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Briefly describe the principle of surface force apparatus

Briefly describe the principle of surface force apparatus

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Expert Solution

Surface Force Apparatus (SFA) is an instrument that allows for very precise measurement of distance between interacting surfaces, as well as the forces of the interaction. When speaking of measuring molecular interactions, most people use affinity as a measure of strength. That is not true, as affinity only shows how likely it is for the bond to form, and not how physically strong it is. Few techniques exist that allow for a direct measurement of force, and Surface Force Apparatus (SFA) is one of them. What separates SFA from other techniques is its ability to measure forces directly as a function of distance between two samples. It is not a single molecule technique, i.e. the forces measured are results of interactions of cohorts of molecules, not a single molecule to molecule. It allows for quantification of weak interactions on the order of thermal energy (kBT) while determining absolute separations with almost Angstrom precision.

Principle of surface force apparatus:

The SFA consists of two silica cross cylinders, which are coated with a layer of silver and almost atomically smooth mica. The sample is located on top of the mica, where the contact point of the two cylinders would be.

The two cylindrical lenses with their reflective coating and the medium in between create a Fabry-Perot interferometer. The only light that exits inside the resonant cavity is wavelengths that interfere constructively. See figure 2 for the principle of operation.

Interferometry is then used to separate the interference fringes of equal chromatic order. As the distance between the lenses changes, the transmitted wavelength is shifted. During this time, the spring system holding on of the cylinders in place is used to record the forces (Helical spring and double cantilever spring in Fig.1). Typically the area of contact is about 5 microns squared, which amounts to about 300000 interacting pairs, which generates enough force to measure by the spring system. This spring system is a simple piece of mechanical engineering that allows for very small force changes by combining two springs together. Essentially, a micrometer screw (which is used for initial setup, while a piezo is used during an experiment for precise manipulations) pushes on a spring, which in turn pushes on another, double-cantilever spring (see Fig. 1). By combining two springs with very different spring constants one can vary the exerted force in very small increments.

Typical cylinder radius in SFA is 2 cm. This radius is much greater than the ranges of forces at play, which makes local curvature effects negligible. On the other hand, the area of contact is affected by radius, and, consequently, so is the force of interaction. For this reason, force normalized by radius is used as a measure of interaction, F/R. Below (fig. 4) is a typical F/R vs distance (D) profile of interaction between two membranes.

As is evident from the diagram, at large distances the force of interaction is zero, while at a small distance there is evidence of attraction, and then at even smaller distance there is a great deal of repulsion (surfaces bumping into each other).

Lipid bilayers are one of many entities whose interaction forces can be investigated by SFA. Another great class of molecules is proteins. A protein can be either bonded directly to the surface, or inserted into a membrane. Then, its interactions with ligands can be characterized. The number of proteins that could be studied this way is enormous, from integrins to HIV cell marker recognition proteins.


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