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(1990)
Citrus flowering
J. Jeon, Sichul Lee, K. Jung, S. Jun, Chanhong Kim, G. An (2000)
Tissue-Preferential Expression of a Rice α-Tubulin Gene,OsTubA1, Mediated by the First IntronPlant Physiology, 123
Hao Yu, Toshiro Ito, F. Wellmer, E. Meyerowitz (2004)
Repression of AGAMOUS-LIKE 24 is a crucial step in promoting flower developmentNature Genetics, 36
EM Brill, JM Watson (2004)
Ectopic expression of a Eucalyptus grandis SVP orthologue alters the flowering time of Arabidopsis thalianaFunct Plant Biol, 31
S. Clough, A. Bent (1998)
Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana.The Plant journal : for cell and molecular biology, 16 6
Jeong Lee, S. Park, Jong Lee, J. Ahn (2007)
A conserved role of SHORT VEGETATIVE PHASE (SVP) in controlling flowering time of Brassica plants.Biochimica et biophysica acta, 1769 7-8
V. Gregis, Alice Sessa, L. Colombo, M. Kater (2006)
AGL24, SHORT VEGETATIVE PHASE, and APETALA1 Redundantly Control AGAMOUS during Early Stages of Flower Development in Arabidopsis[W]The Plant Cell Online, 18
S. Masiero, Mingai Li, Isa Will, Ulrike Hartmann, H. Saedler, P. Huijser, Z. Schwarz‐Sommer, H. Sommer (2004)
INCOMPOSITA: a MADS-box gene controlling prophyll development and floral meristem identity in Antirrhinum, 131
T. Laux, Klaus Mayer, Jürgen Berger, G. Jürgens (1996)
The WUSCHEL gene is required for shoot and floral meristem integrity in Arabidopsis.Development, 122 1
Dan Li, Chang Liu, Lisha Shen, Yang Wu, Hongyan Chen, M. Robertson, C. Helliwell, Toshiro Ito, E. Meyerowitz, Hao Yu (2008)
A repressor complex governs the integration of flowering signals in Arabidopsis.Developmental cell, 15 1
S. Pelaz, C. Gustafson-Brown, S. Kohalmi, William Crosby, M. Yanofsky (2001)
APETALA1 and SEPALLATA3 interact to promote flower development.The Plant journal : for cell and molecular biology, 26 4
G. Schmitz, E. Tillmann, F. Carriero, Carola Fiore, F. Cellini, K. Theres (2002)
The tomato Blind gene encodes a MYB transcription factor that controls the formation of lateral meristemsProceedings of the National Academy of Sciences of the United States of America, 99
Hassan Salehi, C. Ransom, H. Oraby, Z. Seddighi, M. Sticklen (2005)
Delay in flowering and increase in biomass of transgenic tobacco expressing the Arabidopsis floral repressor gene FLOWERING LOCUS C.Journal of plant physiology, 162 6
Chang Liu, Jing Zhou, Keren Bracha-Drori, S. Yalovsky, Toshiro Ito, Hao Yu (2007)
Specification of Arabidopsis floral meristem identity by repression of flowering time genes, 134
S. Jiménez, A. Lawton-Rauh, G. Reighard, A. Abbott, D. Bielenberg (2009)
Phylogenetic analysis and molecular evolution of the dormancy associated MADS-box genes from peachBMC Plant Biology, 9
M. Cervera, L. Navarro, L. Peña (2009)
Gene stacking in 1-year-cycling APETALA1 citrus plants for a rapid evaluation of transgenic traits in reproductive tissues.Journal of biotechnology, 140 3-4
A. Prakash, Prakash Kumar (2002)
PkMADS1 is a novel MADS box gene regulating adventitious shoot induction and vegetative shoot development in Paulownia kawakamii.The Plant journal : for cell and molecular biology, 29 2
(2005)
Comprehensive interaction map
(2009)
Phylogenetic analysis and molecular evolution of the dormancy associated MADSbox genes from peach
(2009)
Gene stacking in 1-year
Jinzhi Zhang, Zhi-min Li, Li Liu, L. Mei, Jialing Yao, Chun-Gen Hu (2008)
Identification of early-flower-related ESTs in an early-flowering mutant of trifoliate orange (Poncirus trifoliata) by suppression subtractive hybridization and macroarray analysis.Tree physiology, 28 10
E. Álvarez-Buylla (2005)
Faculty Opinions recommendation of Comprehensive interaction map of the Arabidopsis MADS Box transcription factors.
Xiaohan Yang, U. Kalluri, Sara Jawdy, L. Gunter, T. Yin, T. Tschaplinski, D. Weston, P. Ranjan, G. Tuskan (2008)
The F-Box Gene Family Is Expanded in Herbaceous Annual Plants Relative to Woody Perennial Plants1[W][OA]Plant Physiology, 148
(2000)
Tissuepreferential expression of a rice
Elizabeth Brill, J. Watson (2004)
Ectopic expression of a Eucalyptus grandis SVP orthologue alters the flowering time of Arabidopsis thaliana.Functional plant biology : FPB, 31 3
Young-Min Jeong, J. Mun, Ilha Lee, Je-Chang Woo, C. Hong, Sang-Gu Kim (2005)
Distinct Roles of the First Introns on the Expression of Arabidopsis Profilin Gene Family Members1Plant Physiology, 140
Fui-Ching Tan, S. Swain (2007)
Functional characterization of AP3, SOC1 and WUS homologues from citrus (Citrus sinensis).Physiologia plantarum, 131 3
M. Dornelas, R. Camargo, L.H.M. Figueiredo, M. Takita (2007)
A genetic framework for flowering-time pathways in Citrus spp.Genetics and Molecular Biology, 30
S. Folter, R. Immink, M. Kieffer, L. Pařenicová, Stefan Henz, D. Weigel, M. Busscher, M. Kooiker, L. Colombo, M. Kater, B. Davies, G. Angenent (2005)
Comprehensive Interaction Map of the Arabidopsis MADS Box Transcription Factorsw⃞The Plant Cell Online, 17
R. Meilan (1997)
Floral induction in woody angiospermsNew Forests, 14
Miguel Blázquez (2000)
Flower development pathways.Journal of cell science, 113 ( Pt 20)
(1998)
Floral dip: a simplified method
L. Pillitteri, C. Lovatt, L. Walling (2004)
Isolation and Characterization of LEAFY and APETALA1 Homologues from Citrus sinensis L. Osbeck `Washington'Journal of the American Society for Horticultural Science, 129
Ulrike Hartmann, S. Höhmann, Klaus Nettesheim, E. Wisman, H. Saedler, P. Huijser (2000)
Molecular cloning of SVP: a negative regulator of the floral transition in Arabidopsis.The Plant journal : for cell and molecular biology, 21 4
M. Koornneef, C. Alonso‐Blanco, A. Peeters, W. Soppe (1998)
GENETIC CONTROL OF FLOWERING TIME IN ARABIDOPSIS.Annual review of plant physiology and plant molecular biology, 49
M. Kikuchi, T. Miki, T. Kumagai, T. Fukuda, R. Kamiyama, N. Miyasaka, S. Hirosawa (2000)
Identification of negative regulatory regions within the first exon and intron of the BCL6 geneOncogene, 19
S. Fujiwara, A. Oda, H. Kamada, G. Coupland, T. Mizoguchi (2005)
Circadian clock components in Arabidopsis II. LHY/CCA1 regulate the floral integrator gene SOC1 in both GI-dependent and -independent pathwaysPlant Biotechnology, 22
MA Blázquez (2005)
The right time and place for making flowersScience, 309
T. Endo, T. Shimada, H. Fujii, Yasushi Kobayashi, T. Araki, M. Omura (2005)
Ectopic Expression of an FT Homolog from Citrus Confers an Early Flowering Phenotype on Trifoliate Orange (Poncirus trifoliata L. Raf.)Transgenic Research, 14
(1999)
Precocious trifoliate orange
M. Kinkema, Weihua Fan, Xinnian Dong (2000)
Nuclear Localization of NPR1 Is Required for Activation of PR Gene ExpressionPlant Cell, 12
A. Telfer, Krista Bollman, R. Poethig (1997)
Phase change and the regulation of trichome distribution in Arabidopsis thaliana.Development, 124 3
(2007)
A conserved role
Jialing Yao, Yun Zhou, Chun-Gen Hu (2007)
Apomixis in Eulaliopsis binata: characterization of reproductive mode and endosperm developmentSexual Plant Reproduction, 20
V. Gregis, Alice Sessa, L. Colombo, M. Kater (2008)
AGAMOUS-LIKE24 and SHORT VEGETATIVE PHASE determine floral meristem identity in Arabidopsis.The Plant journal : for cell and molecular biology, 56 6
B. Trevaskis, M. Tadege, M. Hemming, W. Peacock, Elizabeth Dennis, C. Sheldon (2006)
Short Vegetative Phase-Like MADS-Box Genes Inhibit Floral Meristem Identity in Barley1[W][OA]Plant Physiology, 143
N. Sentoku, H. Kato, H. Kitano, R. Imai (2005)
OsMADS22, an STMADS11-like MADS-box gene of rice, is expressed in non-vegetative tissues and its ectopic expression induces spikelet meristem indeterminacyMolecular Genetics and Genomics, 273
(2000)
Identification of negative regulatory
Jinzhi Zhang, Zhi-min Li, Jialing Yao, Chun-Gen Hu (2009)
Identification of flowering-related genes between early flowering trifoliate orange mutant and wild-type trifoliate orange (Poncirus trifoliata L. Raf.) by suppression subtraction hybridization (SSH) and macroarray.Gene, 430 1-2
Mar Martín-Trillo, J. Martínez-Zapater (2002)
Growing up fast: manipulating the generation time of trees.Current opinion in biotechnology, 13 2
(2008)
A repressor complex governs
J. Wilkie, M. Sedgley, T. Olesen (2008)
Regulation of floral initiation in horticultural trees.Journal of experimental botany, 59 12
L. Mazzitelli, R. Hancock, S. Haupt, P. Walker, S. Pont, J. McNicol, L. Cardle, Jenny Morris, R. Viola, R. Brennan, P. Hedley, M. Taylor (2007)
Co-ordinated gene expression during phases of dormancy release in raspberry (Rubus idaeus L.) buds.Journal of experimental botany, 58 5
(1999)
Precocious trifoliate orange ( Poncirus trifoliata L . Raf . ) biology characteristic and its stock experiment
Jeong Lee, Seong Yoo, S. Park, Ildoo Hwang, Jong Lee, J. Ahn (2007)
Role of SVP in the control of flowering time by ambient temperature in Arabidopsis.Genes & development, 21 4
M. Blázquez (2005)
PLANT SCIENCE: Enhanced: The Right Time and Place for Making FlowersScience, 309
A MADS-box gene was isolated using the suppressive subtractive hybridization library between early-flowering mutant and wild-type trifoliate orange (Poncirus trifoliata L. Raf.). This gene is highly homologous with Arabidopsis SHORT VEGETATIVE PHASE (SVP). Based on real-time PCR and in situ hybridization during bud differentiation, PtSVP was expressed intensively in dormant tissue and vegetative meristems. PtSVP transcripts were detected in apical meristems before floral transition, then down-regulated during the transition. PtSVP expression was higher in differentiated (flower primordium) than in undifferentiated cells (apical meristems). The PtSVP expression pattern during apical meristem determination suggested that its function is not to depress flower initiation but to maintain meristem development. Transcription of PtSVP in Arabidopsis svp-41 showed partially rescued SVP function. Ectopic overexpression of PtSVP in wild-type Arabidopsis induced late flowering similar to the phenotypes induced by other SVP/StMADS-11-like genes, but transformants produced additional trichomes and floral defects, such as flower-like structures instead of carpels. Ectopic expression of PtSVP in tobacco also caused additional florets. Overexpression of PtSVP in tobacco inhibited early transition of the coflorescence and prolonged coflorescence development, thus causing additional florets at the later stage. A yeast two-hybrid assay indicated that PtSVP significantly interacted with PtAP1, a homolog of Arabidopsis APETALA1 (AP1). These findings suggest that citrus SVP homolog genes are involved in flowering time regulation and may influence inflorescence meristem identity in some conditions or genetic backgrounds. SVP homologs might have evolved among plant species, but the protein functions are conserved between Arabidopsis and citrus.
Plant Molecular Biology – Springer Journals
Published: Jul 3, 2010
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