Mathematical modelling for the generation of L-[3-2H,3-13C]lactic acid isotopomers by erythrocytes exposed to either D-[1-13C]glucose or D-[6-13C]glucose in the presence of2H2O

Cytosolic purine nucleoside phosphorylase (PNPase) is a well known, and described enzyme which exists in a variety of organisms, both procaryotic and eucaryotic. More recently this enzyme was found in bovine liver mitochondria. The mitochondrial purine nucleoside phosphorylase was purified 63 fold and has a molecular weight of 48–60 kD. From Lineweaver-Burk plots apparent K_m's of 23M for inosine, 42 M for deoxyinosine, 40 M for phosphate, 2 M for hypoxanthine, and 163 M for ribose-1-phosphate were calculated. Both 8-aminoguanosine (K_i=0.5 M) and araG (K_i=381 M) are inhibitors of the enzyme. The protein's isoelectric point (pI) was calculated at a pH of 4.2. Preliminary immunological work showed no cross-reactivity between epitopes on the mitochondrial protein and those on PNPase from human erythrocytes. The apparent K_m's calculated for the mitochondrial enzyme are,with the exception of that using hypoxanthine, within the range commonly associated with K_m's from the cytosolic species. The mitochondrial enzyme's molecular weight and pI are less than normally described. The enzyme's isolation from mitochondria, together with several unique characteristics, suggest that it is a separate protein from that found in the cytosol.