Add to ORKGZEA MAYS L. Mutant plants carrying the ramosa-1 (ra-1) gene which effects inflorescence development, were treated with aqueous solutions of several growth substances. Some plants treated with TIBA exhibited tassels with a reduced ra-1 phenotype. Several plants treated with GA produced ears showing little branching. Discussion is centered on evidence which supports the idea that hormone metabolism is part of a genetic control system governing maize inflorescence development at various stages in the pathway
Plant axillary meristems are composed of highly organized, self-renewing stem cells that produce ind...
Maize inflorescence architecture is dictated by groups of tightly regulated pluripotent stem cells c...
Plant organs initiate from meristems and grow into diverse forms. Initiation is followed by a morpho...
ZEA MAYS L. Mutant plants carrying the ramosa-1 (ra-1) gene which effects inflorescence development,...
FASCICLED EAR (Fa), a dominant ZEA MAYS L. mutant effecting the form of the inflorescence, was treat...
The structure of the plant inflorescence and flower is an important agronomic and ornamental trait s...
The ramosa1 (ra1) gene in maize encodes a plant-specific EPF-like protein with a Cys2-His2 zinc fing...
Branching architecture of the flower-bearing structures in grasses, known as inflorescences, is a mo...
Plant architecture and inflorescence architecture , in particular , are major determinates of yiel...
The genetic and molecular control of inflorescence and flower development has been extensively studi...
Inflorescence branching is a major yield trait in crop plants controlled by the developmental fate o...
Inflorescence branch number in maize and other cereal crops has long been recognized as an important...
Abstract only availableMaize brace roots are the aerial portion of the shoot-borne root system that ...
Genetic control of grass inflorescence architecture is critical given that cereal seeds provide most...
Genetic control of grass inflorescence architecture is critical given that cereal seeds provide most...
Plant axillary meristems are composed of highly organized, self-renewing stem cells that produce ind...
Maize inflorescence architecture is dictated by groups of tightly regulated pluripotent stem cells c...
Plant organs initiate from meristems and grow into diverse forms. Initiation is followed by a morpho...
ZEA MAYS L. Mutant plants carrying the ramosa-1 (ra-1) gene which effects inflorescence development,...
FASCICLED EAR (Fa), a dominant ZEA MAYS L. mutant effecting the form of the inflorescence, was treat...
The structure of the plant inflorescence and flower is an important agronomic and ornamental trait s...
The ramosa1 (ra1) gene in maize encodes a plant-specific EPF-like protein with a Cys2-His2 zinc fing...
Branching architecture of the flower-bearing structures in grasses, known as inflorescences, is a mo...
Plant architecture and inflorescence architecture , in particular , are major determinates of yiel...
The genetic and molecular control of inflorescence and flower development has been extensively studi...
Inflorescence branching is a major yield trait in crop plants controlled by the developmental fate o...
Inflorescence branch number in maize and other cereal crops has long been recognized as an important...
Abstract only availableMaize brace roots are the aerial portion of the shoot-borne root system that ...
Genetic control of grass inflorescence architecture is critical given that cereal seeds provide most...
Genetic control of grass inflorescence architecture is critical given that cereal seeds provide most...
Plant axillary meristems are composed of highly organized, self-renewing stem cells that produce ind...
Maize inflorescence architecture is dictated by groups of tightly regulated pluripotent stem cells c...
Plant organs initiate from meristems and grow into diverse forms. Initiation is followed by a morpho...