A precise spectrophotometric method for measuring sodium dodecyl sulfate concentration.

Sodium dodecyl sulfate (SDS) is used to denature and solubilize proteins, especially membrane and other hydrophobic proteins. A quantitative method to determine the concentration of SDS using the dye Stains-All is known. However, this method lacks the accuracy and reproducibility necessary for use with protein solutions where SDS concentration is a critical factor, so we modified this method after examining multiple parameters (solvent, pH, buffers, and light exposure). The improved method is simple to implement, robust, accurate, and (most important) precise.

Development of a dot-blot assay for screening monoclonal antibodies to low-molecular-mass drugs.

Dot-blot is a versatile and simple analysis to perform. We adapted this method as a simple identity test for monoclonal antibodies to a number of small compounds: three transplant drugs, an anticonvulsant, a steroid, an anticancer drug, and an antibiotic. Immunology-based identity tests using low-molecular-mass organic compounds have historically been a challenge to develop. We modified the traditional dot-blot assay to serve as an identity test for monoclonal antibodies to carbamazepine, sirolimus, tacrolimus, cyclosporine, cortisol, methotrexate, and gentamicin. The primary obstacle was the immobilization of these organic compounds on nitrocellulose as nitrocellulose is also soluble in most of the organic solvents in which the compounds are soluble. We evaluated different membranes, solvents, and chemical forms of these organic compounds to overcome this challenge. A number of incubation and washing solutions were also investigated. By varying the chemical form, concentration, and incubation conditions, a set of effective and reproducible identity tests were developed for these monoclonal antibodies.