Boris Rubinov scite author profile

An emerging new direction of research focuses on developing "self-synthesizing materials", those supramolecular structures that can promote their own formation by accelerating the synthesis of building blocks and/or an entire assembly. It was postulated recently that practical design of such systems can benefit from the ability to control the assembly of amphiphilic molecules into nanostructures. We describe here the self-assembly pathway of short amphiphilic peptides into various forms of soluble β-sheet structures--β-plates, fibrils, and hollow nanotubes--and their consequent activity as autocatalysts for the synthesis of monomeric peptides from simpler building blocks. A detailed kinetic analysis of both the self-assembly and self-replication processes allows us to suggest a full model and simulate the replication process, revealing that only specific structures, primarily fibrils that are stable within the solution for a time shorter than a few hours, can be active as catalysts. Interestingly, we have found that such a process also induces fibril reproduction, in a mechanism very similar to the propagation of prion proteins by transmission of misfolded states.

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Emergence of native peptide sequences in prebiotic replication networks

Nanda

Rubinov

Ivnitski

et al. 2017

Nat Commun

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Biopolymer syntheses in living cells are perfected by an elaborate error correction machinery, which was not applicable during polymerization on early Earth. Scientists are consequently striving to identify mechanisms by which functional polymers were selected and further amplified from complex prebiotic mixtures. Here we show the instrumental role of non-enzymatic replication in the enrichment of certain product(s). To this end, we analyzed a complex web of reactions in β-sheet peptide networks, focusing on the formation of specific intermediate compounds and template-assisted replication. Remarkably, we find that the formation of several products in a mixture is not critically harmful, since efficient and selective template-assisted reactions serve as a backbone correction mechanism, namely, for keeping the concentration of the peptide containing the native backbone equal to, or even higher than, the concentrations of the other products. We suggest that these findings may shed light on molecular evolution processes that led to current biology.

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Effects of mutations in de novo designed synthetic amphiphilic β-sheet peptides on self-assembly of fibrils

et al. 2013

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Self‐Replicating Amphiphilic β‐Sheet Peptides

et al. 2009

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Boris Rubinov

Self‐Replicating Amphiphilic β‐Sheet Peptides

Transient Fibril Structures Facilitating Nonenzymatic Self-Replication

Emergence of native peptide sequences in prebiotic replication networks

Effects of mutations in de novo designed synthetic amphiphilic β-sheet peptides on self-assembly of fibrils

Self‐Replicating Amphiphilic β‐Sheet Peptides

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