| 弊社が国内総発売元を務めるイタリア・Biomat社のDr.Mauriziaから「アッセイに最適なマイクロプレートの選択」に関する貴重なレポート。
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Dear Customers,
What if we told you that most assay failures aren’t caused by contamination, poor protocols, or reagent issues?
After 30+ years in diagnostics, we’ve discovered that over 70% of reproducibility problems trace back to a single, often-overlooked decision made before the first pipette tip touches your sample.
It’s your microplate selection.
Like you, we believe that breakthrough discoveries deserve flawless execution. That’s why we’ve just released our most comprehensive guide yet:
“Choosing the Right Microplate for Your Assay: A Practical Guide.”
What’s Really Happening in Your Lab
Here’s the reality: Most researchers treat microplate selection as an afterthought, defaulting to “standard” options that may be fundamentally wrong for their biomolecules.
The result? High-molecular-weight proteins with masked epitopes. Small peptides that won’t adhere. Antibodies oriented backward. Signal loss that no amount of protocol optimization can fix.
But here’s what we’ve learned from working with diagnostic professionals across 30+ countries: These aren’t protocol problems—they’re surface chemistry problems with straightforward solutions.
Your Complete Microplate Selection Blueprint
Our new guide reveals exactly how to match your biomolecules to the optimal surface chemistry:
✅ Material Selection: Why polystyrene dominates ELISA/CLIA/FIA
✅ Surface Chemistry Decoded: The science behind medium vs. high binding and when each delivers superior results
✅ Biomolecule-Specific Strategies: Targeted approaches for proteins, peptides, antibodies, and specialized molecules
✅ Common Errors & Solutions: Real troubleshooting scenarios with proven fixes
✅ Application Scenarios: Case studies showing how proper selection delivered <5% CV and robust sensitivity
✅ Custom Solutions: When standard formats aren’t enough and how to specify exactly what you need
The guide covers everything from basic polystyrene chemistry to advanced specialty coatings for oligonucleotides and exosomes—16 comprehensive sections that transform microplate selection from guesswork into precision engineering.
Why This Matters for Your Research
Maybe you’re thinking: “We’ve been using the same plates for years without major issues.”
But consider this: What if that 10-15% signal variability you’ve accepted as “normal” could be eliminated? What if your small molecule assays could achieve the consistency you see with larger proteins?
One immunoassay kit manufacturer applied our selection framework and achieved breakthrough reproducibility—enabling them to launch an infectious disease detection kit with consistent sensitivity across all production lots.
What could optimized microplate selection unlock in your research?
Get Your Complete Selection Guide
This is the resource you’ve been looking for: A systematic approach to microplate selection that eliminates variability while maximizing sensitivity. |
