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Bio-Rad labs patents Polyacrylamide Gel systems with oxygen barriers


Bio-Rad labs patents Polyacrylamide Gel

Polyacrylamide Gel

Polyacrylamide Gel Electrophoresis (PAGE) is widely used in Life Sciences research for the separation of biomolecules such as DNA, RNA, and proteins for further characterization. Under denaturing conditions, where detergents like SDS are employed, the separation is based on size. Under non-denaturing conditions, the separation of these macromolecules is based on the size as well as charge.

Acrylamide monomers in the liquid phase polymerize into a solid phase in the presence of crosslinkers to form a porous gel matrix through which the macromolecules are resolved by application of an electric field. The gel is cast within a cavity formed by two adjoining flat gel cassettes (plates) sealed at the lower and side edges with spacers.

Bio-Rad Labs that serves the life sciences research and clinical diagnostic needs of a global clientele has acquired a US patent 9,664,646 titled, “Polyacrylamide electrophoresis gels with protection against oxygen exposure” on May 30, 2017, for PAGE systems with means for protecting the gels from oxygen exposure. Plastic gel cassettes are porous to atmospheric oxygen that inhibits efficient polymerization of acrylamide monomers resulting in substandard polyacrylamide gels with variable porosity and density that are not suitable for the separation of macromolecules. The patent discloses PAGE systems comprising polyacrylamide gels and plastic gel cassettes, wherein the cassettes either have oxygen barrier layers or are embedded with oxygen scavenger molecules.

The oxygen barrier layer may be present on the inner surface of the cassette wall that is in contact with the monomeric solution or gel and/or on the outer surface of the cassette wall. The oxygen barrier layer can be formed during injection molding of the cassettes by a technique called in-mold decoration or can be coated, glued, bonded, or welded to the cassette wall after it has been formed. The barrier layer can also be a non-adhering sheet that is inserted in the cavity between the two gel cassettes, one sheet for each cassette. The thickness and density of the barrier layer could vary depending on the barrier material, the cassette dimensions, and other requirements.

The oxygen barrier layer can inhibit only the atmospheric oxygen or can inhibit oxygen and other atmospheric gases as well. The barrier material is inert in nature that does not react with the PAGE system, the biomolecules, or the buffer solutions during electrophoresis. A few examples of oxygen barrier materials used in the system are polyvinylidene chloride, low-density polyethylene, acrylonitrile methyl acetate copolymers, ethylene vinyl alcohol, metalized polyethylene terephthalate, melamine, silica, and alumina.

The barrier material can also be a composite material such as the commercially available Bicor film (polypropylene core coated with acrylic on one side and polyvinylidene chloride on another side). The barrier layer has an oxygen permeability of about 5×10-10 [cm3 cm] / [cm2 s (cm Hg)] at 250C and 100% RH.

In some embodiments, the plastic walls of the cassettes are embedded with oxygen scavenger molecules that are oxidizable substances that consume the atmospheric oxygen thus inhibiting oxygen access to the gel cavity. Some examples of the scavenger molecules are hydroxyl-functionalized polybutadiene oligomer, a crystalline polycondensation product of a meta-xylylene diamine and adipic acid, and a nylon 6 nanocomposite. Preferably, the cassettes are made by injection molding method using plastic resins having oxygen scavenger molecules. The concentration of the scavenger molecules can vary broadly from about 1% to 10% by weight.

US-9664646

The above figure shows a comparison of two polyacrylamide gels through which complex protein mixtures are resolved. The test gel was cast in a cassette layered with a Bicor film by the in-mold decoration method. The control gel was cast in a cassette coated with SARAN latex. As can be seen from the figure, Bicor is as effective as SARAN in inhibiting oxygen access to the gel.

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