CORDIS Project
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This project investigates the molecular mechanisms controlling plant branching by focusing on the TCP gene BRANCHED1 in Arabidopsis thaliana. It aims to understand how environmental and developmental signals influence axillary bud growth and dormancy, using advanced techniques like ChIP-SEQ and RNA interference in vari…
Control of branching is a major determinant for the vast diversity of plant shoot system architectures.
After initiation, axillary meristems develop into axillary buds.
Branching patterns depend on a key developmental decision: whether axillary buds grow out to give a branch or come in a reversible dormancy statement remaining small in the axils of leaves.
This decision is controlled by different developmental or environmental stimuli (apical dominance, photoperiod, shade avoidance syndrome, etc…
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