Characterization and compartmentation, in green leaves, of hexokinases with different specificities for glucose, fructose, and mannose and for nucleoside triphosphates.

When green leaves of spinach (Spinacia oleracea L.) were surveyed for the presence of hexokinases which utilize glucose, fructose and-or mannose as a substrate, four kinases could be distinguished by their order of elution during chromatography on diethylaminoethyl (DEAE)-cellulose: (i) a hexokinase I with a specificity for fructose, glucose, and mannose, (ii) a fructokinase I with a specificity for fructose, (iii) a hexokinase II with a specificity for glucose, fructose and mannose, and (iv) a fructokinase II with a specificity for fructose. Hexokinases I and II had high apparent Km values for fructose (8 and 15 mM, respectively) and medium or low apparent Km values for glucose (150 and 18 μM, respectively) and mannose (18 and 15 μM, respectively). Maximal velocities were highest with fructose, medium with glucose and lowest with mannose. That hexokinases I and II used several sugars as substrate was concluded (i) from their identical elution profiles during enzyme separation and (ii) because their activities with two or three sugars at a time was always lower than the sum of activities with one substrate, indicating competition of the sugars for the reaction with the enzymes. Fructokinases I and II were very specific for fructose (85 and 140 μM, respectively) and had only little, if any, activity with glucose or mannose. All kinases showed varying degrees of activity with nucleoside triphosphates other than ATP. In the presence of all three sugars, hexokinases I and II were considerably more active with ATP than with uridine-, cytidine-, and guanosine 5'-triphosphate (UTP, CTP, GTP) except that, in the presence of glucose, hexokinase I was almost as active with UTP as with ATP. In the presence of fructose, fructokinase I exhibited highest activity with GTP and a gradually decreasing level of activity with CTP, UTP, and ATP. The activities in the presence of the other two sugars were highest with ATP. Fructokinase II was most active with ATP and fructose and progressively less active with GTP, UTP, and CTP. Cell fractionation by isopycnic density-gradient centrifugation or differential centrifugation indicated that fructokinase II was associated with chloroplasts, hexokinase II with mitochondria, and the other two kinases with the non-particulate cell fraction. In green leaves of pea (Pisum sativum L.), only a hexokinase (II) and fructokinase (II) were present. Corn (Zea mays L.) leaves exhibited only very low hexokinase activity.