Title :
Biomolecular information processing: Biotechnology paves the way for new approaches to computing
Author_Institution :
Wayne State Univ., Detroit, MI, USA
Abstract :
The differences and similarities in structure and function of biological systems and electronic computers are examined. The relative costs of structurally dependent and independent systems are discussed in terms of tradeoff among programmability, computational efficiency, and evolutionary adaptability. The key computing attribute of protein enzymes, namely, their folded shape, allows them to recognize molecular objects on the basis of tactile (touching) interactions, reminiscent of the way a key fits into a lock. This provides both a switching and a recognition mechanism. The race to develop an artificial tactilizing processor is discussed.
Keywords :
biomolecular electronics; digital computers; artificial tactilizing processor; biological systems; biomolecular electronics; computational efficiency; electronic computers; evolutionary adaptability; information processing; programmability; protein enzymes; recognition; switching; Biomedical information processing; Neurons; Pattern recognition; Program processors; Proteins;
Journal_Title :
Potentials, IEEE
DOI :
10.1109/MP.1987.6500946
