Litcius/Paper detail

Direct digital sensing of protein biomarkers in solution

Georg Krainer, Kadi L. Saar, William E. Arter, Timothy J. Welsh, Magdalena A. Czekalska, Raphaël P. B. Jacquat, Quentin Peter, Walther C. Traberg, Arvind Pujari, Akhila K. Jayaram, Pavan K. Challa, Christopher G. Taylor, Lize-Mari van der Linden, Titus M. Franzmann, Róisı́n M. Owens, Simon Alberti, David Klenerman, Tuomas P. J. Knowles

2023Nature Communications49 citationsDOIOpen Access PDF

Abstract

The detection of proteins is of central importance to biomolecular analysis and diagnostics. Typical immunosensing assays rely on surface-capture of target molecules, but this constraint can limit specificity, sensitivity, and the ability to obtain information beyond simple concentration measurements. Here we present a surface-free, single-molecule microfluidic sensing platform for direct digital protein biomarker detection in solution, termed digital immunosensor assay (DigitISA). DigitISA is based on microchip electrophoretic separation combined with single-molecule detection and enables absolute number/concentration quantification of proteins in a single, solution-phase step. Applying DigitISA to a range of targets including amyloid aggregates, exosomes, and biomolecular condensates, we demonstrate that the assay provides information beyond stoichiometric interactions, and enables characterization of immunochemistry, binding affinity, and protein biomarker abundance. Taken together, our results suggest a experimental paradigm for the sensing of protein biomarkers, which enables analyses of targets that are challenging to address using conventional immunosensing approaches.

Topics & Concepts

Detection limitMicrofluidicsProtein detectionBiomarkerNanotechnologyChemistryCharacterization (materials science)ChromatographyMaterials scienceBiochemistryAdvanced biosensing and bioanalysis techniquesMicrofluidic and Bio-sensing TechnologiesNanopore and Nanochannel Transport Studies
Direct digital sensing of protein biomarkers in solution | Litcius