Amyloid-Associated Nucleic Acid Hybridisation

Braun, Sebastian; Humphreys, Christine; Fraser, Elizabeth; Brancale, Andrea; Bochtler, Matthias; Dale, Trevor

doi:10.1371/journal.pone.0019125

Cited by 42 publications

(56 citation statements)

References 41 publications

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“…Moreover, oligomers are readily synthesized on certain mineral surfaces (Ferris 1996) and amyloid can spontaneously form fibrillar networks that acts as scaffolds for the amyloid assemblies themselves (Hamley 2007), as well as for other molecules, such as ribonucleotides (Liu et al 2008). Amyloid may also enhance the polymerization of ribonucleotides, and nucleic acids may enhance amyloid formation (Braun et al 2012). Of interest, in the context of the Cairns-Smith´s clay-as-genes hypothesis (Cairns-Smith 1982), is the observation that clay minerals can catalyze the formation of RNA (Wenhua and Ferris 2007).…”

Section: Prebiotic Amyloidogenesis: Surface-bound or In Solution?mentioning

confidence: 99%

“…Amyloid possesses the propensity to form self-propagating stable fibrillar networks that can act as scaffolds for nucleic acids ( Nandi andNicole 2004, Silva et al 2008) and other molecules, including lipids (Relini et al 2008, Domano andKinnunen 2008). Moreover, the amyloid surface can promote the polymerization of ribonucleotides, and nucleic acids may also enhance amyloidogenesis (Braun et al 2012). Importantly, amyloid-nucleic acid complexes enhance nucleic acid hybridization (Braun et al2012).…”

Section: Transition To An Rna Worldmentioning

confidence: 99%

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Origin of life. Primordial genetics: Information transfer in a pre-RNA world based on self-replicating beta-sheet amyloid conformers

Maury

2015

Journal of Theoretical Biology

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The question of the origin of life on Earth can largely be reduced to the question of what was the first molecular replicator system that was able to replicate and evolve under the presumably very harsh conditions on the early Earth. It is unlikely that a functional RNA could have existed under such conditions and it is generally assumed that some other kind of information system preceded the RNA world. Here, I present an informational molecular system that is stable, self-replicative, environmentally responsive, and evolvable under conditions characterized by high temperatures, ultraviolet and cosmic radiation. This postulated pregenetic system is based on the amyloid fold, a functionally unique polypeptide fold characterized by a cross beta-sheet structure in which the beta strands are arranged perpendicular to the fiber axis. Beside an extraordinary structural robustness, the amyloid fold possesses a unique ability to transmit information by a three-dimensional templating mechanism. In amyloidogenesis short peptide monomers are added one by one to the growing end of the fiber. From the same monomeric subunits several structural variants of amyloid may be formed. Then, in a self-replicative mode, a specific amyloid conformer can act as a template and confer its spatially encoded information to daughter molecular entities in a repetitive way. In this process, the specific conformational information, the spatially changed organization, is transmitted; the coding element is the steric zipper structure, and recognition occurs by amino acid side chain complementarity. The amyloid information system fulfills several basic requirements of a primordial evolvable replicator system: (i) it is stable under the presumed primitive Earth conditions, (ii) the monomeric building blocks of the informational polymer can be formed from available prebiotic compounds, (iii) the system is self-assembling and self-replicative and (iv) it is adaptive to changes in the environment and evolvable.

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Section: Prebiotic Amyloidogenesis: Surface-bound or In Solution?mentioning

confidence: 99%

Section: Transition To An Rna Worldmentioning

confidence: 99%

Origin of life. Primordial genetics: Information transfer in a pre-RNA world based on self-replicating beta-sheet amyloid conformers

Maury

2015

Journal of Theoretical Biology

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“…39 Similarly, an amyloid formed from a basic peptide will have a higher affinity for the negatively charged backbone of a DNA molecule than a single peptide. 43 The wide species distribution and growing number of known functional amyloids is further evidence that despite its simplicity, the amyloid fold can give rise to a plethora of activities. 42 Finally, a feature that sets the amyloid structure apart with regard to a CA fold is that it can be formed by peptides as short as four amino acid residues, thus providing small peptides access to some features of larger folded proteins.…”

Section: Peptide Amyloidsmentioning

confidence: 99%

“…43,61 Interestingly, several studies have shown that there has been an evolutionary selection against β-aggregation-prone In each polymorph, the Glu side chain (yellow) exists in only one of two favored conformations. As in (a), there is an energy barrier (e.g., steric clashes) that prevents an individual from changing conformation on its own.…”

Section: Proteins As Genes: An Amyloid Replicator As the First Functimentioning

confidence: 99%

On the Possible Amyloid Origin of Protein Folds

Greenwald¹,

Riek²

2012

Journal of Molecular Biology

128

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“…Such mutually beneficial effects have been shown for DNA and peptide amyloids, for which DNA stabilizes the amyloid fibers and the amyloid supports DNA hybridization (12). Furthermore, the encapsulation inside of vesicles by amphiphilic membrane-like structures may be beneficial to the encapsulated system by offering protection from hydrolysis and by preventing loss of the system through diffusion, as has been demonstrated for example by the chemical replication of RNA inside fatty acid vesicles (13) or by protein translation within vesicles that contain the 80 different macromolecular species required for translation (14).…”

Section: Introductionmentioning

confidence: 86%

Cooperative induction of ordered peptide and fatty acid aggregates

Riek

Greenwald

Kwiatkowski

et al. 2018

Preprint

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Interactions between biological membranes and disease-associated amyloids are well documented and their prevalence suggests that an inherent affinity exists between these two distinct molecular assemblies. Within the framework of our research project on amyloids and the origins of life, we hypothesized here that such interactions could increase both the sequence and structure space of peptide amyloids in a heterogeneous system and that if cooperative in nature, the interaction could be advantageous to the propagation of these entities in a prebiotic context. Thus, we have investigated the interplay between vesicle-forming fatty acids and amyloidogenic peptides, the respective precursors of lipids and proteins. Individually they are able to form ordered structures under a limited range of conditions with the bilayer of fatty acid vesicles and the cross-β core of amyloids both being repetitive structures that could in principle support a cooperative interaction. Here we report that an 8-residue basic peptide that can form an amphipathic β-strand, that is soluble at neutral pH and that can form amyloids above its pI at pH 11, is also able to cooperatively form novel co-aggregates of diverse structure with and in the context of simple fatty acids at neutral pH. Below the critical vesicle concentration (CVC) the mixtures of fatty acid and peptide yield a flocculent precipitate with an underlying β-structure. Above the CVC, the mixtures yield ribbon or tube-like structures that bear some of the hallmarks of amyloids yet have associated with them a significant amount of fatty acids, likely in a bilayer structure. In the context of the origin of cellular life these results expand the phase space of both peptides and fatty acids while providing a simple yet robust physical connection between two distinct biological entities relevant for life.

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Amyloid-Associated Nucleic Acid Hybridisation

Cited by 42 publications

References 41 publications

Origin of life. Primordial genetics: Information transfer in a pre-RNA world based on self-replicating beta-sheet amyloid conformers

Origin of life. Primordial genetics: Information transfer in a pre-RNA world based on self-replicating beta-sheet amyloid conformers

On the Possible Amyloid Origin of Protein Folds

Cooperative induction of ordered peptide and fatty acid aggregates

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