Lysozyme–phenolics bioconjugates with antioxidant and antibacterial bifunctionalities: Structural basis underlying the dual-function

Abstract

This work aims at adopting an Electron Paramagnetic Resonance (EPR) spectroscopic technique to help understanding protein–phenolic conjugation and final functionalities relationship as well as the underlying structural basis of antioxidant and antibacterial dual functionalities. Specifically, lysozyme (Lys) was conjugated with two natural phenolic acids, i.e. rosmarinic acid (RA) and gentisic acid (GA, our previous work) with obviously different molecular features. Lys-RA displayed 8.6- and 4.0-times enhanced antioxidant stoichiometry compared to the native Lys and ones with GA, respectively, due to the stronger antioxidant activity of RA. However, RA conjugation mitigated both enzymatic and antibacterial activities of Lys-RA conjugates. Such inhibition effect is attributed to the greater structural and surface property changes of Lys upon conjugating with RA. Furthermore, the polyphenol conjugation related structural basis of disturbance, reactivity and selectivity were explored via site-directed spin labeling (SDSL)–EPR. A dynamic picture of reactivity and selectivity of phenolics conjugation on Lys was proposed.