MtoZ Biolabs Bradford Protein Assay Kit - Providing Fast and Simple Protein Quantification Solutions for High-Throughput Screening
The Bradford method is a rapid quantitative technique based on the color change that occurs when Coomassie Brilliant Blue G-250 binds to proteins, during which the maximum absorption peak shifts from 465 nm to 595 nm. This method is well known for its exceptional speed and typically completes the measurement within 5 minutes after dye addition, making it highly suitable for workflows that require rapid results and screening large numbers of samples, such as rapid fraction screening during protein purification.
Advantages
✅ Extremely Rapid Operation
The MtoZ Biolabs Bradford Protein Assay Kit enables color development within minutes, greatly improving experimental efficiency and making it particularly suitable for high throughput applications.
✅ Excellent Salt Compatibility
Insensitivity to most buffer salt components ensures stable performance even at higher salt concentrations.
✅ Outstanding Reagent Stability
Long-term room temperature stability of the dye solution facilitates convenient storage and use.
✅ Flexible and Simple Workflow
Multiple formats, including concentrates and ready-to-use working solutions, support flexible adaptation to tube-based and microplate-based methods to meet different throughput needs.
Technical Support
1. Protocol Downloads
MtoZ Biolabs provides comprehensive experimental protocols and product manuals to help ensure smooth and reproducible workflows. For access to specific documents or detailed instructions, please contact our support team.
2. Customized Service Support
Our experienced scientists offer tailored technical assistance and customized solutions based on your specific research goals, helping you achieve optimal experimental outcomes.
3. FAQ and Expert Assistance
We provide responsive and professional technical support to address your questions efficiently. Our experts are ready to help you identify and resolve experimental challenges quickly and accurately.
