Dynamic Isoelectric Focusing for Proteomics

Dynamic isoelectric focusing is a new technique that is related to capillary isoelectric focusing but uses additional high-voltage power supplies to provide control over the shape of the electric field within the capillary. Manipulation of the electric field changes the pH gradient, enabling both the location and width of the focused protein bands to be controlled. The proteins can be migrated to a designated sampling point while remaining focused, where they can be collected for further analysis. This ability to collect and isolate the protein bands while maintaining a high peak capacity demonstrates that dynamic isoelectric focusing has great potential as a first dimension in a multidimensional separation system. Dynamic isoelectric focusing can achieve a peak capacity of over 1000, as shown by both mass spectrometry analysis and direct imaging

DIABLA: A New Screening Method for the Discovery of Protein Targets

Dynamic isoelectric/anisotropy binding ligand assay (DIABLA) is a new method to identify proteins in a complex sample that bind to a molecule of interest. This is accomplished by first using capillary isoelectric focusing (cIEF) to separate the proteins in a capillary based on their isoelectric point. This separation is performed while the compound being tested is present in the separation buffer. When the proteins are focused, the entire capillary is scanned to identify regions of nonzero anisotropy, which are locations where the test compound is interacting with a focused protein band. DIABLA was demonstrated by observing the binding of fluorescein-tagged progesterone to an MCF-7 breast cancer cell lysate. The proteins were tagged with rhodamine to permit their observation and then focused in the presence of the tagged progesterone. Anisotropy measurements show that progesterone binds to six different proteins bands in the sample