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Updated: Jun 3, 2026

Monitoring Protein Adsorption with Solid-state Nanopores
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Published on: December 2, 2011

Label-Free Profiling of Immunoglobulin Isotypes Using Solid-State Nanopores.

Iris Baffour Ansah1, Kevin J Freedman1

  • 1Department of Bioengineering, University of California, Riverside, California, USA.

Small Methods
|June 2, 2026
PubMed
Summary
This summary is machine-generated.

This study introduces a novel nanopore sensing assay for direct, real-time discrimination of intact antibody isotypes (IgG, IgA, IgM) without labels or fragmentation, enabling precise immune response profiling.

Keywords:
IgAIgGIgMhuman serumintact antibody translocationlabel‐freemultiplexed sensingnanopipetteprotein G

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Last Updated: Jun 3, 2026

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Area of Science:

  • Biophysics
  • Analytical Chemistry
  • Immunology

Background:

  • Accurate antibody isotype profiling is crucial for immune monitoring, disease diagnosis, and therapy guidance.
  • Current immunoassays often lack the molecular precision to capture antibody conformational dynamics.
  • Existing nanopore sensing methods typically require fragmentation or functionalization, limiting analysis of intact isotypes.

Purpose of the Study:

  • To develop a label-free nanopore-based assay for direct discrimination of intact antibody isotypes (IgG, IgA, IgM).
  • To resolve intrinsic molecular signatures of antibody isotypes in real time under non-denaturing conditions.
  • To establish a scalable framework for direct, multiplexed immunoprofiling using nanopore technology.

Main Methods:

  • Utilized glass nanopipettes in a lithium chloride electrolyte to create an electroosmotic-flow-dominated regime.
  • Employed flow-driven transport and nanoscale confinement to generate distinct ionic fingerprints for each isotype.
  • Incorporated affinity-based signal modulation using protein G to enhance isotype separability while preserving native structure.

Main Results:

  • Successfully discriminated full-length IgG, monomeric IgA, and IgM in real time based on distinct ionic fingerprints.
  • Demonstrated robust separation of isotypes in binary and ternary mixtures with high accuracy (p < 0.0001).
  • Confirmed distinguishability of isotype-specific fingerprints within a diluted human serum background.

Conclusions:

  • The developed electroosmotic flow-governed nanopore assay enables direct, label-free profiling of intact antibody isotypes.
  • This method offers a scalable framework for multiplexed immunoprofiling and has potential applications beyond antibodies for proteomic targets.
  • The assay preserves native antibody structure and binding functionality, advancing diagnostic and therapeutic monitoring capabilities.