Exodermis lignification impacts lateral root emergence in Brachypodium distachyon
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Rationale
The mechanisms controlling lateral root emergence in monocots, particularly the role of the exodermis, are poorly understood. We investigated how natural variation in the Brachypodium distachyon stress response shapes root system architecture by modulating cell wall dynamics.
Methods
We used root tip excision to synchronize lateral root development across natural accessions. The resulting phenotypes were analysed using comparative transcriptomics, biochemical lignin quantification, confocal Raman spectroscopy, and chemical inhibition of lignin biosynthesis.
Key Results
Two distinct root system architectures, ’pine tree’ and ’fishbone’, were identified. The ’fishbone’ phenotype results from an emergence-specific defect caused by the premature and intense lignification of the exodermis. This was driven by the transcriptional upregulation of lignin biosynthesis genes and was rescued by a lignin inhibitor.
Main Conclusion
Stress-induced exodermal lignification acts as a mechanical ’brake’ on lateral root emergence. This positions the exodermis as a key regulatory hub that integrates environmental cues with developmental programs to control RSA plasticity in grasses.
