The Hoja loca1 Mutant and AUX/IAA Function in Phytomer Development

Abstract

AbstractPlant architecture is determined by the iterative building of phytomer units, each containing a portion of stem, an organ and an axillary meristem. Each phytomer can follow different developmental paths underpinning the complexity, and plasticity, of plant form. Auxin plays a central role in the coordination of phytomer development, regulating organ initiation and patterning across all axes. This diversity in auxin function results from changes in the activities and expression of auxin signaling components, including the AUX/IAA repressors. Higher land plants have multigene AUX/IAA families, which leads to functional redundancy. Dominant mutations, which prevent AUX/IAA degradation in response to auxin, have highlighted the importance of these proteins in fine-tuning organ development. Here we report a new dominant AUX/IAA mutant in maize, Hoja loca1 (Oja). Oja has a mutation in the degron motif of ZmIAA28 and specifically affects aerial organ initiation and leaf medio-lateral patterning, but phytomer initiation remains unchanged. Mutant phenotypes are variable and transcriptional profiling of individual meristems identified clusters of genes that may underpin the phenotypic differences. The unique phenotype of Oja provides evidence of species-specific sub-functionalization of the AUX/IAAs, and illustrates the crucial role of auxin signaling in the tight coordination of phytomer unit development.