Discovering melamine-specific bioreceptors via phage display, constructing its validation method based on the quenching on nanocomplex, and applying screened bioreceptor to the electrochemical assay of melamine

[Display omitted] •Development of melamine specific-binding bioreceptors based on phage-display.•Two types of haptens were prepared via organic synthesis to select bioreceptors.•Melamine-mediated GOQD-Hg2+ quenching system to verify specificity and selectivity.•The specific peptide showed 13.6 ppb o...

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Published in:Sensors and actuators. B, Chemical Chemical, 2021-03, Vol.330, p.129279, Article 129279
Main Authors: Park, Chan Yeong, Kim, Min Woo, Park, Kyoung Yeol, Baek, Seung Hoon, Stephanie, Ruth, Ghosh, Subhadeep, Chun, Hyang Sook, Huh, Yun Suk, Kim, Jang-Kyo, Park, Jong Pil, Park, Tae Jung
Format: Article
Language:English
Subjects:
Bioreceptor
Charge transfer
Dairy products
Electrochemical impedance spectroscopy
Electrochemical sensor
Fluorescence
Fluorescence sensor
Graphene
Graphene oxide quantum dot
Melamine
Melamine measurement
Mercury (metal)
Peptides
Phage display
Phages
Quantum dots
Quenching
Selectivity
Sensitivity
Serum albumin
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Summary:[Display omitted] •Development of melamine specific-binding bioreceptors based on phage-display.•Two types of haptens were prepared via organic synthesis to select bioreceptors.•Melamine-mediated GOQD-Hg2+ quenching system to verify specificity and selectivity.•The specific peptide showed 13.6 ppb of detection limit for electrochemical sensing.•The peptides show high specificity and selectivity for melamine in real samples. Blending melamine into foodstuffs is prohibited, but despite its harmfulness, melamine is still added to dairy products for falsifying nutritional composition. In this study, to discover the bioreceptor recognizing melamine, phage display was introduced. For the technique, two types of haptens and two kinds of phage display methods were used to improve its specificity through cross-checking each acquired result. The melamine hapten was synthesized by reacting 6-aminohexanoic acid with 2-chloro-4,6-diamino-1,3,5-triazine, which function as a spacer and epitope site, respectively, and hapten was decorated on the bovine serum albumin (BSA) as a carrier material to manufacture BSA-hapten. Based on these haptens, the phage-displayed peptides are identified by sequencing, and five peptide bioreceptors were selected according to the frequency and similarity. To construct the simple verification procedure for the discovered peptides, graphene oxide quantum dot (GOQD)-Hg2+ quenching system was adopted, and their selectivity and sensitivity were determined. Briefly, the melamine-Hg2+ complex could easily be attached on the surface of GOQD through π-π stacking, thus, the fluorescence of GOQD is quenched via charge transfer. However, if the screened peptides possess an affinity to melamine, the diminished fluorescence intensity will be recovered after adding the bioreceptor to the system resulting from hindering the formation of the melamine-Hg2+ complex. We successfully figured out the valid peptide sequences among the candidates through this approach, and the best hit was applied to the electrochemical impedance spectroscopic system. As a result, it shows a high sensitivity to the melamine with a low detection limit.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2020.129279