ORGAN DISTRIBUTION OF AUXIN-BINDING PROTEIN-1 IN THE ETIOLATED MAIZE SEEDLING

The auxin-binding protein designated ABP1 has been proposed to mediate auxin-induced cellular changes such as cell expansion. Its exact mode of action is unknown, but currently several approaches to elucidate its function are being pursued. One of these approaches, described here, is to determine the organ distribution of this putative auxin receptor in order to correlate spatially the abundance of the protein with some auxin-regulated activity such as cell elongation. The absolute and relative amounts of ABP1 were determined along the entire etiolated shoot, the root, and within the caryopsis of maize. ABP1 can be detected immuno-logically in all extracts of the etiolated maize seedling except the tip of the primary root and the endosperm. Within the shoot, but excluding the leaf roll, the highest levels compared on a fresh weight basis are in the apical mesocotyl and basal coleoptile regions, the areas of the most rapid cell elongation and the areas where there is the greatest capacity for auxin-induced growth. The relative abundance of ABP1 compared on a fresh weight basis changed more than fivefold in this organ. When compared on a total protein basis, the relative change in ABP1 abundance was approximately twofold, which is less than the relative change in auxin-induced growth rate along the shoot. Differences in shoot growth rate among varieties of maize were compared with the relative amounts of ABP1 within the apical mesocotyl and basal coleoptile. A statistically significant but not perfect correlation was found between the auxin-induced growth rate of the apical mesocotyl and ABP1 abundance. These results demonstrate a general correlation between the amount of ABP1 and growth along the shoot and within maize hybrid varieties.