Published in Dev Genes Evol on December 24, 2011
The double-corolla phenotype in the Hawaiian lobelioid genus Clermontia involves ectopic expression of PISTILLATA B-function MADS box gene homologs. Evodevo (2012) 0.82
Functional recapitulation of transitions in sexual systems by homeosis during the evolution of dioecy in Thalictrum. Front Plant Sci (2013) 0.79
Flower Development and Perianth Identity Candidate Genes in the Basal Angiosperm Aristolochia fimbriata (Piperales: Aristolochiaceae). Front Plant Sci (2015) 0.76
Optical sectioning and 3D reconstructions as an alternative to scanning electron microscopy for analysis of cell shape. Appl Plant Sci (2015) 0.75
MUSCLE: multiple sequence alignment with high accuracy and high throughput. Nucleic Acids Res (2004) 168.89
MrBayes 3: Bayesian phylogenetic inference under mixed models. Bioinformatics (2003) 130.85
MRBAYES: Bayesian inference of phylogenetic trees. Bioinformatics (2001) 101.31
Genes directing flower development in Arabidopsis. Plant Cell (1989) 11.56
The war of the whorls: genetic interactions controlling flower development. Nature (1991) 11.15
Genetic interactions among floral homeotic genes of Arabidopsis. Development (1991) 10.67
The homeotic gene APETALA3 of Arabidopsis thaliana encodes a MADS box and is expressed in petals and stamens. Cell (1992) 7.70
Genetic Control of Flower Development by Homeotic Genes in Antirrhinum majus. Science (1990) 7.30
Deficiens, a homeotic gene involved in the control of flower morphogenesis in Antirrhinum majus: the protein shows homology to transcription factors. EMBO J (1990) 5.19
Function and regulation of the Arabidopsis floral homeotic gene PISTILLATA. Genes Dev (1994) 4.36
GLOBOSA: a homeotic gene which interacts with DEFICIENS in the control of Antirrhinum floral organogenesis. EMBO J (1992) 3.61
Flower colour intensity depends on specialized cell shape controlled by a Myb-related transcription factor. Nature (1994) 3.13
Floral homeotic mutations produced by transposon-mutagenesis in Antirrhinum majus. Genes Dev (1990) 2.97
The Arabidopsis homeotic genes APETALA3 and PISTILLATA are sufficient to provide the B class organ identity function. Development (1996) 2.67
Molecular and genetic analyses of the silky1 gene reveal conservation in floral organ specification between eudicots and monocots. Mol Cell (2000) 2.09
Conical epidermal cells allow bees to grip flowers and increase foraging efficiency. Curr Biol (2009) 1.94
Bird-pollinated flowers in an evolutionary and molecular context. J Exp Bot (2008) 1.59
The K domain mediates heterodimerization of the Arabidopsis floral organ identity proteins, APETALA3 and PISTILLATA. Plant J (2003) 1.58
Conservation of B-class floral homeotic gene function between maize and Arabidopsis. Development (2004) 1.55
The duplicated B-class heterodimer model: whorl-specific effects and complex genetic interactions in Petunia hybrida flower development. Plant Cell (2004) 1.51
Identification of class B and class C floral organ identity genes from rice plants. Plant Mol Biol (1998) 1.41
Elaboration of B gene function to include the identity of novel floral organs in the lower eudicot Aquilegia. Plant Cell (2007) 1.36
Heterotopic expression of class B floral homeotic genes supports a modified ABC model for tulip (Tulipa gesneriana). Plant Mol Biol (2003) 1.36
Development of three different cell types is associated with the activity of a specific MYB transcription factor in the ventral petal of Antirrhinum majus flowers. Development (2004) 1.29
Functional analyses of two tomato APETALA3 genes demonstrate diversification in their roles in regulating floral development. Plant Cell (2006) 1.29
Convergence, constraint and the role of gene expression during adaptive radiation: floral anthocyanins in Aquilegia. Mol Ecol (2006) 1.27
Virus induced gene silencing of a DEFICIENS ortholog in Nicotiana benthamiana. Plant Mol Biol (2004) 1.27
Molecular and phylogenetic analyses of the MADS-box gene family in tomato. Mol Biol Evol (2006) 1.26
Ectopic expression of rice OsMADS1 reveals a role in specifying the lemma and palea, grass floral organs analogous to sepals. Dev Genes Evol (2001) 1.23
The ABC model and the diversification of floral organ identity. Semin Cell Dev Biol (2009) 1.19
Analysis of the Petunia TM6 MADS box gene reveals functional divergence within the DEF/AP3 lineage. Plant Cell (2006) 1.15
Are petals sterile stamens or bracts? The origin and evolution of petals in the core eudicots. Ann Bot (2007) 1.13
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 (2001) 1.12
Functional analyses of genetic pathways controlling petal specification in poppy. Development (2007) 1.09
Conservation and divergence of APETALA1/FRUITFULL-like gene function in grasses: evidence from gene expression analyses. Plant J (2007) 1.08
Genealogical evidence of homoploid hybrid speciation in an adaptive radiation of Scaevola (goodeniaceae) in the Hawaiian Islands. Evolution (2005) 1.06
Petaloidy and petal identity MADS-box genes in the balsaminoid genera Impatiens and Marcgravia. Plant J (2006) 1.00
Evolution of petal identity. J Exp Bot (2009) 0.99
Functional analysis of the rice AP3 homologue OsMADS16 by RNA interference. Plant Mol Biol (2003) 0.99
Expression of AODEF, a B-functional MADS-box gene, in stamens and inner tepals of the dioecious species Asparagus officinalis L. Plant Mol Biol (2003) 0.96
Molecular evolution of the petal and stamen identity genes, APETALA3 and PISTILLATA, after petal loss in the Piperales. Mol Phylogenet Evol (2007) 0.95
Double-stranded RNA interference of a rice PI/GLO paralog, OsMADS2, uncovers its second-whorl-specific function in floral organ patterning. Genetics (2003) 0.94
One size fits all? Molecular evidence for a commonly inherited petal identity program in Ranunculales. Am J Bot (2008) 0.94
Functional characterization of B class MADS-box transcription factors in Gerbera hybrida. J Exp Bot (2010) 0.94
APETALA3 and PISTILLATA homologs exhibit novel expression patterns in the unique perianth of Aristolochia (Aristolochiaceae). Evol Dev (2004) 0.94
An ortholog of MIXTA-like2 controls epidermal cell shape in flowers of Thalictrum. New Phytol (2009) 0.93
Two GLOBOSA-like genes are expressed in second and third whorls of homochlamydeous flowers in Asparagus officinalis L. Plant Cell Physiol (2004) 0.91
Petal-specific subfunctionalization of an APETALA3 paralog in the Ranunculales and its implications for petal evolution. New Phytol (2011) 0.91
The modified ABC model explains the development of the petaloid perianth of Agapanthus praecox ssp. orientalis (Agapanthaceae) flowers. Plant Mol Biol (2005) 0.90
Floral variation and floral genetics in basal angiosperms. Am J Bot (2009) 0.89
Molecular evolution of PISTILLATA-like genes in the dogwood genus Cornus (Cornaceae). Mol Phylogenet Evol (2008) 0.83
'Living stones' reveal alternative petal identity programs within the core eudicots. Plant J (2011) 0.80
'Who's who' in two different flower types of Calluna vulgaris (Ericaceae): morphological and molecular analyses of flower organ identity. BMC Plant Biol (2009) 0.80
More is better: the uses of developmental genetic data to reconstruct perianth evolution. Am J Bot (2008) 0.79
Differential regulation of a MYB transcription factor is correlated with transgenerational epigenetic inheritance of trichome density in Mimulus guttatus. New Phytol (2011) 1.79
Developmental genetics of floral symmetry evolution. Trends Plant Sci (2009) 1.25
Functional analyses of genetic pathways controlling petal specification in poppy. Development (2007) 1.09
Functional Evolution in the Plant SQUAMOSA-PROMOTER BINDING PROTEIN-LIKE (SPL) Gene Family. Front Plant Sci (2013) 1.02
Conservation and diversification of the symmetry developmental program among close relatives of snapdragon with divergent floral morphologies. New Phytol (2009) 0.99
Gradual disintegration of the floral symmetry gene network is implicated in the evolution of a wind-pollination syndrome. Proc Natl Acad Sci U S A (2011) 0.98
SQUAMOSA-PROMOTER BINDING PROTEIN 1 initiates flowering in Antirrhinum majus through the activation of meristem identity genes. Plant J (2010) 0.95
Reduce, reuse, and recycle: developmental evolution of trait diversification. Am J Bot (2011) 0.89
Evolutionary analysis of the MIXTA gene family highlights potential targets for the study of cellular differentiation. Mol Biol Evol (2012) 0.86
Parallel evolution of TCP and B-class genes in Commelinaceae flower bilateral symmetry. Evodevo (2012) 0.84
Evolution of GCYC, a Gesneriaceae homolog of CYCLOIDEA, within Gesnerioideae (Gesneriaceae). Mol Phylogenet Evol (2004) 0.83
Patterns of shoot architecture in locally adapted populations are linked to intraspecific differences in gene regulation. New Phytol (2012) 0.82
Gene expression plasticity resulting from parental leaf damage in Mimulus guttatus. New Phytol (2014) 0.77