Transcriptional regulation of Arabidopsis copper amine oxidase ζ (CuAOζ) in indole-3-butyric acid-induced lateral root development

Spatiotemporal regulation of reactive oxygen species (ROS) is fine-tuned at multiple levels, including transcriptional regulation. Arabidopsis copper amine oxidase zeta (CuAO zeta) is localized in peroxisomes, and the CuAO zeta-derived ROS is required for indole-3-butyric acid (IBA)-induced lateral root (LR) development. Here, we showed that both GATA2 and NIGT1.2 transcription factors interacted with the 5 ' untranslated region (5 ' UTR) of CuAO zeta, using enhanced yeast one-hybrid analysis. NIGT1.2 was highly expressed in root tips and was upregulated by IBA. Phenotypic analysis, localization, and genetic studies demonstrate that NIGT1.2 positively regulated IBA-induced CuAO zeta expression, ROS generation, and LR development. Furthermore, another transcription factor, UPBEAT1 (UPB1), regulated the basal expression of CuAO zeta in roots, suggesting a putative functional regulation of CuAO zeta in cellular proliferation and differentiation in the root. Together, our findings indicate that transcriptional regulation of peroxisomal CuAO zeta plays an important role in determining CuAO zeta spatiotemporal activity and ROS homeostasis within a developing root.