In
this work, a triple-amplified biosensor with a bioactivity-maintained
peculiarity was constructed for quantitative procalcitonin (PCT) detection.
As everyone knows, a strong electrochemiluminescence (ECL) signal
is the premise to ensure high sensitivity for trace target detection.
Hence, a valid tactic was developed to achieve signal amplification
of luminophor by using Co2+-based metal–organic
frameworks (ZIF-67) and silver–cysteine (AgCys). The ZIF-67
particles, which have more atomically dispersed Co2+, could
play the role of a co-reaction accelerator to catalyze S2O8
2– to generate abundant Co3+ and sulfate radical anions (SO4
•‑). Afterward, a mass of Co3+ was reduced to more hydroxyl
radicals (OH•) by H2O, thus ulteriorly
reducing S2O8
2– to generate
more SO4
•‑. Remarkably, S2O8
2– was reduced to SO4
•‑ continuously with the recycling of Co2+ and Co3+, which realized an effective signal
amplification. Meanwhile, the AgCys complex with superior catalysis
and biocompatibility was prepared to further improve the ECL signal
and maintain the bioactivity of the biomolecule. Furthermore, HWRGWVC,
a heptapeptide that was used for combining the Fc fragments of an
antibody by Au–S bonding to achieve the fixed point fixation,
could not only maintain bioactivity of an antibody but also improved
its incubation efficiency, thus further enhancing biosensor sensitivity.
Under optimum conditions, the proposed biosensor realized highly sensitive
assay for PCT with a wide dynamic range from 10 fg/mL to 100 ng/mL
and a detection limit as low as 3.67 fg/mL. With superior stability,
selectivity, and repeatability, the prepared biosensor revealed immense
potential application of ultrasensitive assay for PCT in human serum.
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