Visible-Light-Induced
Effects of Au Nanoparticle on
Laccase Catalytic Activity
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Abstract
A deep understanding of the interaction
between the nanoparticle
and enzyme is important for biocatalyst design. Here, we report the <i>in situ</i> synthesis of laccase–Au NP (laccase–Au)
hybrids and its catalytic activity modulation by visible light. In
the present hybrid system, the activity of laccase was significantly
improved (increased by 91.2% vs free laccase) by Au NPs. With a short
time visible light illumination (λ > 420 nm, within 3 min),
the activity of laccase–Au hybrids decreased by 8.1% (vs laccase–Au
hybrid without light), which can be restored to its initial one when
the illumination is removed. However, after a long time illumination
(λ > 420 nm, over 10 min), the catalytic activity of laccase–Au
hybrids consecutively decreases and is not reversible even after removing
the illumination. Our experiments also suggested that the local surface
plasma resonance effect of Au NPs causes the structure change of laccase
and local high temperature near the Au NPs. Those changes eventually
affect the transportation of electrons in laccase, which further results
in the declined activity of laccase