Self-Organization and The Origins of Life: The Managed-Metabolism Hypothesis
John E. Stewart

TL;DR
The paper proposes the managed-metabolism hypothesis, suggesting that life originated through managed chemical organizations that overcome cooperation barriers via evolvable, digitally-coded constraints, leading to complex, cooperative life forms.
Contribution
It introduces the concept that management of autocatalytic networks through evolvable, digital constraints is essential for the transition from non-life to life, explaining the origin of genetic coding.
Findings
Management can overcome cooperation barriers in chemical organizations.
Evolvable constraints support beneficial cooperation and suppress free-riders.
Digital coding of management is necessary for the emergence of life.
Abstract
The managed-metabolism hypothesis suggests that a cooperation barrier must be overcome if self-producing chemical organizations are to transition from non-life to life. This barrier prevents un-managed, self-organizing, autocatalytic networks of molecular species from individuating into complex, cooperative organizations. The barrier arises because molecular species that could otherwise make significant cooperative contributions to the success of an organization will often not be supported within the organization, and because side reactions and other free-riding processes will undermine cooperation. As a result, the barrier seriously limits the possibility space that can be explored by un-managed organizations, impeding individuation, complex functionality and the transition to life. The barrier can be overcome comprehensively by appropriate management which implements a system of…
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