Self-replicating structures: evolution, emergence, and computation
Artificial Life - Special issue on self-replication
Open problems in artificial life
Artificial Life - Special issue on the Artificial Life VII: looking backward, looking forward
Evolvable self-replicating molecules in an artificial chemistry
Artificial Life
Von Neumann's machine in the shell: enhancing the robustness of self-replication processes
ICAL 2003 Proceedings of the eighth international conference on Artificial life
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Self-assembly and self-replication are the main common thematic features of living organism. The life of most living organisms bases on biomolecular systems such as DNA and RNA. Self-replication and assembly are emergent properties of such systems. These biomolecular systems have common thematic features that enable them from self-replicating and self-assembling themselves. In this paper, I try to generalize these common thematic features to generate a generalized model of the complement-based self-replicated, self-assembled systems. In this model, I explained the main requirements for achieving these systems in terms of basic system components and how these components interact with each other through self-assembling rule set and complement-based replication rule set generating systems with potential to be self-replicated machines. After generating this model, I have applied this model to DNA and simulated its basics.