Novel Biologically Active Silver-Avidin Hybrids

Abstract

Coupling of biologically active proteins, for example, enzymes and binding proteins, with metals carries huge potential inherent in the integration of these hybrids with miniaturized electronics, medical devices, and in vivo imaging. Here we propose and demonstrate feasibility of the preparation of novel, biologically active silver-avidin hybrids by electroless silver deposition directed to the surface of single, soluble avidin molecules, with retention of their solubility and highly specific biotin binding capacity. The process is based on conjugation of silver ions reducing polymers to avidin surface, followed by the addition of silver ions under mild physiological conditions. The partially overlapping silver patches thus obtained on the protein’s surface provided soluble, biologically active hybrids, retaining their specific biotin binding capability of both low-molecular-weight and high-molecular-weight biotinylated molecules and exhibiting enhanced thermal stability. The hybrids thus obtained were successfully used for molecular imaging of cancer cells prelabeled with biotinylated monoclonal antibody

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