Tension wood (TW), characterized by increased cambium cell proliferation and few vessels, is a classical model for the mechanical analysis of wood formation. In this study, we found higher superoxide anion (O2.-) levels in the cambium zone of poplar (Populus alba × P. glandulosa clone "84K") TW than in that of opposite wood during gravistimulation. Treatment with an O2.- activator (methyl viologen) resulted in tension-wood-like xylem tissue formation, and transgenic plants with reduced cambium O2.- levels presented an attenuated gravity response. Time-course detection of O2.- and indole-3-acetic acid (IAA) levels revealed that auxin responses were enhanced following increases in O2.- levels, suggesting that IAA mediates TW induction downstream of O2.-. Rapid division but advanced programmed cell death in cambium cells was detected in both gravistimulated and O2.- activator-treated plants. These findings suggest that high O2.- levels trigger downstream IAA signaling to promote cambium cell proliferation and induce TW formation.
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