Add to ORKGWe characterized the distribution of AGAMOUS (AG) RNA during early flower development in Arabidopsis. Mutations in this homeotic gene cause the transformation of stamens to petals in floral whorl 3 and of carpels to another ag flower in floral whorl 4. We found that AG RNA is present in the stamen and carpel primordia but is undetectable in sepal and petal primordia throughout early wild-type flower development, consistent with the mutant phenotype. We also analyzed the distribution of AG RNA in apetela2 (ap2) mutant flowers. AP2 is a floral homeotic gene that is necessary for the normal development of sepals and petals in floral whorls 1 and 2. In ap2 mutant flowers, AG RNA is present in the organ primordia of all floral whorls. These obse...
APETALA2 (AP2) is best known for its function in the outer two floral whorls, where it specifies the...
AbstractThe homeotic gene AGAMOUS (AG) has dual roles in specifying organ fate and limiting stem cel...
AbstractThe first step in flower development is the generation of a floral meristem by the infloresc...
Mutations in the AGAMOUS (AG) gene cause transformations in two adjacent whorls of the Arabidopsis f...
Mutations in the AGAMOUS (AG) gene cause transformations in two adjacent whorls of the Arabidopsis f...
The Arabidopsis floral homeotic gene AGAMOUS (AG) is required for development of the reproductive or...
The Arabidopsis floral homeotic gene AGAMOUS (AG) is a regulator of early flower development. The ag...
The ABC model of flower development explains how three classes of homeotic genes confer identity to ...
We describe the effects of four recessive homeotic mutations that specifically disrupt the developme...
We describe the effects of four recessive homeotic mutations that specifically disrupt the developme...
AbstractThe floral homeotic gene AGAMOUS specifies stamen and carpel fate in the central whorls of A...
Floral organs, whose identity is determined by specific combinations of homeotic genes, originate fr...
Floral organs, whose identity is determined by specific combinations of homeotic genes, originate fr...
APETALA3 (AP3) specifies the development of petals and stamens in the Arabidopsis flower. We constru...
AGL2 is one of several Arabidopsis floral MADS-box genes that were isolated based on sequence simila...
APETALA2 (AP2) is best known for its function in the outer two floral whorls, where it specifies the...
AbstractThe homeotic gene AGAMOUS (AG) has dual roles in specifying organ fate and limiting stem cel...
AbstractThe first step in flower development is the generation of a floral meristem by the infloresc...
Mutations in the AGAMOUS (AG) gene cause transformations in two adjacent whorls of the Arabidopsis f...
Mutations in the AGAMOUS (AG) gene cause transformations in two adjacent whorls of the Arabidopsis f...
The Arabidopsis floral homeotic gene AGAMOUS (AG) is required for development of the reproductive or...
The Arabidopsis floral homeotic gene AGAMOUS (AG) is a regulator of early flower development. The ag...
The ABC model of flower development explains how three classes of homeotic genes confer identity to ...
We describe the effects of four recessive homeotic mutations that specifically disrupt the developme...
We describe the effects of four recessive homeotic mutations that specifically disrupt the developme...
AbstractThe floral homeotic gene AGAMOUS specifies stamen and carpel fate in the central whorls of A...
Floral organs, whose identity is determined by specific combinations of homeotic genes, originate fr...
Floral organs, whose identity is determined by specific combinations of homeotic genes, originate fr...
APETALA3 (AP3) specifies the development of petals and stamens in the Arabidopsis flower. We constru...
AGL2 is one of several Arabidopsis floral MADS-box genes that were isolated based on sequence simila...
APETALA2 (AP2) is best known for its function in the outer two floral whorls, where it specifies the...
AbstractThe homeotic gene AGAMOUS (AG) has dual roles in specifying organ fate and limiting stem cel...
AbstractThe first step in flower development is the generation of a floral meristem by the infloresc...