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Gradient Thermal Cycler offers high-precision temperature control with a range of 30℃ to 105℃. Provides a uniformity of ±0.25℃, ensuring reliable results across multiple samples. Features an automatic shut-off heating lid for user safety and sample protection. Enables easy connectivity for data transfer and program management. Our Gradient Thermal Cycler enhances pathogen detection sensitivity and specificity for diagnostics and environmental monitoring.
Specifications
| Capacity | 96×0.2ml |
| Gradient Temperature Range | 30 to 105℃ |
| Maximum. Heating Rate | 5℃ /s |
| Heating Lid Temperature Range | 30℃ to 110℃ |
| Maximum. Cooling Rate | 4.5℃ /s |
| Block Temperature Range | 0 to 105℃ |
| Gradient Temperature Accuracy | ±0.3℃ |
| Block Temperature Uniformity | ±0.25℃ |
| Temperature Control Ways | Block or Tube Gradient |
| Temperature Increasing / Decreasing | 9.9 to 9.9℃ for Touchdown PCR |
| Timer Increasing / Decreasing | 599 to 599s for Long PCR |
| Block Temperature Accuracy | ±0.2℃ |
| Temperature Display Accuracy | 0.1℃ |
| Max. Cycles | 99 |
| Max. Steps | 30 |
| Timer | 1s to 59min to 59sec / Infinite |
| Set Span | Max. 42℃ |
| Real-time Operation Status | Image-text displayed |
| Automatic Heating Lid Shut-off | When sample < 30℃ or program over |
| Programs Stored | 10000 |
| Program Pause Function | Yes |
| Power Supply | AC100 to 240V, 50 to 60Hz |
| Power Consumption | 600W |
| Dimension | 200×300×170 (mm) |
| Weight | 4.5kg |
Pricing
| Product | Price | Unit | Action |
|---|---|---|---|
| Gradient Thermal Cycler LMGT-A101 | $ 4175 | Pack of 1 |
Features
Intuitive interface
Versatile Capacity
Robust programmability
Enhanced block design
Protective features
Applications
Gradient Thermal Cycler LMGT-A101 is ideal for high-throughput PCR applications in research, clinical diagnostics, and genomics.
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Frequently Asked Questions
1 What is a Gradient Thermal Cycler LMGT-A101?
A Gradient Thermal Cycler LMGT-A101 is a laboratory device used for PCR that enables precise temperature control and gradient settings to optimize DNA amplification.
2 How does a Gradient Thermal Cycler LMGT-A101 work?
A Gradient Thermal Cycler LMGT-A101 operates on the principle of thermocycling, using repeated heating and cooling to amplify DNA during PCR.
3 Is Gradient Thermal Cycler LMGT-A101 suitable for ancient DNA or archaeological sample analysis?
Gradient Thermal Cycler LMGT-A101 amplifies degraded or low-copy DNA from archaeological specimens.
4 Can Gradient Thermal Cycler LMGT-A101 be used in microbiome studies?
Gradient Thermal Cycler LMGT-A101 helps amplify microbial DNA for diversity and abundance analysis.
5 Is Gradient Thermal Cycler LMGT-A101 used in synthetic biology?
Gradient Thermal Cycler LMGT-A101 aids in the amplification of synthetic DNA constructs for downstream applications.
6 Is Gradient Thermal Cycler LMGT-A101 helpful in drug resistance testing?
Gradient Thermal Cycler LMGT-A101 amplifies genes associated with resistance for molecular analysis.
7 Can Gradient Thermal Cycler LMGT-A101 be used for SNP (Single Nucleotide Polymorphism) analysis?
Gradient Thermal Cycler LMGT-A101 amplify specific DNA regions to identify SNPs in genetic studies.
8 Is Gradient Thermal Cycler LMGT-A101 applicable in veterinary diagnostics?
Gradient Thermal Cycler LMGT-A101 detect animal pathogens and genetic conditions through PCR-based methods.
9 Is Gradient Thermal Cycler LMGT-A101 suitable for environmental DNA (eDNA) analysis?
Gradient Thermal Cycler LMGT-A101 amplifies DNA extracted from soil, water, or air samples for biodiversity studies.
10 What kind of maintenance does Advanced Gradient Thermal Cycler LMGT-A101 require?
Routine maintenance involves regularly cleaning the block and lid, along with performing periodic temperature calibration to maintain accuracy and performance.
11 What is a Gradient Thermal Cycler?
A Gradient Thermal Cycler is a PCR machine designed for simultaneous testing of different annealing temperatures across a temperature gradient.
12 How does Gradient Thermal Cycler work?
It works by creating a temperature gradient across the block, enabling multiple PCR reactions to be run at slightly different temperatures in the same cycle.
13 Can Gradient Thermal Cycler be used for multiplex PCR?
It is ideal for multiplex PCR, as it helps determine a temperature that works efficiently for multiple primer sets in the same reaction.
14 How does Gradient Thermal Cycler improve PCR efficiency in research labs?
It improves PCR efficiency in research labs by reducing trial-and-error cycles and enabling faster optimization of reaction conditions.
15 Is Gradient Thermal Cycler useful in genotyping applications?
It is widely used in genotyping to optimize conditions for amplifying specific alleles or polymorphisms accurately.
16 How does Gradient Thermal Cycler support environmental DNA (eDNA) analysis?
It supports eDNA analysis by enabling rapid optimization of PCR conditions for complex, low-abundance DNA targets in environmental samples.
17 Is Gradient Thermal Cycler beneficial for forensic DNA analysis?
It is highly beneficial for forensic DNA analysis, where precise optimization is required to amplify minute or degraded DNA samples reliably.
18 How does Gradient Thermal Cycler support microbiome or metagenomics studies?
It supports microbiome and metagenomics studies by enabling precise amplification of complex microbial DNA mixtures with optimized conditions.
19 Can Gradient Thermal Cycler be used for pathogen detection in food safety testing?
It is commonly used in food safety testing to optimize PCR conditions for detecting bacterial, viral, or fungal pathogens in food samples.
20 How does Gradient Thermal Cycler support molecular diagnostics in clinical labs?
It supports molecular diagnostics by allowing rapid and accurate PCR optimization for disease-specific genetic markers.