1 research outputs found
Label-Free Photonic Crystal-Based β‑Lactamase Biosensor for β‑Lactam Antibiotic and β‑Lactamase Inhibitor
A simple, label-free,
and visual photonic crystal-based β-lactamase
biosensor was developed for β-lactam antibiotic and β-lactamase
inhibitor in which the penicillinase (a β-lactamase) was immobilized
on the pH-sensitive colloidal crystal hydrogel (CCH) film to form
penicillinase colloidal crystal hydrogel (PCCH) biosensing film. The
hydrolysis of penicillin G (a β-lactam antibiotic) can be catalyzed
by penicillinase to produce penicilloic acid, leading to a pH decrease
in the microenvironment of PCCH film, which causes the shrink of pH-sensitive
CCH film and triggers a blue-shift of the diffraction wavelength.
Upon the addition of β-lactamase inhibitor, the hydrolysis reaction
is suppressed and no clear blue-shift is observed. The concentrations
of β-lactam antibiotic and β-lactamase inhibitor can be
sensitively evaluated by measuring the diffraction shifts. The minimum
detectable concentrations for penicillin G and clavulanate potassium
(a β-lactamase inhibitor) can reach 1 and 0.1 μM, respectively.
Furthermore, the proposed method is highly reversible and selective,
and it allows determination of penicillin G in fish pond water samples