Rapid cellular responses to auxin and the regulation of growth

Abstract The cellular responses rapidly evoked by auxin are reviewed, and related to a consideration of how growth rate is regulated in excised segments and in whole dicotyledonous plants. Two processes, synthesis of proteins and of cell wall components, are both promoted by auxin and essential for auxin-stimulated growth, whereas other processes show little promotion by auxin or do not appear essential for growth. Current models for the cellular regulation of growth by auxin are briefly discussed, and a new model presented. Auxin is suggested to act by bringing about a transient increase in cytosolic Ca²⁺ levels, which through the stimulation of protein kinases converts a cytoplasmic protein factor to an active state capable of binding auxin. The protein-auxin complex induces mRNA synthesis, which effects the increased synthesis of cell wall components and their incorporation into the wall, resulting in wall loosening and growth. It is proposed that the factor limiting growth in floating excised segments may initially be cell wall pH, but that this is not the case in whole plants and growth is instead mediated by increased protein and matrix cell wall synthesis. Differences are noted between monocotyledonous coleoptiles and dicotyledonous stems in some metabolic processes possibly involved in auxin growth responses, and it is cautioned that observations made on one tissue may not necessarily be applicable to the other. Care should also be taken in applying conclusions drawn from studies on excised tissue to the interpretation of growth regulation in the whole plant.