The MtoZ Biolabs' Real-Time Fluorescent PCR Detection System is an integrated platform for PCR amplification, real-time fluorescence detection, and automated data analysis for qualitative, quantitative, and melt curve analysis of DNA and RNA samples.
Product Features
1. Integrated Platform
Combines thermal cycling, fluorescence acquisition, and analysis functions in one instrument for streamlined nucleic acid testing.
2. Flexible Software Control
Supports both guided setup and user-defined programming for different assay designs and laboratory needs.
3. Multiple Analysis Modes
Enables qualitative detection, quantitative PCR analysis, and melt curve analysis on a single system.
4. Multiplex Detection Design
Equipped with six fluorescence channels for multi-target assay configuration.
5. Open System Design
Compatible with open reagents and consumables for greater flexibility in routine testing.
6. Data Integrity Support
Includes user access control, audit trail functions, and electronic signature support for controlled laboratory operation.
Product Specifications
|
Sample Capacity |
96 wells |
|
Sample Volume |
15 to 100 μL |
|
Sensitivity |
Minimum resolution of 1 copy |
|
Range |
1 to 1010 copies |
|
Repeatability |
CV < 1.00% |
|
Linear Correlation |
|r| ≥ 0.9990 |
Product Advantages
1. High Sensitivity
Supports reliable detection of low-copy nucleic acid targets in demanding molecular assays.
2. Strong Quantitative Performance
Delivers dependable quantitative results across a broad dynamic range with good repeatability and linearity.
3. Precise and Reproducible
Enables well-controlled testing with stable performance and consistent results across runs.
4. Efficient Workflow
Integrated operation and automated analysis help reduce manual differences and improve laboratory efficiency in routine real-time PCR testing.
5. Compliance-Ready Performance
Comprehensive performance characteristics support laboratory applications with strict quality and regulatory requirements.
6. Low Background and Low Noise
Designed for clean signal acquisition with low background, low noise, and no need for interference correction.
