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

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

Chapter 1 Kramer EM,

Chapter 1 Kramer EM, Irish VF (2000) Evolution of the petal and stamen developmental programs: evidence from comparative studies of the lower eudicots and basal angiosperms. Int J Plant Sci 161: S29-S40 Kumagai MH, Donson J, Della-Cioppa G, Harvey D, Hanley K, Grill LK (1995) Cytoplasmic inhibition of carotenoid biosynthesis with virus-derived RNA. Proc Natl Acad Sci 92: 1679-1683 Kyozuka J, Kobayashi T, Morita M, Shimamoto K (2000) Spatially and temporally regulated expression of rice MADS box genes with similarity to Arabidopsis class A, B and C genes. Plant Cell Physiol 41: 710-718 Langeveld SA, Gerrits MM, Derks AFLM, Boonekamp PM, Bol JF (1995) Transformation of lily by Agrobacterium. Euphytica 85: 97-100 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 Liu Y, Schiff M, Dinesh-Kumar SP (2002a) Virus-induced gene silencing in tomato. Plant J 31: 777-786 Liu Y, Schiff M, Marathe R, Dinesh-Kumar SP (2002b) Tobacco Rar1, EDS1 and NPR1/NIM1 like genes are required for N-mediated resistance to tobacco mosaic virus. Plant J 30: 415-429 Mercuri A, Benedetti LD, Bruna S, Bregliano R, Bianchini C, Foglia G, Schiva T (2003) Agrobacterium-mediated transformation with ROL genes of Lilium longiflorum Thunb. Acta Hort 612: 129-136 Mori T, Tanaka I (2000) Isolation of the ftsZ gene from plastid-deficient generative cells of Lilium longiflorum. Protoplasma 214: 57-64 Mousavi A, Hiratsuka R, Takase H, Hiratsuka K, Hotta Y (1999) A novel glycine-rich protein is associated with starch grain accumulation during anther development. Plant Cell Physiol 40: 406-416 Parenicová L, de Folter S, Kieffer M, Horner DS, Favalli C, Busscher J, Cook HE, Ingram RM, Kater MM, Davies B, Angenent GC, Colombo L (2003) Molecular and phylogenetic analyses of the complete MADS-box transcription factor family in Arabidopsis: new openings to the MADS world. Plant Cell 15: 1538-1551 Peele C, Jordan CV, Muangsan N, Turnage M, Egelkrout E, Eagle P, Hanley-Bowdoin L, Robertson D (2001) Silencing of a meristem gene using geminivirus-derived vectors. Plant J 27: 357-366 Pelaz S, Ditta GS, Baumann E, Wisman E, Yanofsky MF (2000) B and C floral organ identity functions 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 Poovaiah BW, Xia M, Liu ZH, Wang WY, Yang TB, Sathyanarayanan PV, Franceschi VR (1999) Developmental regulation of the gene for chimeric calcium/calmodulindependent protein kinase in anthers. Planta 209: 161-171 Purugganan MD, Rounsley SD, Schmidt RJ, Yanofsky MF (1995) Molecular evolution of flower development: diversification of the plant MADS-box regulatory gene family. Genetics 140: 345-356 Ratcliff F, Harrison BD, Baulcombe DC (1997) A similarity between viral defense and gene silencing in plants. Science 276: 1558-1560 12

Introduction Ratcliff F, Martin-Hernandez AM, Baulcombe DC (2001) Tobacco rattle virus as a vector for analysis of gene function by silencing. Plant J 25: 237-245 Riechmann JL, Wang M, Meyerowitz EM (1996) DNA-binding properties of Arabidopsis MADS domain homeotic proteins APETALA1, APETALA3, PISTILLATA and AGAMOUS. Nucleic Acids Res 24: 3134-3141 Ruiz MT, Voinnet O, Baulcombe DC (1998) Initiation and maintenance of virus-induced gene silencing. Plant Cell 10: 937-946 Sablowski RWM, Meyerowitz EM (1998) A homolog of NO APICAL MERISTEM is an immediate target of the floral homeotic genes APETALA3/PISTILLATA. Cell 92: 93-103 Schneuwly S, Klemenz R, Gehring WJ (1987) Redesigning the body plan of Drosophila by ectopic expression of the homoeotic gene Antennapedia. Nature 325: 816-818 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 Scutt CP, Vinauger-Douard M, Fourquin C, Ailhas J, Kuno N, Uchida K, Gaude T, Furuya M, Dumas C (2003) The identification of candidate genes for a reverse genetic analysis of development and function in the Arabidopsis gynoecium. Plant Physiol 132: 653-665 Singh MB, Xu HL, Bhalla PL, Zhang ZJ, Swoboda I, Russell SD (2002) Developmental expression of polyubiquitin genes and distribution of ubiquitinated proteins in generative and sperm cells. Sex Plant Reprod 14: 325-329 Tang G, Reinhard BJ, Bartel DP, Zamore PD (2003) A biochemical framework for RNA silencing in plants. Gene Dev 17: 49-63 Theissen G (2001) Development of floral organ identity: stories from the MADS house. Curr Opin Plant Biol 4: 75-85 Theissen G, Becker A, Rosa AD, Kanno A, Kim JT, Münster T, Winter K-U, Saedler H (2000) A short history of MADS-box genes in plants. Plant Mol Biol 42: 115-149 Treisman R (1990) The SRE: a growth factor responsive transcriptional regulator. Semin Cancer Biol 1: 47-58 Tijsterman M, Ketting RF, Plasterk RHA (2002) The genetics of RNA silencing. Annu Rev Genet 36: 489-519 Turnage MA, Muangsan N, Peele CG, Robertson D (2002) Geminivirus-based vectors for gene silencing in Arabidopsis. Plant J 30: 107-114 Tzeng T-Y, Chen H-Y, Yang C-H (2002) Ectopic expression of carpel-specific MADS box genes from lily and lisianthus causes similar homeotic conversion of sepal and petal in Arabidopsis. Plant Physiol 130: 1827-1836 Tzeng T-Y, Yang C-H (2001) A MADS-box gene from lily (Lilium longiflorum) is sufficient to generate dominant negative mutation by interacting with PISTILLATA (PI) in Arabidopsis thaliana. Plant Cell Physiol 42: 1156-1168 van der Leede-Plegt LM, Kronenburg van der Ven BCE, Franken J, van Tuyl JM, van Tunen AJ, Dons HJM (1997) Transgenic lilies via pollen-mediated transformation. Acta Hort 430: 529-530 van Tunen AJ, Angenent GC (1993) Floral organogenesis in Tulipa. Flowering Newsletter 16: 33-37 Wang CS, Wu TD, Chung CK, Lord EM (1996) Two classes of pollen-specific, heat-stable proteins in Lilium longiflorum. Physiol Plantarum 97: 643-650 13

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