Independent origin of single and double mutations in the human glucose 6-phosphate dehydrogenase gene

Communicated by Francesco GianneUi

The vast majority of both polymorphic and sporadic G6PD variants are due to single missense mutations. In the four polymorphic variants that have two point mutations, one of the mutations is always 376 A+G (126 A s e A s p ) , which on its own gives rise to the nondeficient polymorphic variant, G6PD A. In a study of G6PD deficient patients who presented with clinical favism in Spain, we have found a new polymorphic variant that we have called G6PD Malaga, whose only abnormality is a 542 A+T (181 A s p V a l ) mutation. This is the same mutation as previously found in association with the mutation of G6PD A in the double mutant, G6PD Santamaria. G6PD Malaga is associated with enzyme deficiency (class III), and the enzymic properties of G6PD Malaga and G6PD Santamaria are quite similar, indicating that in this case the effects of the two mutations are additive rather than synergistic. G6PD Santamaria might have been produced by recombination between G6PD A and G6PD Malaga; however haplotype analysis, including the use of a new silent polymorphism, suggests that the same 542 A-T mutation has taken place independently in a G6PD B gene to give GBPD Malaga and in a G6PD A gene to give G6PD Santamaria. These findings help to outline the relationship and evolution of mutations in the human G6PD locus. o 1996 Wiley-Liss, Inc.