Reversible oriented immobilization of histidine-tagged proteins on gold surfaces using a chelator thioalkane

Abstract

The reversible oriented immobilization of proteins on solid surfaces is a prerequisite for the investigation of molecular interactions at interfaces or the construction of supramolecular assemblies. We demonstrate a generally applicable method using a synthetic chelator thioalkane which can self-assemble on a gold surface via its thiol group. It exposes its nitrilotriacetic acid group which serves as a chelator for transition metal ions. Reversible binding of a F ab fragment modified with a C-terminal hexahistidine extension was monitored in situ using surface plasmon resonance. The directed immobilization of proteins on surfaces opens new ways for structural investigations of proteins and the development of biosensors.