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Abstract
Two fractions of rat intestinal alkaline phosphatase (IAP) were detected by Western blot: 168 ± 6 and 475 ± 45 kDa. The low molecular weight fraction constitutes 43% of the isolated proteins exhibiting 82% of the enzymatic activity, and a heavier fraction constitutes 57% of the isolated proteins and has 18% of the enzymatic activity. Calcium produced an increase of the 475-kDa form to the detriment of the 168-kDa form. This work also describes the kinetic and structural changes of IAP as a function of calcium concentration. With [Ca2+] < 10 mmole/L, the Ca2+-IAP interaction fitted a binding model with 7.8 ± 4.4 moles of Ca2+ /mole of protein, affinity constant = 19.1 ± 8.4 L/mmole, and enzymatic activity increased as a linear function of [Ca2+] (r = 0.946 p < 0.01). On the other hand, with [Ca2+] >10 mmole/L the data did not fit this model and, the enzymatic activity decreased as a function of [Ca2+] (r = − 0.703 p < 0.05).
Acknowledgements
This work was funded partially by a CONICET (Grant PEI 6511). We thank Mrs. Hilda S Moreno and Rosa Alloatti for their technical assistance and to Dr. Digno Alloatti for providing animals for the experiments. Gratitude is extended by the authors to the School of Biochemistry and Pharmacy from Rosario National University, Argentina, for assistance in digital image processing.