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SPARK-seq: A high-throughput platform for aptamer discovery and kinetic profiling

Guoyan Luo, Jia Song, Yongbo Fu, Yuanjie Jiang, Yuan Gao, Zhixing Zhong, Ling Li, Yong Wei, Hao-Ran Jia, Lu Guo, Ting Fu, Qin Wu, Weihong Tan

2026Science10 citationsDOI

Abstract

Cell surface proteins are key disease biomarkers and therapeutic targets, yet high-throughput methods for aptamer discovery targeting these proteins in situ remain limited. We introduce single-cell perturbation-driven aptamer recognition and kinetics sequencing (SPARK-seq), a high-throughput platform integrating single-cell messenger RNA and aptamer sequencing with CRISPR-based surface protein perturbation. In a single experiment, SPARK-seq simultaneously mapped 5535 distinct aptamers to eight surface proteins, capturing interactions across more than two orders of magnitude in protein abundance and spanning diverse biophysical classes. The method discriminated closely related paralogous proteins with no detectable cross-reactivity and provided kinetic information that enabled the prioritization of aptamers with slow dissociation rates. Leveraging this kinetic diversity, we engineered variants with improved off-rate properties. SPARK-seq establishes a platform for high-efficiency discovery and rational variant design of aptamers and functional nucleic acids, unlocking possibilities in diagnostics and therapeutics.

Topics & Concepts

AptamerComputational biologyRNASystematic evolution of ligands by exponential enrichmentSELEX Aptamer TechniqueNucleic acidChemistryOligonucleotideBiologyPrioritizationSurface proteinDrug discoveryProteomicsAnalyteBiomarker discoveryNanotechnologySynthetic biologyDeep sequencingProtein detectionProfiling (computer programming)Messenger RNAIn situProtein–protein interactionMolecular beaconAdvanced biosensing and bioanalysis techniquesSingle-cell and spatial transcriptomicsCRISPR and Genetic Engineering
SPARK-seq: A high-throughput platform for aptamer discovery and kinetic profiling | Litcius