Light perception by the root is essential for gibberellin-induced primary-root elongation in tomato

O_LIThe promoting effect of gibberellin (GA) on primary-root elongation is well-documented in several plant species, yet its influence in others, including tomato (Solanum lycopersicum), remains unclear. C_LIO_LIThe role of GA in primary-root elongation has been studied in tomato using the GA-deficient mutants gib-1 and ga20-oxidase (ga20ox1) and various growth systems, including Dark (D)-root and D-shoot plates. C_LIO_LIGA application to these mutants following germination on vermiculite, promoted primary-root elongation. However, when the roots grew deeper into the dark environment the hormone had no effect. RNA-seq analysis of dark-grown roots, treated with GA, revealed typical transcriptional responses, but the output for cell expansion remained unaffected. When dark-grown roots were illuminated deep in the ground, the hormone promoted their elongation. The results suggest that activation of Phytochrome B (PhyB) in the root, by red light, is essential for GA-induced elongation. C_LIO_LIWe propose that GA promotes tomato root elongation after germination, when roots are exposed to low light underground and this contributes to rapid seedling establishment. As roots penetrate deeper into the soil, insensitivity to GA due to the lack of light may be important for sustained root growth under fluctuating water availability, given that water deficiency suppresses GA accumulation. C_LI