Title :
Catalytic reaction sets, decay, and the preservation of information
Author :
Hordijk, Wim ; Fontanari, José F.
Author_Institution :
Biomath. Res. Centre, Canterbury Univ., Christchurch, New Zealand
fDate :
30 Sept.-4 Oct. 2003
Abstract :
We study the ability to maintain information in a population of protocells that enclose sets of reacting polymers or metabolisms, under the influence of decay, i.e., spontaneous breakdown of large polymers. At a certain decay rate, it becomes impossible to maintain a significant concentration of large polymers, while it is still possible to maintain sets of smaller polymers that contain the same amount of information. We use a genetic algorithm to evolve reaction sets to generate specific polymer distributions under the influence of decay. In these evolved reaction sets, the beginnings of hypercycle-type structures can be observed, which are believed to have been an important step toward the evolution of the first living cells.
Keywords :
biocomputing; catalysis; genetic algorithms; living systems; macromolecules; polymers; catalytic reaction sets; decay rate; genetic algorithm; hypercycle-type structures; information-bearing polymers; living cell evolution; metabolisms; polymer distributions; protocells population; spontaneous large polymer breakdown; Assembly; Biochemistry; Electric breakdown; Genetic algorithms; Peptides; Polymers; Proteins; RNA; Raw materials; USA Councils;
Conference_Titel :
Integration of Knowledge Intensive Multi-Agent Systems, 2003. International Conference on
Print_ISBN :
0-7803-7958-6
DOI :
10.1109/KIMAS.2003.1245035
