Hiroshi Someya, Kensaku Sakamoto, and Masayuki Yamamura
In Proceedings of ACM Genetic and Evolutionary Computation Conference: GECCO-2009, pp.233-240, doi:10.1145/1569901.1569934, Montreal, Canada (July 2009).
Abstract: Protein engineering, developing novel proteins with a desired activity, has become increasingly important in many fields. This paper presents two studies in protein engineering: (i) a biological implementation of a genetic algorithm, with an observed in vitro evolution, and (ii) its preliminary computer simulation using a prototypical probabilistic model based on a random walk. The steady evolution of the fitness distribution of the mutant proteins that appeared in the biological experiments has provided some convincing evidence about the search behavior and the fitness landscape. The computer simulation and the simple probabilistic model have indicated their future potential for providing a practical alternative to the time-consuming manual operations in the biological experiments. Successful experimental results in the two studies have raised expectations of their further development and mutually beneficial interactions.
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