AbstractThe plant hormone auxin has long been known to play a pivotal role in vascular patterning and differentiation. But auxin is not the whole story: recent genetic analyses have identified additional factors required for vascular patterning, one of them involving sterols
Vascular tissues distribute water and nutrients throughout the plant. To achieve this, cells of the ...
Leaves are the main photosynthetic organs of vascular plants and show considerable diversity in thei...
The Arabidopsis root has provided an excellent model for understanding patterning processes and cell...
The plant hormone auxin has long been known to play a pivotal role in vascular patterning and differ...
The plant hormone auxin has long been known to play a pivotal role in vascular patterning and differ...
AbstractThe plant hormone auxin has long been known to play a pivotal role in vascular patterning an...
Plant vascular tissues form systems of interconnected cell files throughout the plant body. Vascular...
Systems biology can foster our understanding of hormonal regulation of plant vasculature. One such e...
The control of vascular tissue development in plants is influenced by diverse hormonal signals, but ...
Phytohormones have been implicated in vascular development in various ways, but their precise functi...
Background: The presence of a polar auxin transport stream has long been correlated with the differe...
The root vascular tissues provide an excellent system for studying organ patterning, as the specific...
The root vascular tissues provide an excellent system for studying organ patterning, as the specific...
The root vascular tissues provide an excellent system for studying organ patterning, as the specific...
The plant vascular system provides transport and support capabilities that are essential for plant g...
Vascular tissues distribute water and nutrients throughout the plant. To achieve this, cells of the ...
Leaves are the main photosynthetic organs of vascular plants and show considerable diversity in thei...
The Arabidopsis root has provided an excellent model for understanding patterning processes and cell...
The plant hormone auxin has long been known to play a pivotal role in vascular patterning and differ...
The plant hormone auxin has long been known to play a pivotal role in vascular patterning and differ...
AbstractThe plant hormone auxin has long been known to play a pivotal role in vascular patterning an...
Plant vascular tissues form systems of interconnected cell files throughout the plant body. Vascular...
Systems biology can foster our understanding of hormonal regulation of plant vasculature. One such e...
The control of vascular tissue development in plants is influenced by diverse hormonal signals, but ...
Phytohormones have been implicated in vascular development in various ways, but their precise functi...
Background: The presence of a polar auxin transport stream has long been correlated with the differe...
The root vascular tissues provide an excellent system for studying organ patterning, as the specific...
The root vascular tissues provide an excellent system for studying organ patterning, as the specific...
The root vascular tissues provide an excellent system for studying organ patterning, as the specific...
The plant vascular system provides transport and support capabilities that are essential for plant g...
Vascular tissues distribute water and nutrients throughout the plant. To achieve this, cells of the ...
Leaves are the main photosynthetic organs of vascular plants and show considerable diversity in thei...
The Arabidopsis root has provided an excellent model for understanding patterning processes and cell...
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