Transient compartmentalization of RNA replicators prevents extinction due to parasites

Shigeyoshi Matsumura; Ádám Kun; Michael Ryckelynck; Faith Coldren; András Szilágyi; Fabrice Jossinet; Christian Rick; Philippe Nghe; Eörs Szathmáry; Andrew D. Griffiths

doi:10.1126/science.aag1582

Transient compartmentalization of RNA replicators prevents extinction due to parasites

Shigeyoshi Matsumura, Ádám Kun, Michael Ryckelynck, Faith Coldren, András Szilágyi, Fabrice Jossinet, Christian Rick, Philippe Nghe, Eörs Szathmáry^*, Andrew D. Griffiths

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研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

109 被引用数 (Scopus)

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The appearance of molecular replicators (molecules that can be copied) was probably a critical step in the origin of life. However, parasitic replicators would take over and would have prevented life from taking off unless the replicators were compartmentalized in reproducing protocells. Paradoxically, control of protocell reproduction would seem to require evolved replicators. We show here that a simpler population structure, based on cycles of transient compartmentalization (TC) and mixing of RNA replicators, is sufficient to prevent takeover by parasitic mutants. TC tends to select for ensembles of replicators that replicate at a similar rate, including a diversity of parasites that could serve as a source of opportunistic functionality. Thus, TC in natural, abiological compartments could have allowed life to take hold.

本文言語	英語
ページ（範囲）	1293-1296
ページ数	4
ジャーナル	Science
巻	354
号	6317
DOI	https://doi.org/10.1126/science.aag1582
出版ステータス	出版済み - 2016/12/09

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一般

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10.1126/science.aag1582

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abstract = "The appearance of molecular replicators (molecules that can be copied) was probably a critical step in the origin of life. However, parasitic replicators would take over and would have prevented life from taking off unless the replicators were compartmentalized in reproducing protocells. Paradoxically, control of protocell reproduction would seem to require evolved replicators. We show here that a simpler population structure, based on cycles of transient compartmentalization (TC) and mixing of RNA replicators, is sufficient to prevent takeover by parasitic mutants. TC tends to select for ensembles of replicators that replicate at a similar rate, including a diversity of parasites that could serve as a source of opportunistic functionality. Thus, TC in natural, abiological compartments could have allowed life to take hold.",

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AU - Matsumura, Shigeyoshi

AU - Kun, Ádám

AU - Ryckelynck, Michael

AU - Coldren, Faith

AU - Szilágyi, András

AU - Jossinet, Fabrice

AU - Rick, Christian

AU - Nghe, Philippe

AU - Szathmáry, Eörs

AU - Griffiths, Andrew D.

PY - 2016/12/9

Y1 - 2016/12/9

N2 - The appearance of molecular replicators (molecules that can be copied) was probably a critical step in the origin of life. However, parasitic replicators would take over and would have prevented life from taking off unless the replicators were compartmentalized in reproducing protocells. Paradoxically, control of protocell reproduction would seem to require evolved replicators. We show here that a simpler population structure, based on cycles of transient compartmentalization (TC) and mixing of RNA replicators, is sufficient to prevent takeover by parasitic mutants. TC tends to select for ensembles of replicators that replicate at a similar rate, including a diversity of parasites that could serve as a source of opportunistic functionality. Thus, TC in natural, abiological compartments could have allowed life to take hold.

AB - The appearance of molecular replicators (molecules that can be copied) was probably a critical step in the origin of life. However, parasitic replicators would take over and would have prevented life from taking off unless the replicators were compartmentalized in reproducing protocells. Paradoxically, control of protocell reproduction would seem to require evolved replicators. We show here that a simpler population structure, based on cycles of transient compartmentalization (TC) and mixing of RNA replicators, is sufficient to prevent takeover by parasitic mutants. TC tends to select for ensembles of replicators that replicate at a similar rate, including a diversity of parasites that could serve as a source of opportunistic functionality. Thus, TC in natural, abiological compartments could have allowed life to take hold.

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Transient compartmentalization of RNA replicators prevents extinction due to parasites

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