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.

Utility of a direct dual-mode development analysis on blotted protein mixtures.

Classic blotting methods remain a commonly applied approach to specific protein identification in gel electrophoresis of complex mixtures despite the inherent difficulty in band or spot matching due to significant variability of protein migration or localization in replicate blotting experiments. A direct application of both protein stain and protein blotting on a single membrane significantly reduces the complexity of the experiment and provides increased confidence of signal matching. Digital alignment of images acquired from both total protein stain and blotting development modes on a single membrane allows unambiguous spot or band assignments in these experiments as well as retention of quantitative information acquired from both modes of signal generation. A direct and simple method applying a fluorescent protein stain that is compatible with subsequent detection by antibody or lectin recognition factors along with common image adjustment software is examined. The utility of this blot dual-mode development method for direct protein recognition and quantification in one- and two-dimensional electrophoresis is demonstrated for bioanalytical objectives where replicate experiments are challenged by sample complexity.