Resorc[4]arene-Modified Gold-Decorated Magnetic Nanoparticles for Immunosensor Development

Calcaterra, Andrea; Polli, Francesca; Lamelza, Lara; Plato, Cristina Del; Cammarone, Silvia; Ghirga, Francesca; Botta, Bruno; Mazzei, Filomena; Quaglio, Deborah

doi:10.1021/acs.bioconjchem.2c00605

Cited by 9 publications

(7 citation statements)

References 53 publications

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“…The authors tested the feasibility of a 5 min ultrafast detection of SARS-CoV-2 spike protein with a LOD below 5 nM (0.2 pmol). Recently, Calcaterra et al 147 developed a supramolecular chemistry/nanotechnology-based platform for sensitive label-free electrochemical immunosensors using a water-soluble bifunctional resorc [4]arene architecture (RW) rationally designed and synthesized to anchor gold-coated magnetic nanoparticles (Au@MNPs), as shown in Figure 9b. The immobilization process on RW@ Au@MNPs-modified electrodes was evaluated for different antibodies (AbPg, AbSPS1, and AbATZ), monitoring the current signal variation by DPV, exhibiting a linear range of 0.05−1.5 ng/mL with 0.01 ng/mL of LOD.…”

Section: Magnetic Nanoparticles (Mnps)mentioning

confidence: 99%

Section: Inorganic Nanomaterials For Healthcare Biosensingmentioning

confidence: 99%

“…The authors tested the feasibility of a 5 min ultrafast detection of SARS-CoV-2 spike protein with a LOD below 5 nM (0.2 pmol). Recently, Calcaterra et al . developed a supramolecular chemistry/nanotechnology-based platform for sensitive label-free electrochemical immunosensors using a water-soluble bifunctional resorc[4]arene architecture (RW) rationally designed and synthesized to anchor gold-coated magnetic nanoparticles (Au@MNPs), as shown in Figure b.…”

Section: Inorganic Nanomaterials For Healthcare Biosensingmentioning

confidence: 99%

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Review on Healthcare Biosensing Nanomaterials

Tripathi

Bonilla‐Cruz

2023

ACS Appl. Nano Mater.

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Fast technological progress has sped up the growth of telemedicine, mobile e-health services, and healthcare monitoring, which, nowadays, are technologies in high demand in the medical field and analytical sensing. Biosensing device design has promoted forefront research topics wherein new sensing technologies have been developed. In this regard, nanomaterials have had a crucial role wherein novel biosensors based on nanomaterials have emerged as detective tools for several biomolecules. Most biosensors are remarkably sensitive and selective to detect cancer biomarkers, toxins in foods, drugs, pathogenic microorganisms, cholesterol, pesticides, nucleic acids, glucose, heavy-metal contaminations, and other bioanalytes under different platforms at extraordinarily low concentrations (nanomolar, picomolar, or femtomolar). A comprehensive review of nanomaterials used for healthcare biosensing is offered herein. Specifically, this review offers a new point of view, highlighting and covering exhaustively several kinds of nanomaterials (<500 nm) to detect human diseases through biosensing. In this sense, we organize them into organic, inorganic, and carbon-based, thus offering a guide to selecting the best nanomaterial for specific detection. Further, it provides a roadmap to the real-time utilization of nanomaterials at a commercial scale. Also, this review addresses some crucial aspects of nanomaterials use and applications for healthcare biosensing. The progress discussed in this paper highlights the immense potential to implement the use of nanomaterials and nanocomposites in the initial examination of diseases and point-of-care testing.

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Section: Magnetic Nanoparticles (Mnps)mentioning

confidence: 99%

Section: Inorganic Nanomaterials For Healthcare Biosensingmentioning

confidence: 99%

Section: Inorganic Nanomaterials For Healthcare Biosensingmentioning

confidence: 99%

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Review on Healthcare Biosensing Nanomaterials

Tripathi

Bonilla‐Cruz

2023

ACS Appl. Nano Mater.

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“…Recently, several works have been report using calix [4]arene modified NPs. [193,[196][197][198][199] Among the electrochemical ones, Calcaterra et al, [200] recently designed a resorc [4] arene-modified Au@MNPs for atrazine detection. The cyclic oligomer has been functionalized in the upper rim with carboxylic groups to improve its water solubility.…”

Section: Site-direct Approachmentioning

confidence: 99%

Nanoparticles in Electrochemical Immunosensors – A Concept and Perspective

Polli,

Simonetti,

Surace

et al. 2023

ChemElectroChem

Self Cite

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Nanoparticle‐based electrochemical immunosensors are fascinating and promising screening systems that rely on the affinity binding between antibodies and antigens, allowing the specific detection of diverse types of targets (e. g., proteins, hormones, antibodies). The employment of nanoparticles in the realization of such devices dramatically improves the selectivity, sensitivity, and the transducer surface area for effectively immobilizing the bioreceptor or target molecules. During the last years, the nanoparticles design and fabrication was mainly focused on taking advantage from synergistic effects due to the coupling of different materials. In this review, we summarize the very recent advancements in this regard, with specific emphasis to nanoparticle syntheses procedures, antibody oriented immobilization strategies and transduction techniques. Moreover, the last trends and applications have been extensively discussed along with the remaining challenges and future perspectives.

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“…Calcaterra et al synthesized a bifunctional resorc[4]arene architecture (RW) as an artificial linker for oriented antibody (Ab) coupling and a thioether group for binding with gold-coated MNPs. The RW functionalization on the nanocomposites surface facilitates the fabrication of a versatile platform to immobilize bioreceptors with preferred orientation (Calcaterra et al, 2023).…”

Section: Polymer Functionalization For Recognition Element Labelingmentioning

confidence: 99%

Magnetic nanoparticle‐based immunosensors and aptasensors for mycotoxin detection in foodstuffs: An update

Gao,

Zhou,

Zhang

et al. 2023

Comp Rev Food Sci Food Safe

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Mycotoxin contamination of food crops is a global challenge due to their unpredictable occurrence and severe adverse health effects on humans. Therefore, it is of great importance to develop effective tools to prevent the accumulation of mycotoxins through the food chain. The use of magnetic nanoparticle (MNP)‐assisted biosensors for detecting mycotoxin in complex foodstuffs has garnered great interest due to the significantly enhanced sensitivity and accuracy. Within such a context, this review includes the fundamentals and recent advances (2020–2023) in the area of mycotoxin monitoring in food matrices using MNP‐based aptasensors and immunosensors. In this review, we start by providing a comprehensive introduction to the design of immunosensors (natural antibody or nanobody, random or site‐oriented immobilization) and aptasensors (techniques for aptamer selection, characterization, and truncation). Meanwhile, special attention is paid to the multifunctionalities of MNPs (recoverable adsorbent, versatile carrier, and signal indicator) in preparing mycotoxin‐specific biosensors. Further, the contribution of MNPs to the multiplexing determination of various mycotoxins is summarized. Finally, challenges and future perspectives for the practical applications of MNP‐assisted biosensors are also discussed. The progress and updates of MNP‐based biosensors shown in this review are expected to offer readers valuable insights about the design of MNP‐based tools for the effective detection of mycotoxins in practical applications.

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Resorc[4]arene-Modified Gold-Decorated Magnetic Nanoparticles for Immunosensor Development

Cited by 9 publications

References 53 publications

Review on Healthcare Biosensing Nanomaterials

Review on Healthcare Biosensing Nanomaterials

Nanoparticles in Electrochemical Immunosensors – A Concept and Perspective

Magnetic nanoparticle‐based immunosensors and aptasensors for mycotoxin detection in foodstuffs: An update

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