CALCULATION OF THE ISOELECTRIC POINTS OF NATIVE PROTEINS WITH SPREADING OF PK(A) VALUES

The isoelectric points (pi) of native proteins are important in severa l separation techniques. For estimating pi values the net charge of se veral proteins was calculated versus pH by use of the Henderson-Hassel balch equation. Amino acid composition, pK(a) values for amino acid si de chains and for the N- and C-terminal groups, and the presence of ot her charged groups were taken into account. A set of pK(a) values was chosen for amino acid residues with ionizable side chains. Each partic ular type of ionizable group was assumed to have pK(a) values distribu ted around the chosen value, thereby simulating the situation in prote ins and polypeptides. The calculated pi values showed reasonably good agreement with experimental ones for most of 16 native proteins over a wide pH range (3.4-11) when charge contributions of heme groups, sial ic acid residues, etc., were taken into account. The calculated pI for the human red cell glucose transporter (Glut1) with one sialic acid r esidue was decreased from 8.8 to 8.5 by introducing pK(a) value spread ing and became consistent with the experimental pi value of 8.4 +/- 0. 05 at 15 degrees C determined in the presence of 6 M urea. The pi of t he native Glut1 was lower, 8.0 +/- 0.1, at 22 degrees C. In general, t he pI values for native proteins are affected by the three-dimensional structure of the proteins, which causes greater differences between c alculated and experimental pr values than in the case of polypeptides for which pi values are determined in the presence of urea.