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…
