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Specifications
| Block Capacity | 6 x 16 wells x 0.2 mL , 96 wells x 0.2 mL , 12 x 8 PCR strips |
| Block Temperature Range | 4 °C - 100 °C |
| Temperature Accuracy | 4 °C - 100 °C |
| Temperature Uniformity | ≤ ± 0.15 °C (≥ 90 °C) |
| Ramping Rate | 0.1 °C - 4 °C |
| Heating Rate | 5.5 °C/s |
| Cooling Rate | 4.5 °C/s |
| Display Resolution | 0.1 °C |
| Gradient Temperature Range | 0 °C - 100 °C |
| Gradient Temperature Accuracy | ≤ ± 0.15 °C (≥ 90 °C) |
| Gradient Temperature Uniformity | ≤ ± 0.2 °C (≥ 90 °C) |
| Gradient Capacity | Six independent annealing temperature can be set |
| Temperature Differential Range | 1 °C - 25 °C |
| Hot-lid Temperature Range | 30 °C - 112 °C |
| Max No. of Steps | 30 |
| Max No. of Program | 15000 |
| Max No. of Cycles | 100 |
| Increment / Decrement Time | 0 - 120 sec (Long PCR) |
| Increment / Decrement Temperature | 0.1 °C - 10.0 °C (Touchdown PCR) |
| Display | 7” Color Touch Screen |
| Data Output Port | USB 2.0 / LAN |
| Power Consumption | 601 W |
| Power Supply | AC 85 V / 265 V; 50 / 60 Hz |
| Dimension | 362 x 256 x 255 mm |
| Net Weight | 8 Kg |
Pricing
| Product | Price | Unit | Action |
|---|---|---|---|
| Touch Screen Thermal Cycler (Gradient) LMTC-B200 | $ 6675 | Pack of 1 |
Features
Touch Screen for smooth operation Six Independent Annealing Temperature can be set for each zone Gradient function for temperature stability Real time observation on 7” color display Peltier based heating and cooling control Automatic calculation of annealing temperature Stepless adjustable Hot-lid to avoid evaporation Auto shut off when temperature is ˂ 30 °C or after cycle Auto pause / start during technical errors Block / Tube temperature control mode
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Frequently Asked Questions
1 What is a Touch Screen Thermal Cycler (Gradient) LMTC-B200?
A Touch Screen Thermal Cycler (Gradient) LMTC-B200 is a PCR machine with a touchscreen and gradient feature for precise and efficient DNA amplification.
2 How does a Touch Screen Thermal Cycler (Gradient) LMTC-B200 work?
A Touch Screen Thermal Cycler (Gradient) LMTC-B200 works by cycling temperatures to amplify DNA through PCR.
3 Can Touch Screen Thermal Cycler (Gradient) LMTC-B200 antibody gene amplification?
Touch Screen Thermal Cycler (Gradient) LMTC-B200 amplifies immunoglobulin genes for antibody development research.
4 Is Touch Screen Thermal Cycler (Gradient) LMTC-B200 used in synthetic biology?
Touch Screen Thermal Cycler (Gradient) LMTC-B200 amplifies engineered genetic constructs for insertion into host organisms.
5 How is Touch Screen Thermal Cycler (Gradient) LMTC-B200 applied in plant pathogen detection?
Touch Screen Thermal Cycler (Gradient) LMTC-B200 amplifies DNA from infected plant tissues to identify disease-causing organisms.
6 Can Touch Screen Thermal Cycler (Gradient) LMTC-B200 be used in biodiversity studies?
Touch Screen Thermal Cycler (Gradient) LMTC-B200 amplifies DNA barcodes to identify and catalog species in ecological surveys.
7 Can Touch Screen Thermal Cycler (Gradient) LMTC-B200 be used in ancient DNA analysis?
Touch Screen Thermal Cycler (Gradient) LMTC-B200 amplifies degraded DNA from archaeological or fossil samples.
8 How does Touch Screen Thermal Cycler (Gradient) LMTC-B200 aid in marine biology?
Touch Screen Thermal Cycler (Gradient) LMTC-B200 amplifies DNA from ocean samples to study marine microbial diversity.
9 Can Touch Screen Thermal Cycler (Gradient) LMTC-B200 be used for tissue typing for transplants?
Touch Screen Thermal Cycler (Gradient) LMTC-B200 amplifies HLA genes to match organ donors and recipients.
10 What kind of maintenance does Touch Screen Thermal Cycler (Gradient) LMTC-B200 require?
Routine maintenance includes regular cleaning, temperature calibration, software updates, and occasional professional servicing to maintain optimal performance.
11 What is a Touch Screen Thermal Cycler?
A Touch Screen Thermal Cycler is an apparatus designed with a user-friendly touch screen interface for easy programming and temperature control.
12 How does Touch Screen Thermal Cycler work?
It works by cycling through precise temperature changes needed for DNA denaturation, annealing, and extension, controlled via a user-friendly touch screen display.
13 How is Touch Screen Thermal Cycler used in genetic testing?
It is used in genetic testing to amplify specific DNA sequences, enabling the detection of genetic mutations and hereditary conditions.
14 How does Touch Screen Thermal Cycler support forensic DNA analysis?
It supports forensic DNA analysis by providing accurate and reproducible DNA amplification from trace biological evidence.
15 How does Touch Screen Thermal Cycler aid in agricultural biotechnology?
It aids in agricultural biotechnology by enabling the detection of genetically modified organisms (GMOs) and plant pathogen diagnostics.
16 How is Touch Screen Thermal Cycler used in microbial identification?
It helps identify microbes by amplifying species-specific genes, which can then be sequenced or analyzed for identification.
17 Can Touch Screen Thermal Cycler be used in food safety testing?
It is used in food safety testing to detect foodborne pathogens like Salmonella, Listeria, and E. coli through PCR-based methods.
18 How does Touch Screen Thermal Cycler benefit clinical diagnostics?
It benefits clinical diagnostics by providing fast and reliable amplification of nucleic acids for identifying infectious diseases and genetic disorders.
19 How is Touch Screen Thermal Cycler used in vaccine development?
It is used in vaccine development to clone and amplify genes encoding antigens for further study and vaccine formulation.
20 Is Touch Screen Thermal Cycler used in water quality testing?
It is used in water quality testing to detect microbial contaminants using PCR-based assays.