DLAB Accurate 96 real-time fluorescent quantitative PCR system
Introduction: Accurate 96 real-time fluorescence quantitative PCR system has reached the international advanced level in detection sensitivity, temperature uniformity and accuracy, and can be widely used in scientific research, clinical testing and diagnosis, quality and safety testing, forensic applications and other fields. Features: 1. Six channels cover most fluorescence, meeting the simultaneous detection of 5 target genes in 96 samples; 2. Effectively reduce multi-color crosstalk and edge effects, without fluorescence correction; 3. New optical scanning detection system; 4. Innovative scanning method and time-resolved signal separation technology; 5. Unique zone temperature control and edge temperature compensation technology to ensure temperature uniformity; 6. Humanized operating software is simple and easy to operate. technical parameter: The capacity: 96 Reaction volume: 10-50μl Thermal cycling technology: Peltier Maximum temperature rise and fall rate: 6℃/s Temperature range: 4-100℃ Temperature accuracy: ±0.2℃ Temperature uniformity: ±0.2℃@60℃, ±0.2℃@95℃ Temperature gradient range: 30-100℃ Temperature gradient temperature difference range: 1-36℃ Excitation light source: 4/6 single-color high-efficiency LEDs Detection device: PMT Detection mode: time-resolved real-time scanning Excitation/detection range: 455-650nm/510-715nm Number of fluorescence channels: 4/6 channels Sensitivity: single copy gene Resolution: 1.33 times the copy number difference can be distinguished in single reaction Dynamic range: 10 orders of magnitude Supported dyes: FAM/SYBR Green, VIC/JOE/HEX/TET, ABY /NED/TAMRA/Cy3, ROX/Texas Red, JUN, Mustang Purple, Cy5/LIZ/Quasar
Introduction: Accurate 96 real-time fluorescence quantitative PCR system has reached the international advanced level in detection sensitivity, temperature uniformity and accuracy, and can be widely used in scientific research, clinical testing and diagnosis, quality and safety testing, forensic applications and other fields.