2009
DOI: 10.1073/pnas.0912769107
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Autocatalysis and organocatalysis with synthetic structures

Abstract: The discovery of ribozymes led to the proposal of an RNA world, where a single type of molecule was supposedly capable of selfreplication and chemical catalysis. We show here that both autocatalysis and organocatalysis can be engineered into a synthetic structure. The compound is shown to selectively accelerate its own formation and catalyze either hydrogenation or nucleophilic addition to α,β-unsaturated aldehydes. The observed reactivity indicates that the components of a purported pre-RNA world conceivably … Show more

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Cited by 57 publications
(32 citation statements)
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“…In vitro evolution studies (Ellington et al 2009) reveal that RNA molecules can serve as catalysts (e.g., Robertson and Scott 2007) and as replicators (Lincoln and Joyce 2009) and proteins in random libraries can be selected to gain structure and function (Keefe and Szostak 2001). Autocatalytic processes of molecular recognition develop in simplified systems of organic molecules (Vidonne and Philp 2009), including autocatalytic hydrogenations and nucleophilic additions to unsaturated aldehydes (Kamioka et al 2010).…”
Section: Phylogenomic-grounded Modelsmentioning
confidence: 99%
“…In vitro evolution studies (Ellington et al 2009) reveal that RNA molecules can serve as catalysts (e.g., Robertson and Scott 2007) and as replicators (Lincoln and Joyce 2009) and proteins in random libraries can be selected to gain structure and function (Keefe and Szostak 2001). Autocatalytic processes of molecular recognition develop in simplified systems of organic molecules (Vidonne and Philp 2009), including autocatalytic hydrogenations and nucleophilic additions to unsaturated aldehydes (Kamioka et al 2010).…”
Section: Phylogenomic-grounded Modelsmentioning
confidence: 99%
“…However, membrane growth in these systems inevitably leads to dilution of the catalyst and cessation of membrane formation (15,16). Thus, a significant roadblock to synthetic membranes capable of continual phospholipid synthesis has been the lack of a mechanism by which the embedded molecular catalysts that are responsible for membrane expansion are able to repopulate indefinitely (15,17). Here we report on the design of a simplified lipid synthesizing membrane that uses a synthetic, membraneembedded catalyst that is capable of self-reproduction.…”
mentioning
confidence: 99%
“…[92,93] Diese Autoren schlugen vor, dass die Amidbindung im Produkt katalytisch wirksam sein kçnnte, ohne dass eine molekulare Erkennung erforderlich ist. [97] Die Adenin-abgeleiteten Replikatoren wurden verwendet, um biologisch relevante Prozesse zu demonstrieren, einschließlich Kreuzkatalyse, [98,99] Mutation und Kompetition [ Über eine Reihe von autokatalytischen Cycloadditionsreaktionen wurde berichtet. [97] Die Adenin-abgeleiteten Replikatoren wurden verwendet, um biologisch relevante Prozesse zu demonstrieren, einschließlich Kreuzkatalyse, [98,99] Mutation und Kompetition [ Über eine Reihe von autokatalytischen Cycloadditionsreaktionen wurde berichtet.…”
Section: Kleine Moleküleunclassified