Generation and analysis of bacteriorhodopsin mutants with the potential for biotechnological applications.

The properties of bacteriorhodopsin (BR) can be manipulated by genetic engineering. Therefore, by the methods of gene engineering, Asp85 was replaced individually by two other amino acids (D85V, D85S). The resulting recombinant proteins were assembled into soybean vesicles retinylated to form functional BR-like nano-particles.

Potential applications of bacteriorhodopsin mutants.

Bacteriorhodopsin (BR), a model system in biotechnology, is a G-protein dependent trans membrane protein which serves as a light driven proton pump in the cell membrane of Halobacterium salinarum. Due to the linkage of retinal to the protein, it seems colored and has numbers of versatile properties. As in vitro culture of the Halobacteria is very difficult, and isolation is time consuming and usually inefficient, production of genetically modified constructs of the protein is essential.

Site-directed mutagenesis in bacteriorhodopsin mutants and their characterization for bioelectrical and biotechnological equipment.

Bacteriorhodopsin (BR) mutagenesis plays an important role in the development of BR-based materials and tools with enhanced optical and electrical properties. Previously reported protocols for generating BR mutations are inefficient for the preparation and purification of mutant proteins. Therefore, a series of BR mutations were generated by using improved methods, which are described in further detail.