What is Capture-SELEX? Unlike traditional SELEX where the target is immobilized, Capture-SELEX immobilizes the initial DNA library itself via a short complementary "capture" sequence. The key target molecule is free in solution. Binding occurs when an aptamer candidate in the library binds to the target, causing a structural change that releases it from the immobilization surface. This approach offers distinct advantages: Ideal for small molecules and proteins: Especially targets that are difficult to immobilize without affecting their structure. Minimizes non-specific binding: Selection pressure is purely for target-induced structure formation/release. Enriches for structure-switching aptamers: Resulting aptamers often undergo conformational change upon binding, making them excellent for biosensor development. Typical Capture-SELEX Screening Service Workflow A professional service provider will manage this complex, iterative process from start to finish. Here’s what you can expect: Phase 1: Project Design & Library Preparation Consultation & Target Specification: Defining target properties, desired affinity (Kd), specificity (against which counter-targets), and buffer conditions. Customized Library Design: Designing a single-stranded DNA library (10^14 - 10^15 unique sequences) with: A central random region (e.g., 30-50 nucleotides). Fixed primer regions for PCR amplification. A capture sequence region complementary to an immobilized oligonucleotide. Immobilization Matrix Preparation: Coupling the complementary "capture" oligonucleotides to a solid support (e.g., magnetic beads, chromatography resin). Phase 2: The Iterative Selection (SELEX) Cycles…
