Insertion and excision of a transposable element governs the red floral phenotype in commercial petunias (original) (raw)
Isolation and characterization of a cDNA clone corresponding to the Rt locus of Petunia hybrida
Timothy Holton, Trevor Stevenson
The Plant Journal, 1994
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Cloning and structural analysis of the anthocyanin pigmentation locus Rt of Petunia hybrida: characterization of insertion sequences in two mutant alleles
Ronald Koes
The Plant Journal, 1994
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Molecular Analysis of the anthocyanin2 Gene of Petunia and Its Role in the Evolution of Flower Color
Francesca Quattrocchio
THE PLANT CELL ONLINE, 1999
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PCR-Based Markers for the Genotype Identification of Flavonoid- 3', 5'-Hydroxylase Genes Governing Floral Anthocyanin Biosynthesis in Commercial Petunias
Hiroaki Kodama
Breeding Science, 2006
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A gene controlling rate of anthocyanin synthesis and mutation frequency of the gene An1 in Petunia hybrida
Steven P.C. Groot
TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik, 1982
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Members of an R2R3-MYB transcription factor family in Petunia are developmentally and environmentally regulated to control complex floral and vegetative pigmentation patterning
Paula E Jameson
The Plant Journal, 2011
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Flower color is mainly derived from anthocyanin
Lùn Cẩm
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MYB and bHLH transcription factor transgenes increase anthocyanin pigmentation in petunia and lisianthus plants, and the petunia phenotypes are strongly enhanced under field conditions
Cathie Martin
Frontiers in plant science, 2014
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Control of Anthocyanin Synthesis in PETUNIA HYBRIDA by Multiple Allelic Series of the Genes An1 and An2
Steven Groot
Genetics, 1984
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Reconstructing Historical Events that Occurred in the Petunia Hf1 Gene, which Governs Anthocyanin Biosynthesis, and Effects of Artificial Selection by Breeding
Hiroaki Kodama
Breeding Science, 2007
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Homology‐based control of gene expression patterns in transgenic petunia flowers
Qiudeng Que, Richard Jorgensen
Developmental Genetics, 1998
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Genetics and Anthocyanin Analysis of Flower Color in Mexican Petunia
Rosanna Freyre
Journal of the American Society for Horticultural Science, 2015
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A Responsive Regulatory System is Revealed by Sense Suppression of Pigment Genes in Petunia Flowers
Richard Jorgensen
Stadler Genetics Symposia Series, 1996
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Double flower formation induced by silencing of C-class MADS-box genes and its variation among petunia Cultivars
Yasutaka Kubo
Scientia Horticulturae, 2014
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The an11 locus controlling flower pigmentation in petunia encodes a novel WD-repeat protein conserved in yeast, plants, and animals
Francesca Quattrocchio, Ronald Koes
Genes & Development, 1997
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Genetic characterisation of Act1, the activator of a non-autonomous transposable element from Petunia hybrida
Henk Huits
Theoretical and Applied Genetics, 1995
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Distinct patterns of pigment suppression are produced by allelic sense and antisense chalcone synthase transgenes in petunia flowers
Qiudeng Que, Richard Jorgensen
Plant Journal, 1998
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Chalcone Synthase Promoters in Petunia Are Active in Pigmented and Unpigmented Cell Types
Francesca Quattrocchio, Ronald Koes
THE PLANT CELL ONLINE, 1990
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Molecular characterization of the rbcS multi-gene family of Petunia (Mitchell)
Peter van Den Elzen
MGG Molecular & General Genetics, 1987
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Introduction of a Chimeric Chalcone Synthase Gene into Petunia Results in Reversible Co-Suppression of Homologous Genes in trans
an tran
Plant Cell, 1990
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The FT-like gene PehFT in petunia responds to photoperiod and light quality but is not the main gene promoting light quality-associated flowering
Jorunn E Olsen
Plant Biotechnology, 2016
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Genetic control of anthocyanin pigmentation in Antirrhinum flowers
tanyarat khongkhuntian
2012
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Flavonoid Genes in Petunia: Addition of a Limited Number of Gene Copies May Lead to a Suppression of Gene Expression
Alexander Pulido-Rojano
Plant Cell, 1990
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A petunia MADS box gene involved in the transition from vegetative to reproductive development
D. Hannapel
Development (Cambridge, England), 1999
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Regulation of anthocyanin biosynthesis involved in the formation of marginal picotee petals in Petunia
M. Nakayama, Kazuyuki Kuchitsu
Plant Science, 2006
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Targeted gene inactivation in petunia by PCR-based selection of transposon insertion mutants
T. Maes, Francesca Quattrocchio, Ronald Koes
Proceedings of the National Academy of Sciences, 1995
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Analysis of expressed sequence tags from Petunia flowers
Katsuyoshi Shimamura
Plant Science, 2007
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Control of Pigment Biosynthesis Genes during Petal Development
Cathie Martin
THE PLANT CELL ONLINE, 1993
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The FT-like gene PehFT in petunia responds to photoperiod and light quality but is not the main gene promoting light quality-associated flowering
Masahiro Mii
Plant Biotechnology, 2016
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Cloning and Characterization of Prunus serotina AGAMOUS, a Putative Flower Homeotic Gene
Joseph Anderson
Plant Molecular Biology Reporter, 2010
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Rol (root loci) gene as a positive selection marker to produce marker-free Petunia hybrida
Raham S Khan
Plant Cell, Tissue and Organ Culture (PCTOC), 2010
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Analyse comparative fonctionnelle des gènes WOX impliqués dans le développement de la fleur chez Petunia et Arabidopsis
Enrico Costanzo
2015
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Implicación de los genes de la familia RAV en el desarrollo floral
ANDREA ELIZABETH
2016
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white anther: A petunia mutant that abolishes pollen flavonol accumulation, induces male sterility, and is complemented by a chalcone synthase transgene
Loverine Taylor
Plant physiology, 1999
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The Petunia Ortholog of Arabidopsis SUPERMAN Plays a Distinct Role in Floral Organ Morphogenesis
Hiroshi Takatsuji
THE PLANT CELL ONLINE, 2004
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