Tuning of Surface Charge of Functionalized Poly(Carboxybetaine) Brushes Can Significantly Improve Label‐Free Biosensing in Complex Media

Víšová, Ivana; Houska, Milan; Spasovová, Monika; Forinová, Michala; Pilipenco, Alina; Mezuláníková, Kateřina; Tomandlová, Markéta; Mrkvová, Kateřina; Vrabcová, Markéta; Dejneka, A.; Dostálek, Jakub; Vaisocherová‐Lísalová, Hana

doi:10.1002/admi.202201210

Cited by 7 publications

(11 citation statements)

References 42 publications

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“…It should be noted that in addition to the thiol SAM architectures, we also tested poly[( N -(2-hydroxypropyl)-methacrylamide)- co -(carboxybetaine methacrylamide)] (HPMA- co -CBMA) brushes for minimizing background signal F b . This polymer coating takes advantage of zwitterionic groups that tightly bind water molecules, where such surfaces have been reported to exhibit ultralow fouling properties, even after the postmodification with protein ligands by using amine coupling . However, the obtained results (see Figure S5a for testing various deactivation agents and Figure S5b for dAb-CS* complex dissolved in different buffer solutions) did not reveal such functionality, and sufficient repelling from unspecific interaction of dAb-CS* conjugate was not achieved when IL-6 immuno-RCA assay was applied.…”

Section: Resultsmentioning

confidence: 99%

“…This polymer coating takes advantage of zwitterionic groups that tightly bind water molecules, where such surfaces have been reported to exhibit ultralow fouling properties, even after the postmodification with protein ligands by using amine coupling. 24 However, the obtained results (see Figure S5a for testing various deactivation agents and Figure S5b for dAb-CS* complex dissolved in different buffer solutions) did not reveal such functionality, and sufficient repelling from unspecific interaction of dAb-CS* conjugate was not achieved when IL-6 immuno-RCA assay was applied. It was ascribed to unbalanced charge density occurring after the cAb was attached to the surface via the carboxy-betaine groups with the active ester chemistry (leading to net positive charge and possible Coulombic interaction with negatively charged dAb-CS*).…”

Section: ■ Results and Discussionmentioning

confidence: 99%

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Sandwich Immuno-RCA Assay with Single Molecule Counting Readout: The Importance of Biointerface Design

Schmidt,

Riedel,

de los Santos Pereira

et al. 2024

ACS Appl. Mater. Interfaces

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The analysis of low-abundance protein molecules in human serum is reported based on counting of the individual affinity-captured analyte on a solid sensor surface, yielding a readout format similar to digital assays. In this approach, a sandwich immunoassay with rolling circle amplification (RCA) is used for single molecule detection (SMD) through associating the target analyte with spatially distinct bright spots observed by fluorescence microscopy. The unspecific interaction of the target analyte and other immunoassay constituents with the sensor surface is of particular interest in this work, as it ultimately limits the performance of this assay. It is minimized by the design of the respective biointerface and thiol self-assembled monolayer with oligoethylene (OEG) head groups, and a poly[oligo(ethylene glycol) methacrylate] (pHOEGMA) antifouling polymer brush was used for the immobilization of the capture antibody (cAb) on the sensor surface. The assay relying on fluorescent postlabeling of long singlestranded DNA that are grafted from the detection antibody (dAb) by RCA was established with the help of combined surface plasmon resonance and surface plasmon-enhanced fluorescence monitoring of reaction kinetics. These techniques were employed for in situ measurements of conjugating of cAb to the sensor surface, tagging of short single-stranded DNA to dAb, affinity capture of the target analyte from the analyzed liquid sample, and the fluorescence readout of the RCA product. Through mitigation of adsorption of nontarget molecules on the sensor surface by tailoring of the antifouling biointerface, optimizing conjugation chemistry, and by implementing weak Coulombic repelling between dAb and the sensor surface, the limit of detection (LOD) of the assay was substantially improved. For the chosen interleukin−6 biomarker, SMD assay with LOD at a concentration of 4.3 fM was achieved for model (spiked) samples, and validation of the ability of detection of standard human serum samples is demonstrated.

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Section: Resultsmentioning

confidence: 99%

Section: ■ Results and Discussionmentioning

confidence: 99%

Sandwich Immuno-RCA Assay with Single Molecule Counting Readout: The Importance of Biointerface Design

Schmidt,

Riedel,

de los Santos Pereira

et al. 2024

ACS Appl. Mater. Interfaces

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“…dimethylaminopyridine) as catalyst 28,40,51–53 Residual active NHS-esters can disrupt the antifouling properties of activated polymer brushes, thus exposure to deactivators, such as amino compound bearing carboxyl or sulfate groups can be carried out. 54 An alternative strategy consists in functionalising amine-bearing brushes with reactive esters. For example, maleimide-NHS esters have been used to functionalize PDMA- co -APMA brushes with maleimide moieties prior to further coupling.…”

Section: Side Chain Functionalisation Strategiesmentioning

confidence: 99%

A guide to functionalisation and bioconjugation strategies to surface-initiated polymer brushes

Neri-Cruz,

Teixeira,

Gautrot

2023

Chem. Commun.

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“…[7][8][9][10] Significant efforts have been made in this field, including the emergence of new concepts to simplify surface polymerizations, and the latest attempt in applications such as biomedicine, [11,12] electronics, [13,14] and biosensing. [15,16] Conventional radical polymerizations are commonly used to synthesize polymer brushes. However, uncontrollable and irreversible termination and transfer processes cause deviation from desired chain lengths and broad molecular weight distribution, limiting the wide application of the polymers.…”

Section: Introductionmentioning

confidence: 99%

“…The number of publications on polymer brushes is increasing every year, the topics range from polymers, physics, material science, and food science to biology and medical science, clearly demonstrating the importance and growing interest in polymer brushes [7–10] . Significant efforts have been made in this field, including the emergence of new concepts to simplify surface polymerizations, and the latest attempt in applications such as biomedicine, [11, 12] electronics, [13, 14] and biosensing [15, 16] …”

Section: Introductionmentioning

confidence: 99%

Driving Polymer Brushes from Synthesis to Functioning

et al. 2023

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The great success of controlled radical polymerizations has encouraged researchers to develop more facile and robust approaches for surface-initiated polymerizations (SIPs) to fabricate polymer brushes, even for non-experts. In recent years, external-stimuli-mediated radical polymerization methods have come to the fore as SIPs because of their less rigorous synthetic procedures and high controllability, which expand the opportunities for synthesizing macromolecules with desired chemical compositions and structures, as well as tailor-made polymers and bioconjugates that show broad applicability and physiological compatibility. This review discusses the latest developments in surfaceinitiated polymerization methods, in particular, external-stimuli mediated atom transfer radical polymerization (ATRP), photo-induced polymerizations, and reversible addition-fragmentation chain transfer (RAFT) polymerization, as well as other methods and their combination for the application in surface grafting. The implementation of these methods is of great interest due to their unique possibilities to temporally control a polymerization process, fast and straightforward polymerization, and environmentally benign features, which lead to established and emerging applications in biolubrication, antifouling, and biosensing.

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Tuning of Surface Charge of Functionalized Poly(Carboxybetaine) Brushes Can Significantly Improve Label‐Free Biosensing in Complex Media

Cited by 7 publications

References 42 publications

Sandwich Immuno-RCA Assay with Single Molecule Counting Readout: The Importance of Biointerface Design

Sandwich Immuno-RCA Assay with Single Molecule Counting Readout: The Importance of Biointerface Design

A guide to functionalisation and bioconjugation strategies to surface-initiated polymer brushes

Driving Polymer Brushes from Synthesis to Functioning

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