Add to ORKGTrees adjust their growth following forced changes in orientation to re-establish a vertical position. In angiosperms, this adjustment involves the differential regulation of vascular cambial activity between the lower (opposite wood) and upper (tension wood) sides of the leaning stem. We investigated the molecular mechanisms leading to the formation of differential wood types through a quantitative proteomic and phosphoproteomic analysis on poplar subjected to a gravitropic stimulus. We identified and quantified 675 phosphopeptides, corresponding to 468 phosphoproteins, and 3 763 nonphosphorylated peptides, corresponding to 1 155 proteins, in the differentiating xylem of straight-growing trees (control) and trees subjected to a gravitation...
When a conifer shoot is displaced from its vertical position, compression wood (CW) is formed on the...
International audienceIn response to environmental stimuli such as wind, snow, slope or asymmetric c...
Andersson Gunnerås, S. 2005. Wood formation and transcript analysis with focus on tension wood and e...
Trees adjust their growth following forced changes in orientation to re-establish a vertical positio...
Trees adjust their growth following forced changes in orientation to re-establish a vertical positio...
Tension wood (TW) is a specialized tissue with contractile properties that is formed by the vascular...
International audiencePlants organs are capable of sensing directional environment stimulus such as ...
Wood is the most important natural source of energy and also provides fuel and fiber. Considering th...
Gravity is a constant force guiding the direction of plant growth. In young poplar stem, reorientati...
Background: Wood development is of outstanding interest both to basic research and industry due to t...
In response to gravistimulation under anisotropic light, tree stems showing an active cambium produc...
Abstract Background Secretory Carrier-Associated Membrane Proteins (SCAMPs) are highly conserved 32–...
This paper examines the contribution of various xylem proteins to wood formation in Eucalyptus gunni...
The perception of gravity is essential for plant development. Trees constantly develop specialized w...
When a conifer shoot is displaced from its vertical position, compression wood (CW) is formed on the...
International audienceIn response to environmental stimuli such as wind, snow, slope or asymmetric c...
Andersson Gunnerås, S. 2005. Wood formation and transcript analysis with focus on tension wood and e...
Trees adjust their growth following forced changes in orientation to re-establish a vertical positio...
Trees adjust their growth following forced changes in orientation to re-establish a vertical positio...
Tension wood (TW) is a specialized tissue with contractile properties that is formed by the vascular...
International audiencePlants organs are capable of sensing directional environment stimulus such as ...
Wood is the most important natural source of energy and also provides fuel and fiber. Considering th...
Gravity is a constant force guiding the direction of plant growth. In young poplar stem, reorientati...
Background: Wood development is of outstanding interest both to basic research and industry due to t...
In response to gravistimulation under anisotropic light, tree stems showing an active cambium produc...
Abstract Background Secretory Carrier-Associated Membrane Proteins (SCAMPs) are highly conserved 32–...
This paper examines the contribution of various xylem proteins to wood formation in Eucalyptus gunni...
The perception of gravity is essential for plant development. Trees constantly develop specialized w...
When a conifer shoot is displaced from its vertical position, compression wood (CW) is formed on the...
International audienceIn response to environmental stimuli such as wind, snow, slope or asymmetric c...
Andersson Gunnerås, S. 2005. Wood formation and transcript analysis with focus on tension wood and e...