Add to ORKG<p>Pattern formation of the early Arabidopsis embryo generates precursors to all major cell types, and is profoundly controlled by the signaling molecule auxin. Here we discuss recent milestones in our understanding of auxin-dependent embryo patterning. Auxin biosynthesis, transport and response mechanisms interact to generate local auxin accumulation in the early embryo. New auxin-dependent reporters help identifying these sites, while atomic structures of transcriptional response mediators help explain the diverse outputs of auxin signaling. Key auxin outputs are control of cell identity and cell division orientation, and progress has been made towards understanding the cellular basis of each. Importantly, a number of studies have combine...
Plants normally form one embryo per seed. Under special circumstances, such as death of the embryo, ...
grantor: University of TorontoThis study investigates the role of auxin in the development...
Auxin is a structurally simple molecule, yet it elicits many different responses in plants. In Chapt...
Pattern formation of the early Arabidopsis embryo generates precursors to all major cell types, and ...
Plants start their life as a single cell, which, during the process of embryogenesis, is transformed...
Plants start their life as a single cell, which, during the process of embryogenesis, is transformed...
Plants start their life as a single cell, which, during the process of embryogenesis, is transformed...
Plants start their life as a single cell, which, during the process of embryogenesis, is transformed...
Plants start their life as a single cell, which, during the process of embryogenesis, is transformed...
Important steps in plant development are made shortly after fertilization. In a brief succession of ...
In all developmental processes oriented cell division and cell fate acquisition are combined in orde...
In all developmental processes oriented cell division and cell fate acquisition are combined in orde...
Important steps in plant development are made shortly after fertilization. In a brief succession of ...
A fundamental question in developmental biology is how the complex cellular pattern in multicellular...
Plants normally form one embryo per seed. Under special circumstances, such as death of the embryo, ...
Plants normally form one embryo per seed. Under special circumstances, such as death of the embryo, ...
grantor: University of TorontoThis study investigates the role of auxin in the development...
Auxin is a structurally simple molecule, yet it elicits many different responses in plants. In Chapt...
Pattern formation of the early Arabidopsis embryo generates precursors to all major cell types, and ...
Plants start their life as a single cell, which, during the process of embryogenesis, is transformed...
Plants start their life as a single cell, which, during the process of embryogenesis, is transformed...
Plants start their life as a single cell, which, during the process of embryogenesis, is transformed...
Plants start their life as a single cell, which, during the process of embryogenesis, is transformed...
Plants start their life as a single cell, which, during the process of embryogenesis, is transformed...
Important steps in plant development are made shortly after fertilization. In a brief succession of ...
In all developmental processes oriented cell division and cell fate acquisition are combined in orde...
In all developmental processes oriented cell division and cell fate acquisition are combined in orde...
Important steps in plant development are made shortly after fertilization. In a brief succession of ...
A fundamental question in developmental biology is how the complex cellular pattern in multicellular...
Plants normally form one embryo per seed. Under special circumstances, such as death of the embryo, ...
Plants normally form one embryo per seed. Under special circumstances, such as death of the embryo, ...
grantor: University of TorontoThis study investigates the role of auxin in the development...
Auxin is a structurally simple molecule, yet it elicits many different responses in plants. In Chapt...