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Flower development of Lilium longiflorum - The Lilium information ...

Flower development of Lilium longiflorum - The Lilium information ...

Chapter 2 Clough SJ,

Chapter 2 Clough SJ, Bent AF (1998) Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana. Plant J 16: 735-743 Coen ES, Meyerowitz EM (1991) The war of the whorls: genetic interactions controlling flower development. Nature 353: 31-37 Colombo L, Franken J, Koetje E, van Went J, Dons HJ, Angenent GC, van Tunen AJ (1995) The Petunia MADS-box gene FBP11 determines ovule identity. Plant Cell 7: 1859-1868 Davies B, Motte P, Keck E, Saedler H, Sommer H, Schwarz-Sommer Z (1999) PLENA and FARINELLI: redundancy and regulatory interactions between two Antirrhinum MADSbox factors controlling flower development. EMBO J 18: 4023-4034 Egea-Cortines M, Saedler H, Sommer H (1999) Ternary complex formation between the MADS-box proteins SQUAMOSA, DEFICIENS and GLOBOSA is involved in the control of floral architecture in Antirrhinum majus. EMBO J 18: 5370-5379 Favaro R, Immink RGH, Ferioli V, Bernasconi B, Byzova M, Angenent GC, Kater M, Colombo L (2002) Ovule-specific MADS-box proteins have conserved protein-protein interactions in monocot and dicot plants. Mol Genet Genomics 268: 152-159 Ferrario S, Immink RGH, Shchennikova A, Busscher-Lange J, Angenent GC (2003) The MADS box gene FBP2 is required for SEPALLATA function in petunia. Plant Cell 15: 914-925 Franks R, Wang C, Levin JZ, Liu Z (2002) SEUSS, a member of a novel family of plant regulatory proteins, represses floral homeotic gene expression with LEUNIG. Development 129: 253-263 Honma T, Goto K (2001) Complexes of MADS-box proteins are sufficient to convert leaves into floral organs. Nature 409: 525-529 Hsu HF, Yang CH (2002) An orchid (Oncidium Gower Ramsey) AP3-like MADS gene regulates floral formation and initiation. Plant Cell Physiol 43: 1198-1209 Huang H, Mizukami Y, Hu Y, Ma H (1993) Isolation and characterization of the binding sequences for the product of the Arabidopsis floral homeotic gene AGAMOUS. Nucleic Acids Res 21: 4769-4776 Immink RGH, Angenent GC (2002) Transcription factors do it together: the hows and whys of studying protein-protein interactions. Trends Plant Sci 7: 531-534 Kater MM, Colombo L, Franken J, Busscher M, Masiero S, Campagne MML, Angenent GC (1998) Multiple AGAMOUS homologs from cucumber and petunia differ in their ability to induce reproductive organ fate. Plant Cell 10: 171-182 Kitahara K, Matsumoto S (2000) Rose MADS-box genes ‘MASAKO C1 and D1’ homologous to class C floral identity genes. Plant Sci 151: 121-134 Kitahara K, Hirai S, Fukui H, Matsumoto S (2001). Rose MADS-box genes ‘MASAKO BP and B3’ homologous to class B floral identity genes. Plant Sci 161: 549-557 Kotilainen M, Elomaa P, Uimari A, Albert VA, Yu D, Teeri TH (2000) GRCD1, and AGL2-like MADS box gene, participates in the C function during stamen development in Gerbera hybrida. Plant Cell 12: 1893-1902 30

Characterisation of LLAG1 in Arabidopsis Li QZ, Li XG, Bai SN, Lu WL, Zhang XS (2002) Isolation of HAG1 and its regulation by plant hormones during in vitro floral organogenesis in Hyacinthus orientalis L. Planta 215: 533-540 Lu ZX, Wu M, Loh CS, Yeong CY, Goh CJ (1993) Nucleotide sequence of a flower-specific MADS box cDNA clone from orchid. Plant Mol Biol 23: 901-904 Mattanovich D, Rüker F, Machado AC, Laimer M, Regner F, Steinkellner H, Himmler G, Katinger H (1989) Efficient transformation of Agrobacterium spp. by electroporation. Nucleic Acids Res 17: 6747 Mizukami Y, Ma H (1992) Ectopic expression of the floral homeotic gene AGAMOUS in transgenic Arabidopsis plants alters floral organ identity. Cell 71: 119-131 Murashige T, Skoog F (1962) A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol Plantarum 15: 473-479 Ng M, Yanofsky MF (2001) Function and evolution of the plant MADS-box gene family. Nat Rev Genet 2: 186-195 Page RDM (1996) TREEVIEW: an application to display phylogenetic trees on personal computers. Comput Appl Biosci 12: 357-358 Pelaz S, Ditta GS, Baumann E, Wisman E, Yanofsky MF (2000) B and C floral organ identity require SEPALLATA MADS-box genes. Nature 405: 200-203 Pelaz S, Tapia-López R, Alvarez-Buylla ER, Yanofsky MF (2001) Conversion of leaves into petals in Arabidopsis. Curr Biol 11: 182-184 Pollock R, Treisman R (1991) Human SRF-related proteins: DNA-binding properties and potential regulatory targets. Gene Dev 5: 2327-2341 Purugganan MD (1997) The MADS-box floral homeotic gene lineages predate the origin of seed plants: phylogenetic and molecular clock estimates. J Mol Evol 45: 392-396 Riechmann JL, Meyerowitz EM (1997) MADS domain proteins in plant development. Biol Chem 378: 1079-1101 Rigola D, Pè ME, Fabrizio C, Mè G, Sari-Gorla M (1998) CaMADS1, a MADS box gene expressed in the carpel of hazelnut. Plant Mol Biol 38: 1147-1160 Rigola D, Pè ME, Mizzi L, Ciampolini F, Sari-Gorla M (2001) CaMADS1, an AGAMOUS homologue from hazelnut, produces floral homeotic conversion when expressed in Arabidopsis. Sex Plant Reprod 13: 185-191 Roeder AHL, Yanofsky MF (2001) Unraveling the mystery of double flowers. Dev Cell 1: 4- 6 Rutledge R, Regan S, Nicolas O, Fobert P, Côté C, Bosnich W, Kauffeldt C, Sunohara G, Séguin A, Stewart D (1998) Characterization of an AGAMOUS homologue from the conifer black spruce (Picea mariana) that produces floral homeotic conversions when expressed in Arabidopsis. Plant J 15: 625-634 Schwarz-Sommer Z, Huijser P, Nacken W, Saedler H, Sommer H (1990) Genetic control of flower development by homeotic genes in Antirrhinum majus. Science 250: 931-936 Shore P, Sharrocks AD (1995) The MADS-box family of transcription factors. Eur J Biochem 229: 1-13 Theissen G, Saedler H (2001) Floral quartets. Nature 409: 469-471 31

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