Advanced Gradient Thermal Cycler LMAG-C101

Advanced Gradient Thermal Cycler LMAG-C101 designed to offers 6×16×0.2 ml capacity and 0.2 ml tubes to 96-well plate holders. It features maximum heating rate of 6 °C/s. Incorporates mobile operation, in-built Wi-Fi, and USB support for convenience. Equipped with 11 pre-installed program patterns and real-time program adjustments. Our Advanced Gradient Thermal Cycler is ideal for efficient PCR applications in research, clinical diagnostics, and molecular biology.

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Specifications

Capacity	96×0.2 ml
Tube	0.2 ml tube,8 strips, Half skirt96 wells plate, No skirt 96 wells plate
Temperature Range	0 to 105 °C
Maximum. Ramp Rate	5 °C/s
Uniformity	≤ ± 0.2 °C
Accuracy	≤ ± 0.1 °C
Display Resolution	0.1 °C
Temperature Control	Block /Tube
Maximum. Heating Rate Adjustable	0.1 to 5 °C
Gradient Temperature. Range	30 to 105 °C
Gradient Type	Normal Gradient
Gradient Spread	1 to 42 °C
Hot Lid Temperature	30 to 115 °C
Number Of Programs	20000 +(USB FLASH)
Maximum. No. Of Step	30
Maximum. No. Of Cycle	100
Increment/Decrement Time	1 Sec to 600 Sec
Increment/Decrement Temperature	0.1 to 10.0 ℃
Pause Function	Yes
Auto Data Protection	Yes
Holding	4 ℃
Touchdown Function	Yes
Long PCR Function	Yes
Computer Software	Yes
Mobile Phone APP	Yes
LCD	10.1 inch，1280×800 pels
Interface	USB2.0 , WIFI
Dimensions(L×W×H)	385× 270× 255 mm
Weight	10 kg
Power Consumption	600 W
Power Supply	100 to 240 V AC ,50/60 Hz

Features

Fast Peltier heating

10.1-inch touchscreen

Corrosion-free aluminum

Automatic closing lid

Efficient air venting

Hot lid functionality

Applications

Advanced Gradient Thermal Cycler LMAG-C101 ensures PCR amplification in gene expression analysis, pathogen detection, DNA methylation, genotyping, and miRNA research. It is commonly employed in molecular biology labs, clinical diagnostics, genetic research, and pharmaceutical development.

Advanced Gradient Thermal Cycler LMAG-C301

Capacity: 384 well
Tube: 384 PCR microplate
Temperature Range: 0 to 105 °C
Maximum. Ramp Rate: 5 °C/s
Uniformity: ≤ ± 0.2 °C

Advanced Gradient Thermal Cycler LMAG-C202

Capacity: 96×0.2 ml
Tube: 0.2ml tube, 8 strips, Half skirt96 wells plate, No skirt 96 wells plate
Temperature Range: 0 to 105 °C
Maximum. Ramp Rate: 8 °C/s
Uniformity: ≤ ± 0.2 °C

Advanced Gradient Thermal Cycler LMAG-C102

Capacity: 96×0.2 ml
Tube: 0.2 ml tube,8 strips, Full 96 wells plate, Half skirt96 wells plate, No skirt 96 wells plate
Temperature Range: 0 to 105 °C
Maximum. Ramp Rate: 6 °C/s
Uniformity: ≤ ± 0.2 °C

Advanced Thermal Cycler (Basic) LMAT-A100

Capacity: 48 wells × 0.2 mL + 48 wells × 0.5 ml
Temperature Range: 0 ℃ to 99 ℃
Temperature Accuracy: ≤ ± 0.2℃
Temperature Uniformity: ≤ ± 0.2 ℃
Ramping Rate: 0.1 ℃ to 3 ℃

Advanced Gradient Thermal Cycler LMAG-C402

Capacity: 64×0.2 ml (A Block) + 32×0.2ml (B Block)
Tube: 0.2 ml tube, 8 strips
Temperature Range: 0 to 105 °C
Maximum. Ramp Rate: 5 °C/s
Uniformity: ≤ ± 0.2 °C

Advanced Thermal Cycler (Basic) LMAT-A201

Block Capacity: 98 wells × 0.2 mL + 77 wells × 0.5 mL, PCR strips, In-situ plate
Block Temperature Range: 0 ℃ to 100 ℃
Temperature Accuracy: ≤ ± 0.2 ℃ (35 ℃ ~ 100 ℃)
Temperature Uniformity: ≤ ± 0.2 ℃
Ramping Rate: Adjustable

Advanced Thermal Cycler (Gradient) LMAT-B200

Block Capacity: 48 wells × 0.2 mL + 48 wells × 0.5 mL
Block Temperature Range: 0 ℃ to 100 ℃
Temperature Accuracy: ≤ ± 0.2℃ (35 ℃ ~ 100 ℃)
Temperature Uniformity: ≤ ± 0.2℃
Ramping Rate: Adjustable

Advanced Thermal Cycler (Gradient) LMAT-B100

Block Capacity: 48 wells × 0.2 ml + 48 wells × 0.5 ml
Block Temperature Range: 0 ℃ to 99 ℃
Temperature Accuracy: ≤ + 0.2 ℃
Temperature Uniformity: ≤ ± 0.2℃
Ramping Rate: 0.1℃ to 3 ℃

Advanced Gradient Thermal Cycler LMAG-C501

Capacity: 64×0.2 ml (A Block) + 32×0.2 ml (B Block)
Tube: 0.2 ml tube, 8 strips
Temperature Range: 0 to 105 °C
Maximum. Ramp Rate: 8 °C/s
Uniformity: ≤ ± 0.2 °C

Advanced Thermal Cycler (Gradient) LMAT-B201

Block Capacity: 96 wells × 0.2 mL + 77 wells × 0.5 mL
Block Temperature Range: 0 ℃ to 100 ℃
Temperature Accuracy: ≤ ± 0.2℃ (35 ℃ ~ 100 ℃)
Temperature Uniformity: ≤ ± 0.2℃
Ramping Rate: Adjustable

Advanced Thermal Cycler (Basic) LMAT-A200

Block Capacity: 48 wells × 0.2 mL + 48 wells × 0.5 mL
Block Temperature Range: 0 ℃ - 100 ℃
Temperature Accuracy: ≤ ± 0.2 ℃ (35 ℃ ~ 100 ℃)
Temperature Uniformity: ≤ ± 0.2 ℃
Ramping Rate: Adjustable

Advanced Gradient Thermal Cycler LMAG-C201

Capacity: 6×16×0.2 ml
Tube: 0.2ml tube, 8 strips, Half skirt96 wells plate, No skirt 96 wells plate
Temperature Range: 0 to 105 °C
Maximum. Ramp Rate: 6 °C/s
Uniformity: ≤ ± 0.2 °C

Advanced Thermal Cycler (Gradient) LMAT-B101

Block Capacity: 96 wells × 0.2 ml + 77 wells × 0.5 ml
Block Temperature Range: 0 ℃ to 99 ℃
Temperature Accuracy: ≤ ± 0.2 ℃
Temperature Uniformity: ≤ ± 0.2℃
Ramping Rate: 0.1℃ to 3 ℃

Advanced Gradient Thermal Cycler LMAG-C401

Capacity: 64×0.2 ml (A Block) + 32×0.2ml (B Block)
Tube: 0.2 ml tube, 8 strips
Temperature Range: 0 to 105 °C
Maximum. Ramp Rate: 5 °C/s
Uniformity: ≤ ± 0.2 °C

Advanced Thermal Cycler (Basic) LMAT-A101

Block Capacity: 96 wells × 0.2 ml + 77 wells × 0.5 ml
Block Temperature Range: 0 ℃ to 99 ℃
Temperature Accuracy: ≤ ± 0.2℃
Temperature Uniformity: ≤ ± 0.2 ℃
Ramping Rate: 0.1 ℃ to 3 ℃

Frequently Asked Questions

1 What is an Advanced Gradient Thermal Cycler LMAG-C101?

An Advanced Gradient Thermal Cycler LMAG-C101 is a high-performance PCR (Polymerase Chain Reaction) apparatus designed for precise and efficient amplification of DNA and RNA.

2 How does an Advanced Gradient Thermal Cycler LMAG-C101 work?

An Advanced Gradient Thermal Cycler LMAG-C101 operates on the principle of Polymerase Chain Reaction (PCR), which uses repeated cycles of heating and cooling to denature DNA, anneal primers, and extend new DNA strands.

3 Can Advanced Gradient Thermal Cycler LMAG-C101 be used for quality control in biotech manufacturing?

Advanced Gradient Thermal Cycler LMAG-C101 helps detect genetic markers to ensure product consistency and safety.

4 Can Advanced Gradient Thermal Cycler LMAG-C101 be used for food safety testing?

Advanced Gradient Thermal Cycler detects pathogens and allergens by amplifying DNA in food samples.

5 Can Advanced Gradient Thermal Cycler LMAG-C101 support microbial testing in pharmaceutical production?

Advanced Gradient Thermal Cycler LMAG-C101 accurately identifies microbial contamination through DNA amplification.

6 Is Advanced Gradient Thermal Cycler LMAG-C101 Advanced Gradient Thermal Cycler LMAG-C101 suitable for analyzing tissue samples in research?

Advanced Gradient Thermal Cycler LMAG-C101 accurately amplifies genetic material extracted from tissue samples.

7 Is Advanced Gradient Thermal Cycler LMAG-C101 used for molecular biology studies?

Advanced Gradient Thermal Cycler LMAG-C101 supports amplification of DNA/RNA from cultured or isolated cells.

8 Can Advanced Gradient Thermal Cycler LMAG-C101 test blood samples for medical diagnostics?

Advanced Gradient Thermal Cycler LMAG-C101 amplifies DNA/RNA from blood to detect diseases and infections.

9 Can Advanced Gradient Thermal Cycler LMAG-C101 be used for detecting microbial contamination in water?

Advanced Gradient Thermal Cycler LMAG-C101 amplifies microbial DNA from water samples for contamination analysis.

10 What kind of maintenance does Advanced Gradient Thermal Cycler LMAG-C101 require?

Routine maintenance includes regular cleaning of the sample block, software updates and annual calibration.

11 Can Advanced Thermal Cycler be used for DNA damage and repair studies?

It is used in DNA damage and repair studies to amplify damaged or repaired sequences and analyze repair pathway activity.

12 What is an Advanced Thermal Cycler?

An Advanced Thermal Cycler is a laboratory apparatus designed to amplify DNA segments by precisely controlling the temperature cycles required for polymerase chain reaction (PCR).

13 How does Advanced Thermal Cycler work?

It works by rapidly heating and cooling samples through programmed temperature steps, allowing DNA denaturation, annealing, and extension to occur during PCR.

14 How does Advanced Thermal Cycler support forensic DNA analysis?

It supports forensic DNA analysis by amplifying trace amounts of DNA from crime scene evidence for identification purposes.

15 How is Advanced Thermal Cycler applied in clinical diagnostics?

It is applied in clinical diagnostics to detect genetic disorders, infectious diseases, and cancer biomarkers through PCR-based tests.

16 Can Advanced Thermal Cycler be used in food safety testing?

It is used in food safety testing to detect bacterial contamination, allergens, and genetically modified organisms (GMOs).

17 Can Advanced Thermal Cycler be used in pharmacogenomics research in the lab?

It is used in pharmacogenomics to analyze genetic variations that affect drug metabolism and response, supporting personalized medicine.

18 How does Advanced Thermal Cycler support high-throughput screening in the lab?

It supports high-throughput screening by enabling simultaneous PCR amplification of multiple targets across 96- or 384-well plates.

19 Can Advanced Thermal Cycler be used for detecting antibiotic resistance genes in the lab?

It is used to amplify and detect antibiotic resistance genes in bacterial isolates through targeted PCR assays.

20 What role does Advanced Thermal Cycler play in metagenomic sample preparation?

It is used in metagenomics to amplify target microbial DNA from environmental or clinical samples prior to sequencing or analysis.