What is the Core Service? The service provider uses an iterative, in vitro selection process called SELEX (Systematic Evolution of Ligands by EXponential Enrichment) to screen vast random oligonucleotide libraries (10^14 - 10^15 unique sequences) against your target protein. The output is a set of characterized aptamer sequences that bind to the viral capsid. Standardized Screening Workflow A professional service will manage this entire pipeline: 1. Project Design & Target Preparation: Target Discussion: Defining the specific capsid protein (e.g., HIV-1 CA, HBV core, SARS-CoV-2 N), its form (full-length, domain, assembled capsid/nucleocapsid), and purity. Target Immobilization: The protein is often immobilized on a solid support (beads, plate) to facilitate separation of bound/unbound sequences. Some services offer solution-phase or capillary electrophoresis (CE-SELEX) methods for higher stringency. 2. SELEX Selection Rounds (Cycles 5-15): Incubation: The oligonucleotide library is incubated with the target. Partitioning: Unbound sequences are washed away; bound sequences are retained. Elution: Bound aptamers are eluted (e.g., by heating, denaturing agents). Amplification: Eluted aptamers are amplified by PCR (for DNA) or RT-PCR (for RNA). Purification: The amplified pool is purified for the next selection round. Counter-Selection: To ensure specificity, the pool is often passed through a negative control (e.g., irrelevant protein, cell lysate) to remove non-specific binders. 3. Sequencing & Identification: High-Throughput…
Membrane Protein Aptamer Screening Service is a highly specialized contract research service designed to discover aptamers that bind to integral membrane proteins, such as GPCRs, ion channels, transporters, and receptor tyrosine kinases. This is one of the most challenging and technically demanding areas of aptamer development due to the inherent complexity of maintaining the native structure and function of membrane proteins outside their lipid environment. Unique Challenges & Solutions: Target Integrity: The target protein must be kept in its native, correctly folded conformation. Services use advanced systems like: Nanodiscs: Membrane proteins embedded in a lipid bilayer stabilized by a belt protein (e.g., MSP). Proteoliposomes: Reconstituted into lipid vesicles. Detergent Micelles: Using compatible mild detergents. Whole Cell-SELEX (or Cell-SELEX): Using live cells expressing the target protein, ensuring native presentation and post-translational modifications. Hydrophobicity: The screening process must manage hydrophobic surfaces to prevent non-specific selection of sequences that simply bind lipids or detergents through careful counter-selection strategies. Specialized Screening Workflow: 1. Project Design & Target Presentation: Define Target & Goal: Specify the membrane protein (e.g., human EGFR, specific GPCR) and desired aptamer function (antagonist, agonist, simple binder for detection). Choose Presentation Platform: This is the most critical decision. The provider will advise on the optimal system: Purified Protein in Mimetics: Best for defined specificity…
Enzyme Aptamer Screening Service is a specialized contract research service where providers employ SELEX (Systematic Evolution of Ligands by EXponential Enrichment) to discover aptamers that bind with high specificity and affinity to a target enzyme. These aptamers can be designed not only to bind but also to modulate the enzyme's activity (inhibit or activate), making them powerful tools for therapeutics, diagnostics, and biochemical research. Key Differentiators from Antibody Screening: Functional Screening: A major goal is often to identify inhibitory or activating aptamers. Therefore, the screening process may incorporate activity-based selection or functional assays early on. Target Site Complexity: The target can be the entire enzyme, its active site, an allosteric site, or a specific conformational state (e.g., open vs. closed). Conformational Sensitivity: Enzymes are dynamic. Aptamers can be selected to recognize a specific functional conformation, which is a unique advantage. Typical Screening Workflow: 1. Project Design & Target Preparation: Define Objective: Is the goal pure detection, potent inhibition, allosteric modulation, or capturing a specific enzyme form? Enzyme Quality: Requires a highly pure, functional, and correctly folded enzyme. Activity assays confirm functionality. Selection Strategy: Choice of Toggle SELEX (for broad species cross-reactivity), Capture SELEX, or innovative methods like ExSELEX (for complex biological fluids). 2. The SELEX Process with a Functional Focus: Binding & Stringency: Standard incubation, washing, and elution cycles are performed. Functional Partitioning (Optional…
What is an Antibody Aptamer Screening Service? It is a specialized contract research service where a biotechnology company uses SELEX (Systematic Evolution of Ligands by EXponential Enrichment) or advanced variations of it to discover and develop aptamers that bind with high affinity and specificity to a target antibody. Antibody: A large, Y-shaped protein produced by the immune system to identify and neutralize pathogens. Aptamer: A short, single-stranded DNA or RNA oligonucleotide (or a modified derivative) that folds into a specific 3D structure, enabling it to bind to a target molecule with antibody-like specificity. Often called "chemical antibodies." The goal of the service is to provide clients with synthetic, recombinant-like binding molecules as alternatives or complements to traditional monoclonal antibodies. Why Screen for Aptamers Against Antibodies? Aptamers offer distinct advantages, making them attractive for various applications: Anti-Drug Antibody (ADA) Detection: Develop aptamer-based assays to detect and quantify ADAs in clinical trials for biotherapeutics. Diagnostic Tools: Create aptamer sensors (aptasensors) to detect specific antibody biomarkers for diseases (e.g., autoantibodies in autoimmune disorders). Therapeutic Neutralization: Discover aptamers that can bind and neutralize pathological antibodies (e.g., in autoimmune diseases like lupus or myasthenia gravis). Purification & Pull-Down: Use aptamers as ligands in chromatography or in assays to capture and isolate specific antibodies from complex…
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…
What is a Metal Ion-Targeted Aptamer Screening Service? It is a contract research service where a specialized laboratory uses an in vitro selection process (most commonly SELEX - Systematic Evolution of Ligands by EXponential Enrichment) to identify single-stranded DNA or RNA oligonucleotides (aptamers) that bind with high affinity and specificity to a specific metal ion (e.g., Pb²⁺, Hg²⁺, UO₂²⁺, As³⁺, Cd²⁺). Unlike aptamers for proteins, metal ion aptamers often rely on the ion's unique coordination chemistry to induce a specific fold or structural switch in the oligonucleotide. Core Service Workflow (The Screening Process) A typical service provider would follow these steps: Design & Library Synthesis: Creation of a vast random-sequence oligonucleotide library (10¹⁴ - 10¹⁵ different sequences). Target Preparation: The target (e.g., Pb²⁺) is often presented in a specific buffer system that controls charge, pH, and the presence of competing ions to drive selection for the desired specificity. Selection Rounds (SELEX Cycle): Binding: Incubate the library with the target metal ion. Partition: Separate metal-bound sequences from unbound ones. This is the most critical and challenging step for small ions. Techniques include: Immobilization: Cheating the ion to a solid support (beads). Capture-SELEX: Using a complementary strand or an auxiliary molecule. Size-based separation: If binding induces a conformational change (e.g., dimerization). Amplification: PCR (for…
1. What Are Aptamers? Aptamers are short, single-stranded DNA or RNA oligonucleotides (typically 20-80 bases) that fold into specific 3D structures, allowing them to bind to target molecules (like hormones) with high affinity and specificity, similar to antibodies. They are often called "chemical antibodies." 2. Why Target Hormones with Aptamers? Hormones are critical signaling molecules (e.g., insulin, cortisol, thyroid hormones, estradiol, adrenaline). Aptamers against them offer unique advantages: High Specificity: Can distinguish between structurally similar hormones (e.g., T3 vs. T4). Synthetic & Reproducible: Produced chemically with minimal batch-to-batch variation. Stability: More thermally stable than antibodies. Modifiability: Can be easily labeled with fluorescent dyes, quenchers, or nanoparticles for detection. Low Immunogenicity: Ideal for in vivo diagnostic or therapeutic applications. 3. Core Components of the Screening Service A full-service provider would typically offer the following pipeline: a. Design & Library Construction: Use of a vast random oligonucleotide library (10^14 - 10^15 unique sequences). Customization of library design based on hormone properties (small molecule vs. peptide/protein). b. SELEX Process (The Core Screening): This is an iterative, in vitro selection process. Incubation: The library is exposed to the target hormone (immobilized or in solution). Partitioning: Unbound sequences are washed away; bound sequences (aptamer candidates) are retained. Elution & Amplification: Bound sequences are eluted and amplified by PCR…
What is an Aptamer? First, a quick definition: Aptamers are short, single-stranded DNA or RNA oligonucleotides that bind to a specific target molecule (like proteins, toxins, cells) with high affinity and specificity. They are often called "chemical antibodies" but offer advantages like easier synthesis, higher stability, and lower cost. What is Toxin-Targeted Aptamer Screening? This service involves the in vitro selection and development of custom aptamers designed to bind specifically to a toxic substance. The core technology is called SELEX (Systematic Evolution of Ligands by EXponential enrichment). The process screens vast random libraries (10^14 - 10^15 different sequences) against the toxin to isolate the few sequences that bind tightly and specifically. Key Steps in the Service Pipeline Project Consultation & Target Definition: Clarify the toxin (e.g., mycotoxins like Aflatoxin B1, marine toxins like Saxitoxin, bacterial toxins like Botulinum, environmental toxins like heavy metals). Define the desired application (Detection/Biosensing, Neutralization, Capture/Purification). Specify the sample matrix (food extract, blood serum, environmental water). Library Design & SELEX Strategy: Design of a naive single-stranded DNA or RNA library. Choosing the appropriate SELEX variant: Negative Selection/Counter-SELEX: To exclude sequences that bind to similar non-toxin molecules or the assay matrix (crucial for specificity). Capture-SELEX: For small toxins that can't be immobilized. Cell-SELEX: If the…
What is an Aptamer? Aptamers are single-stranded DNA or RNA oligonucleotides that fold into specific 3D shapes, enabling them to bind to target molecules (proteins, small molecules, cells, viruses) with high affinity and specificity, similar to antibodies. They are often called "chemical antibodies." Why Use Aptamer Screening Services in Drug Discovery? Efficiency: Outsourcing to experts with specialized platforms (SELEX) accelerates discovery. Cost-Effectiveness: Avoids capital investment in complex SELEX and NGS infrastructure. Expertise: Leverages specialized knowledge in oligonucleotide chemistry, bioinformatics, and target biology. Focus: Allows internal teams to concentrate on downstream therapeutic development. Core Components of an Aptamer Screening Service A full-service provider typically offers an end-to-end pipeline: 1. Project Design & Target Preparation Consultation: Defining the target (recombinant protein, cell surface marker, whole cell), desired affinity (nM-pM), and specificity (e.g., against homologs). Counter-SELEX Strategy: Planning to eliminate binders to non-desired epitopes or related targets to ensure high specificity. 2. In Vitro Selection (SELEX) The core technology is SELEX (Systematic Evolution of Ligands by EXponential enrichment). Advanced variants are used for complex targets: Protein-SELEX: For purified recombinant proteins. Cell-SELEX: For membrane proteins in their native conformation on live cells; identifies aptamers for diseased vs. healthy cells. Tissue-SELEX: For even more complex biological environments. Capture-SELEX: For small molecules that are difficult to immobilize. High-Throughput SELEX (HT-SELEX): Uses NGS early…
