| Field | Specification |
|---|---|
| Mfr No | |
| Product Type |
Poly-L-arginine Plates leverage their high density of cationic groups, enabling reactions through electrostatic and stereospecific bonds. The surface is modified using a synthetic molecule rich in α-amino, α-carboxyl, and guanidine groups, while preserving the optical properties of the polystyrene base. This allows the plates to serve as an effective tool for a range of biological assays. Key applications include interactions with serine proteases and maturation-promoting factors (MPFs), making them suitable for studies that require stable binding and specific molecular interactions.
Poly-L-arginine Coated Plates are pre-blocked in order to minimize any non-specific binding and to ensure long-term stability.
Key Features
- Poly-L-arginine surface: The positively charged poly-L-arginine surface enhances the binding of negatively charged biomolecules, facilitating stable and specific interactions
- It interacts with serino proteases
- It interacts with maturation promoting factors
- Blocking: Plates are pre blocked with non proteic blocking buffer (BlockerWell)
- Low Fluorescence Polystyrene: Manufactured with pure high-quality polystyrene, minimizing background noise and improving optical clarity.
- Wells design: flat bottom.
- Multiple Formats: Available in breakable strip plates, non-breakable strip plates, and solid plates for flexibility in applications.
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Colors: Available in clear, white, and black. Customizable upper rim colors upon request. Reduced Crosstalk: White and black plates minimize well-to-well light scatter, improving signal accuracy in luminescence and fluorescence assays. Uniform Optical Properties: Clear plates are ideal for spectrophotometric readings and imaging, providing consistent and accurate light transmission.
- Reduced Crosstalk: White and black plates minimize well-to-well light scatter, improving signal accuracy in luminescence and fluorescence assays.
- Uniform Optical Properties: Clear plates are ideal for spectrophotometric readings and imaging, providing consistent and accurate light transmission.
- Automation-Compatible: Easily integrated with high-throughput automated systems for liquid handling, washing, and analysis.
- Alphanumeric Coding: For easy and accurate well identification during experiments.
- Recommended working volume: of 75 to 200 μl
- Packaging: Each coated plate is packed in a single barrier bag with desiccant
- Unit: Contains 5 plates
- Minimum order: 10 plates.
- Ready to use
Key Benefits
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Plates Design: The mould design provides optical quality, important to reduce the background signal. The rim protects the external face of the bottom from scratches
- The mould design provides optical quality, important to reduce the background signal.
- The rim protects the external face of the bottom from scratches
- Improved Washing Efficiency: Radius-edged well bottoms enhance washing, reducing residual materials and improving assay consistency.
- Reduced Cross-Contamination: Designed to minimize the risk of cross-contamination between wells, ensuring precise sample isolation.
- Enhanced Imaging: The flat surface provides a clear focal plane, essential for high-quality imaging in microscopy, especially for fluorescence and phase-contrast analysis.
- Improved Mixing: The flat-bottom design facilitates better sample mixing, ensuring consistent results across assays.
Applications
- ELISA Assays: For competitive and sandwich ELISA, detecting a wide range of targets such as steroid hormones and antibodies.
- Luminescence Assays (LIA): Optimized for high-sensitivity luminescence detection.
- Fluorescence Assays (FIA): Ensures strong signal detection with minimal interference.
- Chemiluminescent Assays (CLIA): Ideal for highly sensitive and quantitative analyses.
- Veliev F et al. (2016). Impact of crystalline quality on neuronal affinity of pristine graphene. Biomaterials. 86:33-41. PMID: 26878439.
- Zhou F et al. (2025). Optimized protocols for the simultaneous isolation of primary brain microglia and neurons from neonatal rodent brains. J Neurosci Methods. 411:110266. PMID: 40914439.