. The Plant Journal, 2011, 67(6): 1094-1102
[27]
Riechmann J L, Krizek B A, Meyerowitz E M. Meyerowitz. Dimerization specificity of Arabidopsis MADS domain homeotic proteins APETALA1, APETALA3, PISTILLATA, and AGAMOUS [J]. Plant Biology, 1996, 93(10): 4793-4798
[28]
Pidal B, Yan L, Fu D, et al. The CArG-Box Located Upstream from the Transcriptional Start of Wheat Vernalization Gene VRN1 Is Not Necessary for the Vernalization Response [J]. Journal of Heredity, 2009, 100(3): 355-364
[29]
Irish V F. The flowering of Arabidopsis flower development [J]. The Plant Journal, 2010, 61(6): 1014-1028
[30]
Smyth D R, Bowman J L, Meyerowitz E M. Early Flower Development in Arabidopsis[J]. The Plant Cell, 1990, 2(8): 755-767
[31]
Bohlenius H, Huang T, Charbonnel-Campaa, et al. CO/FT regulatory module controls timing of flowering and seasonal growth cessation in trees [J]. Science, 2006, 312(5776): 1040
[32]
Hsu C Y, Liu Y, Luthe D S, et al. Poplar FT2 shortens the juvenile phase and promotes seasonal flowering [J]. The Plant Cell, 2006, 18(8): 1846-1861
[33]
Krizek B A, Riechmann J L, Meyerowitz E M. Use of the APETALA1 promoter to assay the in vivo function of chimeric MADS box genes [J]. Sex Plant Report, 1999, 12: 14-26
[34]
Mandel M A, Gustafson-Brown C, Savidge B, et al. Molecular chara
