Complete amino acid sequence of rat brain hexokinase, deduced from the cloned cDNA, and proposed structure of a mammalian hexokinase.

Abstract

The complete amino acid sequence for the type I isozyme of hexokinase from rat brain has been deduced from the nucleotide sequence of cloned cDNA. The nucleotide sequence of 91 bases in the 5'' untranslated region as well as that of the entire 3'' untranslated region preceding the poly(A) sequence have also been determined. The N- and C-terminal halves of brain hexokinase show extensive sequence similarity to each other and to yeast hexokinase. These results provide direct support for the proposal that the mammalian hexokinases of .apprxeq. 100 kDa have evolved by a process of duplication and fusion of a gene encoding an ancestral hexokinase similar to the yeast enzyme of .apprxeq. 50 kDa. Taking this similarity in sequence to indicate basic similarity in structure between the N- and C-terminal regions of brain hexokinase and the yeast enzyme, a proposed structure for the mammalian hexokinase has been developed by fusing two molecules of yeast hexokinase, whose structure has previously been determined by x-ray crystallographic studies. Various features of the model are shown to be consistent with experimental observations bearing on the structure of the brain enzyme.