Influence of Fluorocarbon and Hydrocarbon Acyl Groups at the Surface of Bovine Carbonic Anhydrase II on the Kinetics of Denaturation by Sodium Dodecyl Sulfate

Abstract

This paper examines the influence of acylation of the Lys-ε-NH(3)(+) groups of bovine carbonic anhydrase (BCA, EC 4.2.1.1) to Lys-ε-NHCOR (R = -CH(3), -CH(2)CH(3), and -CH(CH(3))(2), -CF(3)) on the rate of denaturation of this protein in buffer containing sodium dodecyl sulfate (SDS). Analysis of the rates suggested separate effects due to electrostatic charge and hydrophobic interactions. Rates of denaturation (k(Ac,n)) of each series of acylated derivatives depended on the number of acylations (n). Plots of log k(Ac,n) vs n followed U-shaped curves. Within each series of derivatives, rates of denaturation decreased as n increased to ∼7; this decrease was compatible with increasingly unfavorable electrostatic interactions between SDS and protein. In this range of n, rates of denaturation also depended on the choice of the acyl group as n increased to ∼7, in a manner compatible with favorable hydrophobic interactions between SDS and the -NHCOR groups. As n increased in the range 7 < n < 14, however, rates of denaturation stayed approximately constant; analysis suggested that these rates were compatible with an increasingly important contribution to denaturation that depended both on the net negative charge of the protein and on the hydrophobicity of the R group. The mechanism of denaturation thus seems to change with the extent of acylation of the protein. For derivatives with the same net electrostatic charge, rates of denaturation increased with the acyl group (by a factor of ∼3 for n ∼ 14) in the order CH(3)CONH- < CH(3)CH(2)CONH- < (CH(3))(2)CHCONH- < CF(3)CONH-. These results suggested that the hydrophobicity of CF(3)CONH- is slightly greater (by a factor of <2) than that of RHCONH- with similar surface area.