Chemical cross-linking immobilized concanavalin A for use in proteomic analyses.

Lectin affinity chromatography was used to reduce the amount of the abundant glycoprotein beta-conglycinin in total protein samples prepared from developing soybean (Glycine max L. Merrill cv. Jack) seeds. Electrophoretic analysis of both the concanavalin A-Sepharose binding and non-binding fraction revealed an abundant protein band at Mr 26,000. The amount of this protein was greatly increased when concanavalin A-Sepharose was used with urea-containing buffers. Peptide mass fingerprint analysis of this abundant protein band unequivocally identified it as concanavalin A (con A). A simple and gentle method was used to chemically cross-link the con A subunits so that the lectin-Sepharose retained the ability to bind high-mannose type glycoproteins. The chemically cross-linked con A-Sepharose was stable in buffers that contained up to 8M urea, making this an affinity matrix suitable for use in electrophoresis-based proteomic analyses.