Influence of self-assembling nonsubstrates on the enzymatic postmodification of peptide supramolecules

Ayato Higuchi; Rie Wakabayashi; Izuru Kawamura; Masahiro Goto; Noriho Kamiya

doi:10.1093/chemle/upae241

Influence of self-assembling nonsubstrates on the enzymatic postmodification of peptide supramolecules

Ayato Higuchi, Rie Wakabayashi, Izuru Kawamura, Masahiro Goto, Noriho Kamiya

Chemistry and Biochemistry

Research output: Contribution to journal › Article › peer-review

Abstract

The enzymatic postmodification of supramolecules with functional motifs is a promising approach for preparing tailor-made bioactive materials. We attempted to improve the enzyme reactivity of the previously developed, self-assembling aromatic peptide amphiphile, Fmoc-L₃QG, by incorporating other self-assembling components, Fmoc-L_n (n = 2, 3), without the enzyme recognition moiety. Although microscopic and spectroscopic studies suggested neither the nonsubstrate peptide amphiphile coassembled with Fmoc-L₃QG, the presence of the short fibril-forming Fmoc-L₂ and long fibril-forming Fmoc-L₃ increased and decreased, respectively, the enzymatic reactivity of Fmoc-L₃QG. The findings here suggest that the supramolecular morphologies play a role in modulating the enzyme reaction environment.

Original language	English
Article number	upae241
Journal	Chemistry Letters
Volume	54
Issue number	1
DOIs	https://doi.org/10.1093/chemle/upae241
Publication status	Published - Jan 2025

All Science Journal Classification (ASJC) codes

General Chemistry

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10.1093/chemle/upae241

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title = "Influence of self-assembling nonsubstrates on the enzymatic postmodification of peptide supramolecules",

abstract = "The enzymatic postmodification of supramolecules with functional motifs is a promising approach for preparing tailor-made bioactive materials. We attempted to improve the enzyme reactivity of the previously developed, self-assembling aromatic peptide amphiphile, Fmoc-L3QG, by incorporating other self-assembling components, Fmoc-Ln (n = 2, 3), without the enzyme recognition moiety. Although microscopic and spectroscopic studies suggested neither the nonsubstrate peptide amphiphile coassembled with Fmoc-L3QG, the presence of the short fibril-forming Fmoc-L2 and long fibril-forming Fmoc-L3 increased and decreased, respectively, the enzymatic reactivity of Fmoc-L3QG. The findings here suggest that the supramolecular morphologies play a role in modulating the enzyme reaction environment.",

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AU - Higuchi, Ayato

AU - Wakabayashi, Rie

AU - Kawamura, Izuru

AU - Goto, Masahiro

AU - Kamiya, Noriho

PY - 2025/1

Y1 - 2025/1

N2 - The enzymatic postmodification of supramolecules with functional motifs is a promising approach for preparing tailor-made bioactive materials. We attempted to improve the enzyme reactivity of the previously developed, self-assembling aromatic peptide amphiphile, Fmoc-L3QG, by incorporating other self-assembling components, Fmoc-Ln (n = 2, 3), without the enzyme recognition moiety. Although microscopic and spectroscopic studies suggested neither the nonsubstrate peptide amphiphile coassembled with Fmoc-L3QG, the presence of the short fibril-forming Fmoc-L2 and long fibril-forming Fmoc-L3 increased and decreased, respectively, the enzymatic reactivity of Fmoc-L3QG. The findings here suggest that the supramolecular morphologies play a role in modulating the enzyme reaction environment.

AB - The enzymatic postmodification of supramolecules with functional motifs is a promising approach for preparing tailor-made bioactive materials. We attempted to improve the enzyme reactivity of the previously developed, self-assembling aromatic peptide amphiphile, Fmoc-L3QG, by incorporating other self-assembling components, Fmoc-Ln (n = 2, 3), without the enzyme recognition moiety. Although microscopic and spectroscopic studies suggested neither the nonsubstrate peptide amphiphile coassembled with Fmoc-L3QG, the presence of the short fibril-forming Fmoc-L2 and long fibril-forming Fmoc-L3 increased and decreased, respectively, the enzymatic reactivity of Fmoc-L3QG. The findings here suggest that the supramolecular morphologies play a role in modulating the enzyme reaction environment.

KW - enzymatic reaction

KW - peptide amphiphile

KW - postmodification

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Influence of self-assembling nonsubstrates on the enzymatic postmodification of peptide supramolecules

Abstract

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