Roots: Early explorations of the pathways of uridine diphosphate galactose in man and in microorganisms

Thirty years ago, a number of human inborn errors in carbohydrate metabolism were explored with specific enzymatic tests on blood samples (hemolysates). Hereditary galactosemia was the first example. When the inoperative step in galactose metabolism was specified, the basis for the diet therapy used on the galactosemic infants, namely galactose‐free diet, could be shown to be securely founded. As far as galactose metabolism is concerned, the cells of the infant are faced with two problems: (i) the conversion of dietary lactose (galactosyl glucose) to glucose and its catabolites involved in energy metabolism, and (ii) the conversion of dietary glucose or lactose to galactosyl units of glycolipids and glycoprotein cell structures. Subsequent studies on microorganisms revealed several types of hereditary defect in galactose metabolism. One type which permits the bacteria to develop a normal carbohydrate pattern in their cell walls includes an enzyme defect, like that described in the cells of the galactosemic infant. Two other types, with the inability to synthesize UDPGlc or UDPGal from glucose, do not permit the bacteria to build the fabric of the normal bacterial cell wall. This is the subject for discussion.