The time complexity of self-assembly

Gartner, Florian; Graf, Isabella R.; Frey, Erwin

doi:10.1073/pnas.2116373119

Cited by 14 publications

(11 citation statements)

References 48 publications

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“…Most self-assembly cascade reactions are pH driven when fast protonation-deprotonation processes provoke rapid species transformation/organization into various associates up to nanoscopic size. The study of self-assembly processes is one of the top subjects in modern chemical science [ 19 , 20 , 21 , 22 , 23 , 24 , 25 , 26 , 27 ]. Such a specific organization of the matter in different solutions is a research focus for a large number of research groups.…”

Section: Introductionmentioning

confidence: 99%

Proton Affinity in the Chemistry of Beta-Octamolybdate: HPLC-ICP-AES, NMR and Structural Studies

et al. 2022

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The affinity of [β-Mo8O26]4− toward different proton sources has been studied in various conditions. The proposed sites for proton coordination were highlighted with single crystal X-ray diffraction (SCXRD) analysis of (Bu4N)3[β-{Ag(py-NH2)Mo8O26]}] (1) and from analysis of reported structures. Structural rearrangement of [β-Mo8O26]4− as a direct response to protonation was studied in solution with 95Mo NMR and HPLC-ICP-AES techniques. A new type of proton transfer reaction between (Bu4N)4[β-Mo8O26] and (Bu4N)4H2[V10O28] in DMSO results in both polyoxometalates transformation into [V2Mo4O19]4−, which was confirmed by the 95Mo, 51V NMR and HPLC-ICP-AES techniques. The same type of reaction with [H4SiW12O40] in DMSO leads to metal redistribution with formation of [W2Mo4O19]2−.

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Section: Introductionmentioning

confidence: 99%

Proton Affinity in the Chemistry of Beta-Octamolybdate: HPLC-ICP-AES, NMR and Structural Studies

et al. 2022

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“…The formation of dimers appears to be a limiting step in the oligomerisation. Such a threshold behaviour is known to be an optimal control strategy for self‐assembly processes [66] . With this, monomers remain available in high concentration, leading to long‐tailed, non‐exponential polymer distributions.…”

Section: Resultsmentioning

confidence: 99%

RNA Oligomerisation without Added Catalyst from 2′,3′‐Cyclic Nucleotides by Drying at Air‐Water Interfaces**

et al. 2022

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For the emergence of life, the abiotic synthesis of RNA from its monomers is a central step. We found that in alkaline, drying conditions in bulk and at heated air‐water interfaces, 2′,3′‐cyclic nucleotides oligomerised without additional catalyst, forming up to 10‐mers within a day. The oligomerisation proceeded at a pH range of 7–12, at temperatures between 40–80 °C and was marginally enhanced by K+ ions. Among the canonical ribonucleotides, cGMP oligomerised most efficiently. Quantification was performed using HPLC coupled to ESI‐TOF by fitting the isotope distribution to the mass spectra. Our study suggests a oligomerisation mechanism where cGMP aids the incorporation of the relatively unreactive nucleotides C, A and U. The 2′,3′‐cyclic ribonucleotides are byproducts of prebiotic phosphorylation, nucleotide syntheses and RNA hydrolysis, indicating direct recycling pathways. The simple reaction condition offers a plausible entry point for RNA to the evolution of life on early Earth.

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“…A relevant question is whether there exist other facile assembly conditions or protocols, independent from varying system density, that can be harnessed to further tune the balance between the aforementioned pathways. 78 Identifying such conditions would afford an even higher level of command over the conditional selection of assembly products.…”

Section: Resultsmentioning

confidence: 99%