Real Time PCR System LMPCS-B100

Name: Real Time PCR System LMPCS-B100
Brand: Labmate
SKU: LMPCS-B100
Rating: 4.8 (417 reviews)

Real Time PCR System LMPCS-B100 has 16 wells and supports 0.2 mL PCR tube. It ensures rapid thermal cycling and uniform temperature control. Equipped with high-resolution fluorescence detection system for consistent analysis. Integrated user-friendly software enables efficient data processing. Our System is ideal for gene expression, pathogen detection, and mutation analysis.

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Specifications

Sample Capacity	16 wells×0.2 ml
Sample Volume	20 to 120 µl
Consumables	0.2 ml PCB 8-Tube Strips, 0.2 ml PCR tube with cap
Heating Method	Peltier
Temperature Range	4ºC to 99ºC
Temperature Accuracy	±0.1ºC
Temperature Uniformity	±0.5ºC
Light Source	High brightness LED
Detector	High-Performance PD
Light Propagation Medium	Optical Fiber
Sample Repeatability	CV less than or equal to 3%
Linear Range	0 to 1010
Sensitivity	1 Copy
Sample Linearity	More than or equal to 99%
Excitation Wavelength	460 nm to 480 nm, 520 nm to 540 nm, 560 nm to 580 nm, 620 nm to 440 nm
Detection Optical Wavelength	510 nm to 530 nm, 555 nm to 575 nm, 600 nm to 620 nm, 665 nm to 675 nm
Operating Temperature Range	18ºC to 35ºC
Operating Humidity	0% to 85%
Transportation And Storage Temperature Range	-20ºC to 55ºC
Interface	USB, Ethernet interface
Power Consumption	300 W
Power Supply	100VAC to 220VAC, 50HZ/60HZ
Dimension	300×355×220 mm
Weight	8.9 Kg

Features

Small and portable

7-inch HD touchscreen

High-quality Peltier cooling

Fast heating and cooling

3-second quick lighting mode

Uniform hole position consistency

Applications

Real Time PCR System LMPCS-B100 supports gene expression analysis, pathogen detection, and mutation identification. It is applied in clinical diagnostics, forensic analysis, food safety, and environmental monitoring.

Selection Guide

Real Time PCR System LMPCS-B100 is a versatile molecular diagnostic tool widely used in research and clinical laboratories. Based on research applications, it is well-suited for gene expression analysis, genotyping, mutation detection, and pathogen quantification studies. This system supports high sensitivity and reproducibility, making it suitable for experiments requiring accurate quantification of nucleic acids. Commonly used in virology, oncology, agricultural biotechnology, and environmental monitoring, the system ensures reliable performance across a wide range of PCR applications. It is often selected by researchers due to its compatibility with SYBR Green and TaqMan assays. Additionally, the system complies with key international standards and certifications such as ISO 13485 and CE marking, which validate its quality, safety, and suitability for diagnostic and research use. These features help customers confidently choose this model based on their experimental needs and regulatory compliance requirements.

Real Time PCR System LMPCS-C100

Sample Capacity: 16
Number Of Channels: 5
Fluorescent Dyes: FAM/HEX/ROX/CY5/CY5.5
Operating System: 7-inch build-in Android system
Light Source: High brightness LED

Real time PCR system LMPCS-901

Fluorescence Channels: 2
Sample Capacity (Wells): 48
Reaction Volume: 5 to 100µL
Consumables: 0.2ml 8-strip tubes, 0.2ml PCR single tube
Temperature Range: 0°C to 100°C

Real time PCR system LMPCS-902

Fluorescence Channels: 4
Sample Capacity (Wells): 48
Reaction Volume: 5 to 100µL
Consumables: 0.2ml 8-strip tubes, 0.2ml PCR single tube
Temperature Range: 0°C to 100°C

Real Time PCR LMRT-A101

Sample Capacity: 96-well Plate,12×8 tube strip,96×0.2 mL single tube
Volume: 15 to 100 µL
Consumable: 0.2ml tube, 0.2ml 8-tube strips, 0.2ml 96 well plate
Temperature: 0 ⁰C to 100 ⁰C
Ramp Rate: 7.0 ⁰C/s

Real Time PCR System LMPCS-C101

Sample Capacity: 48
Number Of Channels: 5
Detection Method: Real-time fluorescent quantitative PCR
Fluorescent Dyes: FAM/HEX/ROX/CY5/CY5.5
Light Source: High brightness LED

Real Time PCR System LMPCS-C103

Sample Capacity: 96
Number Of Channels: 5
Consumable Type: 0.2 mL 8-strip tubes
Reaction Volume: 5 to 100 μL
Single Channel Scanning Time: 1.5s

Real time PCR system LMPCS-802

Fluorescence Channels: 4
Sample Capacity (Wells): 96
Reaction Volume: 0 to 100µL
Consumables: 0.2ml 96-well plates; 0.2ml 8-strip tubes, 0.2ml PCR single tube
Temperature Range: 0°C to 100°C

Real Time PCR System LMPCS-C102

Sample Capacity: 96×0.2ml
Number Of Channels: 5
Consumable Type: 0.2 mL 8-strip tubes
Reaction Volume: 5 to 100 μL
Single Channel Scanning Time: 1.5s

Real Time PCR System LMPCS-803

Sample Capacity: 96 well×0.2 ml
Sample Volume: 20 to 120 µl
Heating Method: Peltier
Consumables: 0.2 ml PCB 8-Tube Strips, 0.2 ml PCR tube with cap
Temperature Range: 4ºC to 100ºC

Real Time PCR LMRT-A100

Temperature Range: 48 wells x 0.2 mL
Heating rate: 4 – 100 °C
Cooling Rate: 4.5 °C/S
Temp Accuracy: 3 °C/S
Temp Uniformity: ± 0.1 °C

Real time PCR system LMPCS-801

Throughput: 1 to 96 samples
Fluorescence Channels: 6
Fluorescence Scanning Time: 7 seconds
Excitation Range: Channel 1: 465 nm, Channel 2: 527 nm, Channel 3: 580 nm, Channel 4: 632 nm, Channel 5: 680 nm, Channel 6: 465 nm
Detection Range: Channel 1: 510 nm, Channel 2: 563 nm, Channel 3: 616 nm, Channel 4: 664 nm, Channel 5: 730 nm, Channel 6: 616 nm

Frequently Asked Questions

1 What is a Real Time PCR System LMPCS-B100?

A Real Time PCR System LMPCS-B100 is an apparatus designed for real-time DNA and RNA amplification and quantification.

2 What types of samples can be analyzed using Real Time PCR System LMPCS-B100?

Real Time PCR System LMPCS-B100 can analyze a wide range of sample types, including blood, tissue, swabs, and purified nucleic acids.

3 Can Real Time PCR System LMPCS-B100 assist in identifying antibiotic-resistant tuberculosis strains?

Real Time PCR System LMPCS-B100 is used to identify antibiotic resistance mutations in Mycobacterium tuberculosis.

4 Can Real Time PCR System LMPCS-B100 detect contamination in stem cell cultures?

Real Time PCR System LMPCS-B100 detects microbial and mycoplasma contamination in stem cell culture systems.

5 Is Real Time PCR System LMPCS-B100 suitable for detecting biofilm-related genes?

Real Time PCR System LMPCS-B100 is used to quantify expression of biofilm-associated genes in clinical and environmental samples.

6 Is Real Time PCR System LMPCS-B100 used in GMO seed purity testing?

Real Time PCR System LMPCS-B100 determines the genetic purity of seed lots by detecting and quantifying GMO events.

7 Is Real Time PCR System LMPCS-B100 suitable for testing biosimilar product safety?

Real Time PCR System LMPCS-B100 is used to ensure biosimilar product safety by detecting residual host cell DNA.

8 Is Real Time PCR System LMPCS-B100 effective for monitoring gut microbiota composition?

Real Time PCR System LMPCS-B100 quantifies specific bacterial populations in gut microbiome studies.

9 Is Real Time PCR System LMPCS-B100 used in forensic DNA analysis?

Real Time PCR System LMPCS-B100 is applied in forensic labs for quantifying trace DNA and confirming sample integrity.

10 Is Real Time PCR System LMPCS-B100 suitable for identifying adulteration in organic food products?

Real Time PCR System LMPCS-B100 detects DNA markers that reveal contamination or adulteration in certified organic foods.

11 What is a Real Time PCR System?

A Real Time PCR System is an apparatus designed to amplify and simultaneously quantify a targeted DNA molecule, enabling real-time monitoring of the reaction.

12 How does Real Time PCR System work?

It works by amplifying DNA through thermal cycling while using fluorescent dyes or probes to detect and quantify DNA during each cycle.

13 How is Real Time PCR System different from a conventional PCR system?

It differs from conventional PCR by providing quantitative data in real time, whereas conventional PCR only shows end-point results after gel electrophoresis.

14 Can Real Time PCR System be used for RNA analysis?

It is used for RNA analysis through reverse transcription, converting RNA to cDNA before amplification.

15 How is Real Time PCR System used in cancer research?

It is used in cancer research to analyze gene expression levels, detect mutations, and monitor biomarkers related to tumor progression.

16 Is Real Time PCR System suitable for food safety testing?

It is suitable for food safety testing by detecting microbial contamination, allergens, and genetically modified organisms (GMOs) in food products.

17 How does Real Time PCR System help in detecting genetic disorders?

It helps in detecting genetic disorders by identifying specific gene mutations, deletions, or duplications linked to hereditary conditions.

18 How is Real Time PCR System used in forensic science?

It is used in forensic science for DNA quantification, STR analysis, and species identification in criminal investigations.

19 How does Real Time PCR System support environmental testing?

It supports environmental testing by identifying microbial contamination in water, soil, and air samples.

20 Can Real Time PCR System be applied to microbiome analysis?

It is applied to microbiome analysis by quantifying specific bacterial or fungal species in complex biological samples.