In dialyzed extracts from winter wheat plants transamination reactions occurred between asparagine and α-ketoglutaric acid (L-asparagine+2-oxoacid=2-oxosuccinamate+ +amino acid; 2. 6. 1. 14). Reactions with pyruvate exhibited a very low activity. Besides transamination products,i. e. glutamate and alanine, aspartic acid was formed in both reactions. Deamidation was more intensive in the weak reaction asparagine-alanine and less intensive in the asparagine-glutamate reaction.When calculated per dry weight unit the activity was the same in plants of all variants (three experimental variants—Knop, potassium humate, water). A higher, activity was found in root dialysates; however, a highly significant difference could be observed only between shoots and roots of Knop variant. When evaluating results in terms of protein content we found a significant difference between mineral variant (Knop—the lowest activity) and both deficient variants (potassium humate, water—the highest activity). Thus the highest growth activity was in connection with the lowest transamination activity and vice versa, which was the same as in transaminations of aspartic acid. In the case of asparagine, too, one can consider the possibility of its utilization via transamination for biosynthesis of glutamic acid in plants which have, for reasons of nutrition, a low level of this metabolically important amino acid.