2017
DOI: 10.1038/s41467-017-00177-4
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Autonomous model protocell division driven by molecular replication

Abstract: The coupling of compartmentalisation with molecular replication is thought to be crucial for the emergence of the first evolvable chemical systems. Minimal artificial replicators have been designed based on molecular recognition, inspired by the template copying of DNA, but none yet have been coupled to compartmentalisation. Here, we present an oil-in-water droplet system comprising an amphiphilic imine dissolved in chloroform that catalyses its own formation by bringing together a hydrophilic and a hydrophobi… Show more

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Cited by 56 publications
(36 citation statements)
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“…Fundamental relations involving free energies and duplication probabilities, equation (28), duplication thresholds, equations (29) and (30), necessary work to be invested over the system by the protocol to trigger a duplication event, equation (31), dissipated work, equation (32) or the conditions for the perpetuation of the duplication cycle, equations (33) and (34) have been derived. These relations invoke the explicit energy landscape provided by the free energies and set the abstract conditions for a duplication process to be triggered and, eventually maintained.…”
Section: Discussionmentioning
confidence: 99%
“…Fundamental relations involving free energies and duplication probabilities, equation (28), duplication thresholds, equations (29) and (30), necessary work to be invested over the system by the protocol to trigger a duplication event, equation (31), dissipated work, equation (32) or the conditions for the perpetuation of the duplication cycle, equations (33) and (34) have been derived. These relations invoke the explicit energy landscape provided by the free energies and set the abstract conditions for a duplication process to be triggered and, eventually maintained.…”
Section: Discussionmentioning
confidence: 99%
“…Although much work remains to be done, approaches based on the self-production of the individual dropletc omponents-through localised (bio)chemical reactions sucha st he transcription of DNA into phase-separating RNA, [126] for example-mightp rovide viable mechanismsr elating to the autonomous growth of all-aqueous droplets. [136,137] [136,137] …”
Section: Droplet Growthmentioning
confidence: 99%
“…Adapted from ref. [137,148] Future experimentsw ill need to demonstrate such chemically active divisionp rocesses in all-aqueous droplets (ATPSs or coacervates) by exploiting localised chemical reactions. D) Chemically activedroplets undergo growth and division.…”
Section: Spontaneous Versusactive Droplet Fissionmentioning
confidence: 99%
“…The division of synthetic cells, which resembles remotely from the reproduction of biological cells, can be achieved by external shear, [277] membrane growth, [17,279,281] sudden volume changes, [127,[282][283][284] and phase separation. [282][283][284] The sustained generation of membrane components can keep the membrane growing, dividing for cycles, but have little control over each division.…”
Section: Growth Budding Divisionmentioning
confidence: 99%