Journal
PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES
Volume 288, Issue 1963, Pages -Publisher
ROYAL SOC
DOI: 10.1098/rspb.2021.2098
Keywords
RNA world; ribozyme; protocell; template
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Funding
- SERB, India [MTR/2020/000446]
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The encapsulation of genetic material and formation of functionally diverse components inside compartments played a crucial role in the development of replicating protocells in an RNA world. Experimental evidence suggests that RNA replication inside lipid vesicles can lead to vesicular growth and division. The impact of such replication on the emergence of ribozymes inside protocells and their subsequent evolution remains uncertain.
The encapsulation of genetic material inside compartments together with the creation and sustenance of functionally diverse internal components are likely to have been key steps in the formation of 'live', replicating protocells in an RNA world. Several experiments have shown that RNA encapsulated inside lipid vesicles can lead to vesicular growth and division through physical processes alone. Replication of RNA inside such vesicles can produce a large number of RNA strands. Yet, the impact of such replication processes on the emergence of the first ribozymes inside such protocells and on the subsequent evolution of the protocell population remains an open question. In this paper, we present a model for the evolution of protocells with functionally diverse ribozymes. Distinct ribozymes can be created with small probabilities during the error-prone RNA replication process via the rolling circle mechanism. We identify the conditions that can synergistically enhance the number of different ribozymes inside a protocell and allow functionally diverse protocells containing multiple ribozymes to dominate the population. Our work demonstrates the existence of an effective pathway towards increasing complexity of protocells that might have eventually led to the origin of life in an RNA world.
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