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| Sample Capacity | 96 wells × 0.1 ml |
| Reaction Volume | 10 to 50 µl |
| Block Temperature Range | 0℃ to 105℃ |
| Maximum Heating Rate | 6℃/sec |
| Maximum Cooling Rate | 5℃/sec |
| Temperature Uniformity | ≤ ±0.2℃ at 90℃ |
| Temperature Accuracy | ≤ ±0.1℃ |
| Display Resolution | 0.1℃ |
| Heat Lid Temperature Range | 30℃ to 112℃ |
| Temperature Control Mode | Block & Calculated Sample |
| Gradient Range | 30℃ to 105℃ |
| Temperature Differential Range | 0.1℃ to 42℃ |
| Fluorescence Excitation | Long life LED lamps |
| Fluorescence Detection | CCDs |
| Dynamic Range | 1 to 1010 |
| Sensitivity | ≥ 1 copy |
| Calibrated Dyes at Installation | F1: FAM, SYBR GREEN F2: VIC, HEX, TET, JOE, CY3, NED F3: ROX, TEXAS-RED, TAMRA F4: CY5, Quasar670 F5: CY5.5 F6: Reserved |
| Fluorescence Excitation Range | 300 to 800 nm |
| Fluorescence Detection Range | 500 to 800 nm |
| Tubes Option | 96-well PCR plate with optical flat cap |
| Heating & Cooling Technology | New generation Peltier technology, 1,000,000 cycles |
| Display | 10 |
| Maximum Number of Programs | Maximum 15,000 onboard, unlimited via USB flash drive |
| Power Consumption | 600 W |
| Power Supply | 100 to 240 V, 50 to 60 Hz |
| Dimensions (L × W × H) | 334 × 280 × 365 mm |
| Weight | 13 kg |
High-Speed Thermal Cycling
Accurate Quantification Results
Real-Time Data Analysis
Multiplex Detection Capability
Advanced Optical System
Real Time PCR LRTP-B12 is a molecular biology technique used to amplify and quantify DNA or RNA in real time. It is widely applied in clinical diagnostics, research, and biotechnology for detecting pathogens, gene expression analysis, and mutation detection.
8 - Strip PCR tube - 1 pack
Download catalog for
Real Time PCR LRTP-B12 Catalog
Available Range :
Real Time PCR LRTP-A30 : 16×0.2 ml (2×8 well, double block) Real Time PCR LRTP-A60 : 48 × 0.2 ml Real Time PCR LRTP-A43 : 96 well, 12 ×8 strip, 96 × 0.2ml single tube Real Time PCR LRTP-B10 : 96 wells × 0.1 ml Real-Time PCR LRTP-A50 : 96-well Plate,12×8 tube strip,96×0.2 mL single tubeLabtron Real-Time PCR offers a variable selection of portable and benchtop units featuring 1 to 6 fluorescence detection channels. They have sample capacities ranging from 16 to 96 wells, supporting a wide range of reaction volumes. The PCR features long-life LED light sources and low noise operation. They are integrated with Peltier-based temperature control technology. Our Real-Time PCR comes with connectivity options like USB, Wi-Fi, and LAN, enabling seamless data export and remote monitoring.
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Labtron’s Real-Time PCR systems come with assay optimization guidelines that assist users in designing primers and probes with high specificity and efficiency. The systems support software that recommends optimal primer melting temperatures (Tm), GC content, and amplicon length, minimizing the risk of primer-dimer formation and non-specific amplification. Additionally, Labtron’s technical team provides guidance on assay optimization, ensuring reliable and reproducible results.
Yes, Labtron’s Real-Time PCR systems support multiplex PCR assays, enabling the simultaneous detection of multiple targets in a single reaction. The system is equipped with multiple fluorescence detection channels that allow for the detection of distinct fluorophores, minimizing cross-talk between channels. This feature makes it ideal for applications such as pathogen detection, gene expression analysis, and mutation screening, reducing time and resource consumption.
Labtron’s Real-Time PCR systems achieve high specificity by incorporating optimized thermal cycling profiles, primer-probe design validation, and precise temperature control. Additionally, the system’s software supports melt curve analysis to differentiate between specific and non-specific amplification products. These features ensure that target DNA/RNA sequences are accurately amplified, reducing the likelihood of false-positive results.
Labtron’s Real-Time PCR systems offer high sensitivity, capable of detecting low target copy numbers with minimal background noise. The systems utilize advanced fluorescence detection technology, ensuring accurate and reliable quantification of nucleic acids, even at very low concentrations. This high sensitivity makes Labtron’s systems suitable for applications such as infectious disease diagnostics, gene expression analysis, and environmental monitoring.
Yes, Labtron’s Real-Time PCR systems are compatible with both one-step and two-step reverse transcription PCR (RT-PCR) protocols. The systems provide flexibility in RNA analysis by allowing users to choose between these approaches based on their experimental needs. One-step RT-PCR integrates reverse transcription and PCR amplification in a single reaction, ideal for high-throughput applications, while two-step RT-PCR offers more control over individual steps, making it suitable for assay optimization.
While Labtron’s Real-Time PCR systems primarily perform quantitative PCR (qPCR), some models can be adapted for digital PCR (dPCR) applications with appropriate modifications. Digital PCR provides absolute quantification by partitioning the sample into thousands of individual reactions, enabling precise detection of rare mutations and low-abundance targets. Labtron’s technical team can assist with protocol adaptation for specific dPCR needs.
Labtron’s Real-Time PCR systems include built-in error detection mechanisms that alert users to potential issues during runs. The systems automatically monitor reaction conditions, fluorescence signals, and temperature variations. In case of errors, the system generates detailed error reports and provides troubleshooting recommendations through the software interface, helping users quickly identify and resolve issues.
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Labtron Equipment Ltd., Quatro House, Lyon Way, Camberley, Surrey GU16 7ER United Kingdom
Email: info@labtron.com Whatsapp: +44 73 4441 2688 Phone: +44 2080 043608
