Click Conjugation of Zwitterionic Peptide with DNA Strand: An Efficient Antifouling Strategy for Versatile Photoelectrochemical Aptasensor

Chen, Huimin; Wang, Zhen; Song, Zhi-Ling; Fan, Gao-Chao; Luo, Xiliang

doi:10.1021/acs.analchem.4c00281

Anal. Chem.

2024

DOI: 10.1021/acs.analchem.4c00281

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Click Conjugation of Zwitterionic Peptide with DNA Strand: An Efficient Antifouling Strategy for Versatile Photoelectrochemical Aptasensor

Huimin Chen,

Zhen Wang,

Zhi-Ling Song

et al.

Abstract: Advanced antifouling biosensors have garnered considerable attention for their potential for precise and sensitive analysis in complex human bodily fluids. Herein, a pioneering approach was utilized to establish a robust and versatile photoelectrochemical aptasensor by conjugating a zwitterionic peptide with a DNA strand. Specifically, the branched zwitterionic peptide (BZP) was efficiently linked to complementary DNA (cDNA) through a click reaction, forming the BZP−cDNA conjugate. This intriguing conjugate ex… Show more

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Breaking barriers in electrochemical biosensing using bioinspired peptide and phage probes

Campuzano,

Pedrero,

Barderas

et al. 2024

Anal Bioanal Chem

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Electrochemical biosensing continues to advance tirelessly, overcoming barriers that have kept it from leaving research laboratories for many years. Among them, its compromised performance in complex biological matrices due to fouling or receptor stability issues, the limitations in determining toxic and small analytes, and its use, conditioned to the commercial availability of commercial receptors and the exploration of natural molecular interactions, deserved to be highlighted. To address these challenges, in addition to the intrinsic properties of electrochemical biosensing, its coupling with biomimetic materials has played a fundamental role, among which bioinspired phage and peptide probes stand out. The versatility in design and employment of these probes has opened an unimaginable plethora of possibilities for electrochemical biosensing, improving their performance far beyond the development of highly sensitive and selective devices. The state of the art offers robust electroanalytical biotools, capable of operating in complex samples and with exciting opportunities to discover and determine targets regardless of their toxicity and size, the commercial availability of bioreceptors, and prior knowledge of molecular interactions. With all this in mind, this review offers a panoramic, novel, and updated vision of both the tremendous advances and opportunities offered by the combination of electrochemical biosensors with bioinspired phage and peptide probes and the challenges and research efforts that are envisioned in the immediate future. Graphical Abstract

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Breaking barriers in electrochemical biosensing using bioinspired peptide and phage probes

Campuzano,

Pedrero,

Barderas

et al. 2024

Anal Bioanal Chem

View full text Add to dashboard Cite

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A Three-Dimensional Electrochemiluminescence Sensor Integrated with Peptide Hydrogel for Detection of H₂O₂ Released from Different Subtypes of Breast Cancer Cells

Zhou,

Wei,

Chen

et al. 2024

Anal. Chem.

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Breast cancer is a malignant tumor, with various subtypes showing different behaviors. Endogenous H 2 O 2 is an important marker of tumor progression, which makes it important to study the relationship between breast cancer subtypes and H 2 O 2 for pathogenesis and treatment strategies, but this has rarely been reported so far. In this work, we constructed a threedimensional (3D) electrochemiluminescence (ECL) sensing platform for the detection of H 2 O 2 released from two typical subtypes of breast cancer cells (MCF-7 cells for luminal A-type and MDA-MB-231 cells for three negative breast cancers, TNBCs). To adequately replicate the tumor microenvironment, the peptide hydrogel was introduced as a scaffold for 3D cell culture. The titanium foam (TF) was used as a 3D electrode to better match the 3D culture substrate. N-(4-Aminobutyl)-N-ethylisoluminol (ABEI) was selected as the ECL emitter and assembled into the peptide hydrogel by hydrogen bonding and π-stacking, which resulted in a stable and homogeneous distribution of ABEI along the hydrogel fibers. Furthermore, basic amino acids were introduced to provide alkaline microenvironment for ABEI. Therefore, ABEI exhibited high ECL efficiency, resulting in a high sensitivity with an ultralow detection limit of 0.023 nM (S/N = 3) for H 2 O 2 of the proposed ECL biosensor. MCF-7 and MDA-MB-231 cells were cultured in a 3D peptide hydrogel/ABEI/TF electrode, respectively, and endogenous H 2 O 2 was successfully monitored. A notably significant difference of H 2 O 2 released between MDA-MB-231 cells and MCF-7 cells without stimulation but similar extra release with stimulation were observed. These findings may help understand the physiological mechanisms behind the various subtypes and reactive oxygen species (ROS)-related treatment for breast cancer.

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Click Conjugation of Zwitterionic Peptide with DNA Strand: An Efficient Antifouling Strategy for Versatile Photoelectrochemical Aptasensor

Cited by 2 publications

References 47 publications

Breaking barriers in electrochemical biosensing using bioinspired peptide and phage probes

Breaking barriers in electrochemical biosensing using bioinspired peptide and phage probes

A Three-Dimensional Electrochemiluminescence Sensor Integrated with Peptide Hydrogel for Detection of H₂O₂ Released from Different Subtypes of Breast Cancer Cells

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Click Conjugation of Zwitterionic Peptide with DNA Strand: An Efficient Antifouling Strategy for Versatile Photoelectrochemical Aptasensor

Cited by 2 publications

References 47 publications

Breaking barriers in electrochemical biosensing using bioinspired peptide and phage probes

Breaking barriers in electrochemical biosensing using bioinspired peptide and phage probes

A Three-Dimensional Electrochemiluminescence Sensor Integrated with Peptide Hydrogel for Detection of H2O2 Released from Different Subtypes of Breast Cancer Cells

Contact Info

Product

Resources

About

A Three-Dimensional Electrochemiluminescence Sensor Integrated with Peptide Hydrogel for Detection of H₂O₂ Released from Different Subtypes of Breast Cancer Cells