Encyclopedia of Experiments: Biological Techniques
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The Gliding Actin Filament Assay - ConceptTranscript
To begin, prepare a 1% nitrocellulose solution in amyl acetate, and place a circular filter paper with a 125-millimeter diameter on the bottom of a tissue culture plate.
Load 8 square coverslips onto a rack, and thoroughly wash them with approximately 2 to 5 milliliters of 200-proof ethanol, followed by 2 to 5 milliliters of distilled water. Then, dry the coverslips completely using a filtered air-line or nitrogen-line.
Slowly pipette 10 microliters of 1% nitrocellulose solution along one edge of one coverslip. Smear it across the rest of the coverslip using the side of a 200-microliter pipette tip in 1 smooth motion. Then, place this coverslip on the tissue culture dish with the nitrocellulose side up. Repeat this for the remaining coverslips, and allow them to dry.
Wipe a microscope slide with an optical lens paper to clean off large debris. Cut two pieces of double-sided tape approximately 2 centimeters in length, and place one piece along the middle of the long edge of the microscope slide. Place the second piece of tape roughly 2 millimeters below the first piece of tape, such that the two are parallel, creating a flow chamber that can hold approximately 10 microliters of solution.
Carefully stick one of the nitrocellulose coverslips onto the tape, so that the side coated with nitrocellulose is making direct contact with the tape.
Using a pipette tip, gently press down on the slide-tape interface to ensure that the coverslip has properly adhered to the slide. Then, cut the excess tape hanging over the edge of the slide, with a razor blade.
Prepare the solutions for Myosin-5a, and keep them on ice. Flow in 10 microliters of the Myosin-5a through the slide flow chamber, and wait for 1 minute. Then, flow in 10 microliters of 1 milligram per milliliter BSA in motility buffer with DTT. Repeat this twice, and wait a minute after the third wash.
Use the corner of a tissue paper or filter paper to wick the solution through the channel, by gently placing the corner of the paper at the flow chamber exit. Then, wash with 10 microliters of motility buffer with DTT.
Pipette the black actin solution with a 1-milliliter syringe and a 27-gauge needle to shear the actin filaments, before introducing the solution to the chamber. Add the black actin to the chamber in the presence of 1 millimolar ATP in 50 millimolar MB with 1 millimolar DTT.
Next, flow in 50 microliters of motility buffer with DTT and 1 millimolar ATP to deplete the chamber of free actin filaments. Wash with 10 microliters of motility buffer with DTT three times to deplete the chamber of any ATP.
Flow in 10 microliters of 20 nanomolar Rh-actin solution containing motility buffer with DTT, and wait for 1 minute to allow rigor binding of actin filaments to the myosin-5a attached to the surface of the coverslip.
Wash with 10 microliters of 50 millimolar motility buffer with the DTT twice to remove unbound Rh-actin filaments. Flow in 30 microliters of final buffer.
Record images on a fluorescence microscope using an excitation wavelength of 561 nanometers to visualize the Rh-actin.
