Add to ORKGMutations in the AGAMOUS (AG) gene cause transformations in two adjacent whorls of the Arabidopsis flower. Petals develop in the third floral whorl rather than the normal stamens, and the cells that would normally develop into the fourth whorl gynoecium behave as if they constituted an ag flower primordium. Early in flower development, AG RNA is evenly distributed throughout third and fourth whorl organ primordia but is not present in the organ primordia of whorls one and two. In contrast to the early expression pattern, later in flower development, AG RNA is restricted to specific cell types within the stamens and carpels as cellular differentiation occurs in those organs. Ectopic AG expression patterns in flowers mutant for the floral hom...
The homeotic gene AGAMOUS (AG) has dual roles in specifying organ fate and limiting stem cell prolif...
OAK-B135 The homeotic gene AGAMOUS (AG) has dual roles in specifying floral organ fate and limiting ...
AbstractThe homeotic gene AGAMOUS (AG) has dual roles in specifying organ fate and limiting stem cel...
Mutations in the AGAMOUS (AG) gene cause transformations in two adjacent whorls of the Arabidopsis f...
We characterized the distribution of AGAMOUS (AG) RNA during early flower development in Arabidopsis...
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...
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...
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...
AGL2 is one of several Arabidopsis floral MADS-box genes that were isolated based on sequence simila...
The ABC model of flower development explains how three classes of homeotic genes confer identity to ...
Determinate growth of floral meristems in Arabidopsis requires the function of the floral regulatory...
AbstractThe homeotic gene AGAMOUS (AG) has dual roles in specifying organ fate and limiting stem cel...
The homeotic gene AGAMOUS (AG) has dual roles in specifying organ fate and limiting stem cell prolif...
OAK-B135 The homeotic gene AGAMOUS (AG) has dual roles in specifying floral organ fate and limiting ...
AbstractThe homeotic gene AGAMOUS (AG) has dual roles in specifying organ fate and limiting stem cel...
Mutations in the AGAMOUS (AG) gene cause transformations in two adjacent whorls of the Arabidopsis f...
We characterized the distribution of AGAMOUS (AG) RNA during early flower development in Arabidopsis...
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...
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...
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...
AGL2 is one of several Arabidopsis floral MADS-box genes that were isolated based on sequence simila...
The ABC model of flower development explains how three classes of homeotic genes confer identity to ...
Determinate growth of floral meristems in Arabidopsis requires the function of the floral regulatory...
AbstractThe homeotic gene AGAMOUS (AG) has dual roles in specifying organ fate and limiting stem cel...
The homeotic gene AGAMOUS (AG) has dual roles in specifying organ fate and limiting stem cell prolif...
OAK-B135 The homeotic gene AGAMOUS (AG) has dual roles in specifying floral organ fate and limiting ...
AbstractThe homeotic gene AGAMOUS (AG) has dual roles in specifying organ fate and limiting stem cel...