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. 2022:2383:45-61.
doi: 10.1007/978-1-0716-1752-6_3.

Artificial Evolutionary Optimization Process to Improve the Functionality of Cell Penetrating Peptides

Niels Röckendorf  1 Katrin Ramaker  1 Andreas Frey  2
Affiliations

Artificial Evolutionary Optimization Process to Improve the Functionality of Cell Penetrating Peptides

Niels Röckendorf et al. Methods Mol Biol. 2022.

Abstract

Crossing cellular membranes is a versatile molecular property that allows for a wide variety of peptides with cell penetrating capabilities. This broadness complicates identification of candidates suited best for a specific application. To facilitate the screening of this enormous molecular space in a supervised manner we here present a method to "breed" the desired molecules by applying the rules of Darwinian evolution. With this mate-and-check protocol, which combines an in silico evolution step with an in vitro performance test, cell penetrating peptides that are optimized for a specific task can be achieved in a few rounds of breeding. The procedure is simple and straightforward on the synthetic site but requires robust, highly reproducible and close-to-reality biological assays to yield realistic functional output. With this technology even top-performing peptides can be further improved and functionally adjusted.

Keywords: CPP; Fitness value; Genetic algorithm; Lead peptide; Molecular evolution; Population diversity; Ranking.

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References

    1. Röckendorf N, Borschbach M, Frey A (2012) Molecular evolution of peptide ligands with custom-tailored characteristics for targeting of glycostructures. PLoS Comput Biol 8:e1002800 - DOI
    1. Rosenthal S, Borschbach M (2014) Impact of population size and selection within a customized NSGA-II for biochemical optimization assessed on the basis of the average cuboid volume indicator. Bioinformatics 2014:1–7
    1. Rosenthal S, Borschbach M (2018) Indicator-based versus aspect-based selection in multi- and many-objective biochemical optimization. In: Korošec P, Melab N, Talbi E-G (eds) Bioinspired optimization methods and their applications. Springer International Publishing, Cham, pp 258–269 - DOI
    1. Krause T, Röckendorf N, El-Sourani N, Ramaker K, Henkel M, Hauke S, Borschbach M, Frey A (2018) Breeding cell penetrating peptides: optimization of cellular uptake by a function-driven evolutionary process. Bioconjug Chem 29:4020–4029 - DOI
    1. Ramaker K, Henkel M, Krause T, Röckendorf N, Frey A (2018) Cell penetrating peptides: a comparative transport analysis for 474 sequence motifs. Drug Deliv 25:928–937 - DOI

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