Title :
Light-Driven Hybrid Bioreactor Based on Protein-Incorporated Polymer Vesicles
Author :
Choi, Hyo-Jick ; Montemagno, Carlo D.
Author_Institution :
Dept. of Biomed. Eng., Cincinnati Univ., OH
fDate :
3/1/2007 12:00:00 AM
Abstract :
In vitro biochemical synthesis is regarded as a major challenge in replicating cellular functions in engineered systems. Presented is a nanosized hybrid factory where photo-induced biochemical reactions take place resulting in the production of biomolecules. For this purpose, we reconstructed in vitro proton-powered ATP synthesis using artificial organelles, BR/F0F1-ATP synthase reconstituted polymer vesicles (proteopolymersomes), which have been made without organic solvent. Importantly, BR/F0F1-ATP synthase incorporated polymer vesicles showed an excellent proton leakage characteristic under modified conditions. This research is expected to enhance the potential applications of synthetic artificial membranes from in vitro investigation of cellular metabolism to the fabrication of light-driven biomolecular electronic devices such as optical memory and biofuel cell
Keywords :
biochemistry; biological techniques; biomembranes; bioreactors; cellular biophysics; molecular biophysics; photochemistry; polymers; proteins; ATP synthase; artificial organelles; biomolecule production; cellular functions; cellular metabolism; in vitro proton-powered ATP synthesis; light-driven hybrid bioreactor; photo-induced biochemical reactions; protein-incorporated polymer vesicles; proteopolymersomes; proton leakage characteristics; synthetic artificial membranes; Bioreactors; In vitro; Molecular biophysics; Optical devices; Polymers; Production facilities; Protein engineering; Protons; Solvents; Systems engineering and theory; Biomedical engineering; biomedical materials; biomembranes; nanotechnology;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2007.891822
