AI Article Synopsis
- Ultrasmall peptide-coated gold nanoclusters show promise as bioresponsive materials due to their ability to change fluorescence with pH levels.
- The study uses a hybrid computational approach to analyze how the peptide environment affects the fluorescence properties of these nanoclusters, focusing on the deprotonation of specific amine groups.
- The research demonstrates that variations in peptide sequences can alter the electrostatic environment, influencing the fluorescence response to pH changes and shedding light on the mechanisms behind this behavior.
Article Abstract
Ultrasmall peptide-protected gold nanoclusters are a promising class of bioresponsive material exhibiting pH-sensitive photoluminescence. We present a theoretical insight into the effect peptide-ligand environment has on pH-responsive fluorescence, with the aim of enhancing the rational design of gold nanoclusters for bioapplications. Employing a hybrid quantum/classical computational methodology, we systematically calculate deprotonation free energies of N-terminal cysteine amine groups in proximity to the inherently fluorescent core of Au(Peptide) nanoclusters. We find that subtle changes in hexapeptide sequence alter the electrostatic environment and significantly shift the conventional N-terminal amine p expected for amino acids free-in-solution. Our findings provide an insight into how the deprotonation equilibrium of N-terminal amine and side chain carboxyl groups cooperatively respond to solution pH changes, explaining the experimentally observed, yet elusive, pH-responsive fluorescence of peptide-functionalized Au clusters.
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| http://dx.doi.org/10.1021/acsnano.2c04335 | DOI Listing |
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