Designing Improved Enzymes of industrial application from marine microorganisms using Protein Engineering

Abstract:

Global demand for energy has grown with the development of new industries, requiring constant improvement and search for new sources of energy. One of the challenges today is releasing the energy of glucose that nature has cleverly locked into lignocellulosic biomass. Potent and efficient enzyme preparations need to be developed for the enzymatic saccharification process to be more economical. Approaches like enzyme engineering, reconstitution of enzyme mixtures and bioprospecting for superior enzymes are gaining importance. The ocean is considered to be a great reservoir of biodiversity.

Because enzymes have unequalled advantages, many industries are keenly interested in adapting enzymatic methods for their processes. Microbial communities in marine environments are ecologically relevant as intermediaries of energy and play an important role in nutrient regeneration cycles as decomposers of dead and decaying organic matter. The exploitation of marine bacteria in the search for improved enzymes or strategies provides a means to upgrade feasibility for lignocellulosic biomass conversion, ultimately providing means to a 'greener' technology. Several industrial enzymes are derived from terrestrial sources, whereas, marine environment which encompasses about 71 percent of the earth’s surface and a vast resources for useful enzymes, remain unexplored. Marine microorganisms take active part in the mineralization of complex organic matter through degradative pathways of their metabolism. Bacteria from marine environments secrete different enzymes based on their habitat and their ecological functions. Therefore marine microbial enzymes have become the focal point of interest. Even though many of these enzymes are being isolated, the efficiency of hydrolysis is very poor. This could be overcome by altering the substrate specificity of lignocellulases. Protein engineering could prove to be useful to improve the catalytic function these enzymes.