Basic Characterization of Plant Actin Depolymerizing Factors: A Simplified, Streamlined Guide
Abstract Actin depolymerizing factors (ADFs) are small monomeric actin-binding proteins that alter the oligomeric state of cellular actin. Members of the ADF family can bind both the G-actin and F-actin in plants, and their functions are regulated by cellular pH, ionic strength and availability of other binding partners. Actin depolymerization activity is reportedly essential for plant viability. By binding to the ADP-bound form of actin, ADFs severe actin filaments and thereby provide more barbed filament ends for polymerization. They also increase the rate of dissociation of F-actin monomer by changing the helical twist of the actin filament. These two activities together make ADF the major regulator of actin dynamics in plant cell. Therefore, it is essential to measure the binding and depolymerization activity of the plant ADFs. Here, we present a simplified, streamlined step-by-step protocol to quickly measure these important functions of the ADF proteins in vitro.