Add to ORKGMany domesticated crop plants have been bred for increased apical dominance, displaying greatly reduced axillary branching compared to their wild ancestors. In maize, this was achieved through selection for a gain-of-function allele of the TCP transcription factor teosinte branched1 (tb1). The mechanism for how a dominant Tb1 allele increased apical dominance, is unknown. Through ChIP seq, RNA seq, hormone and sugar measurements on 1 mm axillary bud tissue, we identify the genetic pathways putatively regulated by TB1. These include pathways regulating phytohormones such as gibberellins, abscisic acid and jasmonic acid, but surprisingly, not auxin. In addition, metabolites involved in sugar sensing such as trehalose 6-phosphate were increase...
Plant architecture and inflorescence architecture , in particular , are major determinates of yiel...
The development of unisexual flowers through floral organ suppression has been critical for promotin...
In plants, many major regulatory genes that control plant growth and development have been identifie...
Many domesticated crop plants have been bred for increased apical dominance, displaying greatly redu...
BackgroundThere was ancient human selection on the wild progenitor of modern maize, Balsas teosinte,...
The shape of a plant is largely determined by regulation of lateral branching. Branching architectur...
A reduction in number and an increase in size of inflorescences is a common aspect of plant domestic...
The teosinte branched1(tb1) gene is a major QTL controlling branching differences between maize and ...
AbstractMassive morphological changes occurred during the domestication of maize from wild teosinte....
Shoot branching patterns depend on a key developmental decision: whether axillary buds grow out to g...
Maize (Zea mays L.) is one of the most important commercial crops in the world as well as an importa...
The shape of a plant is largely determined by regulation of lateral branching. Branching architectur...
Regulation of plant height and stem elongation has contributed significantly to improvement of cerea...
The evolution of apical dominance in maize during domestication from teosinte is associated with hig...
Maize plants (Zea mays) make different types of vegetative or reproductive branches during developme...
Plant architecture and inflorescence architecture , in particular , are major determinates of yiel...
The development of unisexual flowers through floral organ suppression has been critical for promotin...
In plants, many major regulatory genes that control plant growth and development have been identifie...
Many domesticated crop plants have been bred for increased apical dominance, displaying greatly redu...
BackgroundThere was ancient human selection on the wild progenitor of modern maize, Balsas teosinte,...
The shape of a plant is largely determined by regulation of lateral branching. Branching architectur...
A reduction in number and an increase in size of inflorescences is a common aspect of plant domestic...
The teosinte branched1(tb1) gene is a major QTL controlling branching differences between maize and ...
AbstractMassive morphological changes occurred during the domestication of maize from wild teosinte....
Shoot branching patterns depend on a key developmental decision: whether axillary buds grow out to g...
Maize (Zea mays L.) is one of the most important commercial crops in the world as well as an importa...
The shape of a plant is largely determined by regulation of lateral branching. Branching architectur...
Regulation of plant height and stem elongation has contributed significantly to improvement of cerea...
The evolution of apical dominance in maize during domestication from teosinte is associated with hig...
Maize plants (Zea mays) make different types of vegetative or reproductive branches during developme...
Plant architecture and inflorescence architecture , in particular , are major determinates of yiel...
The development of unisexual flowers through floral organ suppression has been critical for promotin...
In plants, many major regulatory genes that control plant growth and development have been identifie...