Interaction between cortical cylinder and epidermis during auxin-mediated growth in pea internodes

Abstract

The interaction between cortical cylinder (cortex plus vascular tissue) and epidermis during auxin (indole-3-acetic acid, IAA)-induced growth of third internode sections from red light-grown pea seedlings ( Pisum sativum L. cv. Alaska) was investigated. A quantitative comparison of the relative effects of IAA on growth of intact and peeled sections showed that intact segments are nearly 20-fold more sensitive to IAA than peeled cortical cylinders. Tissue tension, determined with the ‘split section test’, was constant during IAA-induced growth of intact sections. Peeled sections also displayed a small amount of tissue tension, which was likewise independent of IAA. The incorporation of myo-[2- 3H(N)]inositol ([ 3H]Ins) into non-cellulosic polysaccharides in the cell walls was stimulated by IAA in both the cortical cylinder and the epidermis by + 70% and + 55%, respectively, after 4 h. A mich higher amount of incorporation was detectable in the epidermis than in the cortical cylinder on a unit weight basis. During a 4-h growth period in IAA the cortical cylinder lost about 50 μg of its initial dry weight per section whereas the epidermis increased in dry weight by about + 24 μg. We conclude that during IAA-induced long-term growth the cortical cylinder (1) provides the driving force for organ growth, (2) responds to IAA by an increase in matrix cell wall synthesis and (3) releases material, some of which is transferred to the attached epidermal cells.