What is Filter Membrane Binding SELEX? SELEX (Systematic Evolution of Ligands by EXponential enrichment) is the standard method for discovering high-affinity, specific nucleic acid aptamers. The Filter Membrane Binding variant is one of the most classic and robust SELEX techniques. Core Principle: It leverages a nitrocellulose or mixed cellulose ester filter membrane, which irreversibly binds proteins and other macromolecules but allows short, unbound single-stranded DNA or RNA oligonucleotides to pass through. The Selection Mechanism: During each selection round, the target molecule (e.g., a protein) is immobilized on the filter. An immense library of random oligonucleotides (10^13 - 10^15 unique sequences) is applied. Only sequences that bind to the target are retained on the filter with it. Unbound sequences are washed away. The bound aptamer candidates are then eluted, amplified by PCR (or RT-PCR for RNA), and used as the enriched library for the next round. Key Features of the Service A professional service will typically offer: Target Flexibility: Optimal for purified proteins (recombinant or native), protein complexes, viruses, and even some small molecules if conjugated to a carrier protein. Counter-SELEX: A critical step to ensure specificity. The enriched library is passed through a filter bound to non-target molecules (e.g., related proteins, cell lysates, immobilization matrix) to subtract cross-reactive binders. High-Throughput…
What is SELEX and What are Aptamers? Aptamers: Often called "chemical antibodies," they are short, single-stranded DNA or RNA oligonucleotides that fold into specific 3D shapes to bind with high affinity and specificity to a target molecule (e.g., a viral protein, whole bacterium, or parasite surface marker). SELEX (Systematic Evolution of Ligands by EXponential enrichment): This is the iterative combinatorial chemistry process used to discover aptamers from a vast random library (10^14-10^15 unique sequences). It involves repeated cycles of: 1) Binding the library to the target, 2) Separating bound from unbound sequences, 3) Amplifying the bound sequences, and 4) Starting a new, enriched cycle. Core Components of a Pathogen SELEX Service A professional service will typically manage the entire pipeline: 1. Project Design & Target Preparation: Consultation: Defining the precise target (e.g., whole inactivated SARS-CoV-2, Salmonella outer membrane protein, Plasmodium lysate). Counter-SELEX: A critical step for pathogen specificity. The process is run against related non-targets (e.g., host cells, non-pathogenic bacterial strains) to filter out cross-reactive aptamers, ensuring the final aptamers distinguish between pathogen and non-pathogen. 2. The SELEX Execution: Performing multiple (usually 8-15) rounds of the selection process under optimized conditions (buffer, temperature, washing stringency). 3. Next-Generation Sequencing (NGS) & Bioinformatics: After the final rounds, the enriched pool is sequenced using NGS. Bioinformatic analysis identifies sequence…
What is a Stem Cell Aptamer Screening Service? It is a contract research service where a specialized lab uses Systematic Evolution of Ligands by EXponential Enrichment (SELEX) to discover and develop DNA or RNA aptamers that bind with high affinity and specificity to a target of your choice related to stem cells. Aptamers are often called "chemical antibodies." They are short, single-stranded oligonucleotides that fold into unique 3D shapes, allowing them to bind to targets like proteins, small molecules, or even whole cells. Core Targets for Stem Cell Applications The service can be tailored to screen for aptamers against: Specific Cell Surface Markers: (e.g., CD34, CD133, SSEA-4, TRA-1-60) for identification and isolation. Whole Live Stem Cells: To get aptamers that recognize the unique molecular signature of a specific stem cell type (e.g., mesenchymal stem cells, cancer stem cells, pluripotent stem cells). Differentiation State-Specific Targets: To distinguish between pluripotent, progenitor, and fully differentiated cells. Specific Stem Cell-Derived Products: (e.g., exosomes, vesicles). Typical Workflow of the Service A professional service provider will guide you through these stages: Phase Description Your Input 1. Project Design Defining the target (specific protein, cell line, primary cells), counter-selection cells (to ensure specificity), and desired aptamer properties (e.g., Kd, nuclease resistance). Provide target cells, control cells, and…
Core Concept: Aptamers vs. Antibodies Aptamers are often called "chemical antibodies." Their key advantages for cancer targeting include: Small size: Better tissue penetration. In vitro synthesis: Highly reproducible, no batch-to-batch variation. Ease of modification: Can be chemically tagged with dyes, drugs, or nanoparticles. Low immunogenicity. Target Range: Can bind to proteins, carbohydrates, lipids, or even complex molecular patterns on a whole cell's surface. The Screening Service Workflow (Cell-SELEX) A typical service follows these steps: 1. Project Design & Target Selection Client Input: You define the target (e.g., "Aptamers for metastatic triple-negative breast cancer cell line MDA-MB-231"). Counter-Selection: Crucial step. To ensure specificity, the service provider will also use a control cell line (e.g., normal breast epithelial cells or a less aggressive cancer type) to remove aptamers that bind to common, non-target molecules. Library Design: The provider uses a vast random oligonucleotide library (e.g., 10^14 different sequences). 2. The SELEX Process This is an iterative, multi-round biochemical "fishing" experiment: Incubation: The library is exposed to the target cancer cells. Washing: Weakly or unbound sequences are washed away. Elution: Bound aptamers are recovered (e.g., by heating or trypsinizing cells). Amplification: Recovered aptamers are amplified by PCR (for DNA) or RT-PCR (for RNA). Stringency Increase: In each subsequent round, conditions become stricter (more washing, shorter incubation, addition…
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…
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? An aptamer is a short, single-stranded DNA or RNA oligonucleotide that binds to a specific target molecule (like a protein) with high affinity and specificity. They are often called "chemical antibodies" but offer advantages like smaller size, chemical stability, and in-vitro generation. The Core Service: SELEX (Systematic Evolution of Ligands by EXponential Enrichment) The standard method for aptamer screening is SELEX. A specialized service will manage this entire iterative, high-complexity process for you. General SELEX Workflow: Target Preparation & Immobilization: Your service provider will prepare your purified protein. It is often immobilized on a solid support (beads, column, plate) to separate bound from unbound sequences. Incubation with Library: A vast, random synthetic oligonucleotide library (10^13 - 10^15 unique sequences) is incubated with the target. Partitioning: Weak or non-binding sequences are washed away. Tightly bound aptamers are retained. Elution & Amplification: The bound sequences are eluted and amplified by PCR (for DNA) or RT-PCR (for RNA). Stringency & Counter-SELEX: Subsequent rounds introduce increased washing stringency and incubation with non-target molecules (e.g., similar proteins, immobilization matrix) to filter out non-specific binders. This is crucial for specificity. Cloning & Sequencing: After 8-15 rounds, the enriched pool is cloned and sequenced to identify individual candidate aptamers. Characterization &…
Core Concept: What is SELEX? SELEX (Systematic Evolution of Ligands by EXponential Enrichment) is an iterative, in vitro selection process. It starts with a vast, random library of oligonucleotides (10^14 - 10^15 unique sequences) and, over multiple rounds, enriches for those that bind to the target. Standard Multi-Round SELEX Screening Service Workflow A full-service provider will typically manage the entire process, which can be broken down into key phases: Phase 1: Project Design & Target Preparation Target Consultation: Defining the target (e.g., protein, small molecule, cell, virus). Critical discussion of target purity, immobilization strategy, and selection conditions (buffer, temperature, counter-selection). Library Design: Selection of a random library (e.g., 40-nt random core with fixed primer sites). Options include DNA, RNA (requiring reverse transcription), or modified libraries (e.g., with 2'-F pyrimidines for nuclease resistance). Immobilization Strategy: The service provider will choose the best method: Immobilized Target: (Most common for proteins) Binding target to beads (streptavidin, Ni-NTA for His-tag) or columns. Counter-Selection: Using negative control surfaces (e.g., blank beads, related but undesired proteins) to subtract non-specific binders. Phase 2: The SELEX Cycle (Repeated 8-15 Rounds) This is the core iterative screening process. Each round consists of: Incubation: The oligonucleotide library is incubated with the target under defined conditions. Partitioning: Separation of…
