What is the Service? It's the process of using SELEX (Systematic Evolution of Ligands by EXponential Enrichment) to identify single-stranded DNA or RNA aptamers that can bind to a target cytokine. The service takes you from target selection to delivering validated aptamer candidates. Standard Workflow (What the Provider Does) Project Scoping & Target Preparation: Target: You specify the cytokine (e.g., TNF-α, IL-6, IFN-γ). The provider may require you to supply the purified, recombinant protein or offer to procure/produce it. Counter-SELEX: A critical step to ensure specificity. The provider will use related proteins (e.g., other cytokines, serum proteins) to eliminate aptamers that bind non-specifically. Library Design & SELEX Cycle: Starts with a vast random oligonucleotide library (10^14 - 10^15 unique sequences). Iterative rounds (8-15+) of: Binding: Incubating the library with the target cytokine. Partitioning: Separating bound from unbound sequences (e.g., via immobilization on beads, filters, or capillary electrophoresis). Amplification: PCR (for DNA) or RT-PCR (for RNA) to enrich the binding sequences. Stringency Increase: Gradually increasing washing rigor and introducing counter-selection to drive selection of high-affinity, specific binders. Next-Generation Sequencing (NGS) & Bioinformatics: After the final rounds, the enriched pool is sequenced using NGS. Bioinformatics tools analyze the data to identify enriched sequence families, consensus motifs, and predict secondary structures.…
What is an Aptamer? An aptamer is a short, single-stranded oligonucleotide (DNA or RNA) that folds into a unique 3D structure, allowing it to bind to a specific target molecule (like a protein) with similar specificity to an antibody. They are often called "chemical antibodies." Why Use a Screening Service Instead of In-House Development? Expertise & Equipment: The screening process (SELEX) requires specialized skills, robotics, and next-generation sequencing (NGS) infrastructure. Time & Cost Efficiency: Outsourcing can be faster and more cost-effective than setting up a new, complex pipeline. Higher Success Rate: Experienced providers have optimized protocols for difficult targets (e.g., membrane proteins, toxic proteins). The Core Process: SELEX The standard method is SELEX (Systematic Evolution of Ligands by EXponential Enrichment). A professional service will offer advanced variants of this process. A Typical Service Workflow: Project Consultation & Design: Target Characterization: Discussion about your protein (purified? membrane-bound? post-translational modifications?). Selection Strategy: Choosing the best SELEX method (e.g., Capillary Electrophoresis-SELEX (CE-SELEX) for very high affinity, Cell-SELEX for cell-surface targets, Toggle-SELEX for cross-species specificity). Counter-Selection: Designing the process to avoid binding to non-target proteins (e.g., carrier proteins, related isoforms). Library Synthesis & Preparation: Creation of a vast random oligonucleotide library (typically 10¹³ - 10¹⁵ unique sequences). The Selection Rounds (Cycles of SELEX): Binding: Incubating the library with the…
Core Technology: SELEX The foundation of all these services is the SELEX process, an in vitro method to select aptamers from a vast random library (typically 10^13 - 10^15 unique sequences). The library is incubated with the target, unbound sequences are washed away, and bound sequences are eluted and amplified by PCR (for DNA) or RT-PCR (for RNA). This cycle is repeated 8-15 times to enrich for the tightest binders. Services for Protein Targets This is the most common application, as aptamers are often touted as "chemical antibodies." 1. Standard Protein SELEX: Target: Purified, recombinant proteins (e.g., cytokines, receptors, enzymes, viral capsids). Key Considerations: Protein Purity & Conformation: Critical for success. Services often require >90% purity and verification of native folding. Immobilization: The protein is usually immobilized on beads (e.g., streptavidin/biotin, Ni-NTA/His-tag) to facilitate partitioning. Some services offer solution-phase SELEX to avoid conformation changes. Counter-Selection: To ensure specificity, libraries are pre-incubated with related proteins or the immobilization matrix to subtract non-specific binders. 2. Specialized SELEX for Complex Proteins: Membrane Protein SELEX: For receptors and channels. Requires special handling (e.g., use of nanodiscs, detergent micelles, or whole cells overexpressing the target). Post-Translationally Modified Protein SELEX: For targets where phosphorylation, glycosylation, etc., are essential for function. 3. Cell-SELEX (for Cell-Surface…
Aptamers are short, single-stranded DNA or RNA sequences that fold into 3D shapes capable of binding specific targets—proteins, small molecules, ions, cells, or even complex mixtures—with high affinity and selectivity. Because they are chemically synthesized, readily modified, and often less immunogenic than protein binders, aptamers have matured into a versatile “molecular toolkit” used across diagnostics, biosensing, therapeutics, imaging, and bioprocessing. This article explains APTAMER APPLICATIONS from fundamentals to advanced use-cases, with an emphasis on how teams translate an aptamer sequence into a functioning assay, sensor, drug carrier, or imaging probe. 1) How Aptamers Are Created (Why Selection Method Shapes Applications) Most aptamers are discovered through SELEX (Systematic Evolution of Ligands by EXponential enrichment): iterative rounds of binding, separation, and amplification that enrich sequences best suited to a chosen target and conditions. Modern SELEX variants—such as cell-SELEX, microfluidic SELEX, and capillary electrophoresis SELEX—aim to shorten selection time, improve specificity, and better match real-world sample environments. The practical result is that application performance often depends as much on selection constraints (buffer, temperature, counter-selection targets, matrix effects) as on the final nucleotide sequence. Key takeaway: If the intended application involves serum, saliva, food extracts, or environmental water, designing SELEX conditions to…
