화학공학소재연구정보센터
Biochemical and Biophysical Research Communications, Vol.268, No.1, 14-19, 2000
Acetylation at the N-terminus of actin strengthens weak interaction between actin and myosin
The N-terminus of all actins so far studied is acetylated. Although the pathways of acetylation have been well studied, its functional importance has been unclear. A negative charge cluster in the actin N-terminal region is shown to be important for the function of actomyosin. Acetylation at the N-terminus removes a positive charge and increases the amount of net negative charges in the N-terminal region. This may augment the role of the negative charge cluster. To examine this possibility, actin with a nonacetylated N-terminus (nonacetylated actin) was produced. The nonacetylated actin polymerized and depolymerized normally. In actin-activated heavy meromyosin ATPase assays, the nonacetylated actin showed higher K-app without significantly changing V-max, compared with those of wild-type actin, This is in contrast to the effect of the N-terminal negative charge cluster, which increases V-max without changing K-app. These results indicate that the acetylation at the N-terminus of actin strengthens weak actomyosin interaction.