Localization of sucrose synthase in wheat roots: increased in situ activity of sucrose synthase correlates with cell wall thickening by cellulose deposition under hypoxia

Abstract

Sucrose synthase (SuSy; EC 2.4.1.13) plays a prominent role in O(2) deficiency and functions at a branch point, partitioning sucrose between cell wall biosynthesis and glycolysis. The cleavage of sucrose by SuSy was localized in wheat ( Triticum aestivum L. cv. Alcedo) roots subjected to 4 days of hypoxia. Increased SuSy activity was observed by in situ activity staining in the tip region and in the stele of root axes. The pattern of cellulose deposition correlated with regions of high SuSy activity. Cellulose accounted for more than 30% of root dry weight and the cellulose content increased substantially under hypoxia. The strongest accumulation of cellulose occurred in the base and mid-regions of the roots where the content rose to 163% and 182% of controls, respectively. In the root axis, cellulose deposition occurred in the endodermis and walls of pith cells. In root tips, cellulose was primarily deposited in developing xylem and phloem. The marker enzyme for O(2) shortage, pyruvate decarboxylase (EC 4.1.1.17), exhibited a 14-fold increase in the root apex, whereas in basal root tissues, which contained more aerenchyma, pyruvate decarboxylase activity was only doubled. The root apex also contained the highest concentration of sucrose and hexoses. The elevated sugar content in all root zones was partially used to synthesize cellulose for secondary wall thickening.