Traditional SELEX (Systematic Evolution of Ligands by EXponential enrichment) is a method to select high-affinity, specific nucleic acid aptamers from a vast random library (10¹³-10¹⁵ sequences). The bottleneck has always been the final cloning and Sanger sequencing of only a few dozen candidates, which often misses rare, high-performance aptamers. NGS-assisted SELEX integrates Next-Generation Sequencing at multiple rounds of the SELEX process. This provides a massive, data-rich view of the entire evolutionary landscape, enabling intelligent selection and identification of the best aptamers. Typical Workflow of an NGS-Assisted SELEX Service A professional service provider will manage this entire pipeline: Project Design & Library Synthesis: Collaboration to define target (protein, small molecule, cell), counter-selection requirements, and library design (random region length, fixed primers for NGS). Parallel SELEX Execution: Performing the iterative selection process (binding, partitioning, amplification) across multiple rounds (usually 8-12). Key NGS Integration Points: Initial Library Analysis: Sequencing the naive library to confirm diversity and complexity. Monitoring Rounds (e.g., Rounds 3, 6, 9): Taking small samples from intermediate rounds for NGS. This is the critical advantage. It tracks: Sequence Enrichment: Which families are becoming more abundant. Diversity Collapse: When to stop selection before losing good candidates. Informed Decision-Making: Data guides adjustments in selection stringency for subsequent rounds. Final Round Deep Sequencing: Comprehensive NGS of…
