Exogenous auxin enhances the degradation of a light down-regulated and nuclear-localized OsiIAA1, an Aux/IAA protein from rice, via proteasome

Abstract

Auxin regulates many aspects of plant growth and development by altering the expression of diverse genes. Among these, the early auxin-responsive genes of Aux/IAA class have been extensively studied in dicots but little information is available on monocots. Earlier, we reported the isolation of OsiIAA1 cDNA, first monocot member of Aux/IAA gene family from rice. Extending this work further, we have isolated the OsiIAA1 gene from rice localized on chromosome 3. The transcriptional start site was mapped to 158 bp upstream to the translational start site. The increased accumulation of OsiIAA1 transcript in auxin-treated rice coleoptiles even in the presence of a protein synthesis inhibitor, cycloheximide, suggested that OsiIAA1 is a primary auxin response gene; the expression of OsiIAA1 gene was also upregulated in the presence of cycloheximide alone. The OsiIAA1 transcript levels were down-regulated in etiolated rice coleoptiles irradiated with far-red, red and blue light, suggesting the existence of a cross-talk between auxin and light signaling. The antibodies raised against His₆-OsiIAA1 recombinant protein could detect the OsiIAA1 protein in the plant extract only in the presence of a proteasome inhibitor, MG132, indicating that OsiIAA1 is rapidly degraded by proteasome complex. The degradation of the protein was enhanced by the application of exogenous auxin. Also, the proteasome inhibitor MG132 stabilized the purified His₆-OsiIAA1 protein to some extent in the cell-free extracts of rice coleoptiles. The OsiIAA1 protein harbors two nuclear localization signals (NLSs), one bipartite and the other resembling SV40 type NLS. Although both the NLSs were able to target the protein to the nucleus, the bipartite NLS was more effective. These studies indicate that nuclear localization of OsiIAA1 could be a prerequisite for its role in auxin signal transduction.