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…
What is an Aptamer? An aptamer is a short, single-stranded DNA or RNA oligonucleotide that folds into a specific 3D structure, allowing it to bind to a target molecule (like a cytokine) with high affinity and specificity, akin to a monoclonal antibody. Why Target Cytokines with Aptamers? Cytokines are key signaling proteins in immune and inflammatory responses. Dysregulation is implicated in diseases like: Autoimmune disorders: Rheumatoid arthritis, psoriasis, inflammatory bowel disease. Cancer: Tumor microenvironment signaling. Cytokine Storms: Severe COVID-19, sepsis. Neurological diseases. Aptamers offer advantages over traditional antibody-based therapies: High Specificity: Can distinguish between closely related cytokine isoforms or conformational states. Controlled Synthesis: Chemically produced, no batch-to-batch variation. Modifiability: Easily conjugated with drugs, fluorophores, or nanoparticles. Low Immunogenicity: Less likely to cause an immune response. Stability: Generally more stable than proteins. The Aptamer Screening Service Workflow (SELEX) A professional service will manage the entire SELEX (Systematic Evolution of Ligands by EXponential Enrichment) process. Here’s a typical pipeline: Phase 1: Project Design & Target Preparation Consultation: Define the goal—neutralization, detection, or delivery. Target Selection: Which cytokine? (e.g., TNF-α, IL-6, IL-1β, IFN-γ). Requires a high-purity, bioactive protein. Services often help with recombinant expression/purification if needed. Library Design: A vast random-sequence oligonucleotide library (10^14-10^15 unique sequences) is the starting point. Libraries can be DNA, RNA, or contain modified…
1. Core Concept: What is Capture-SELEX? Capture-SELEX (Systematic Evolution of Ligands by EXponential Enrichment) is an advanced selection technique used to discover single-stranded DNA or RNA aptamers that bind to a specific target molecule. The key innovation is that the target molecule is immobilized (or "captured") on a solid support via a short, known oligonucleotide sequence that is part of the initial random library. This makes it exceptionally powerful for selecting aptamers against small molecules or targets without natural immobilization sites. 2. The Key Differentiator: How It Differs from Classical SELEX Classical SELEX: The target itself is immobilized directly on a surface (e.g., a bead or plate). This can sometimes lead to aptamers that bind to the surface or the immobilized region of the target, which may not function well in solution. Capture-SELEX: The library itself is immobilized via a complementary "capture sequence." Only sequences that bind to the free, unmodified target in solution undergo a conformational change that releases them from the capture strand for collection. 3. Step-by-Step Process of a Capture-SELEX Service A service provider will typically manage this entire pipeline: Step 1: Project Design & Library Synthesis You define the target (e.g., a small molecule, protein, cell). The service designs a custom single-stranded DNA (ssDNA) library: [5' Fixed Primer Sequence - RANDOM Region…
