FAM Dye qPCR Calibration Plate *Optimized for ABI7500 Fast 96-Well*
FAM Dye qPCR Calibration Plate can be used to maintain your 7500 Real-Time PCR system with Fast 96-well block. For most of qPCR instruments, the necessary calibrations should be run at least every six months. This calibration plate is ready to use without any additional preparation steps required. The qPCR calibration plate might significantly improve qPCR results with multiplexing by more accurately representing fluorescent spectra used in your real-time experiments. Please refer to your instrument's guide for the detailed calibration operation.
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Product family
Name | Excitation (nm) | Emission (nm) | Extinction coefficient (cm -1 M -1) |
TAMRA Dye qPCR Calibration Plate *Optimized for ABI7500 Fast 96-Well* | 552 | 578 | 90000 |
VIC Dye qPCR Calibration Plate *Optimized for ABI7500 Fast 96-Well* | 526 | 543 | - |
ROX Dye qPCR Calibration Plate *Optimized for ABI7500 Fast 96-Well* | 578 | 604 | 82000 |
SYBR Dye qPCR Calibration Plate *Optimized for ABI7500 Fast 96-Well* | 498 | 522 | - |
NED Dye qPCR Calibration Plate *Optimized for ABI7500 Fast 96-Well* | 545 | 567 | 740001 |
JOE Dye qPCR Calibration Plate *Optimized for ABI7500 Fast 96-Well* | 520 | 545 | 750001 |
FAM Dye qPCR Calibration Solution *10,000X* | 493 | 517 | 83000 |
Cy5 Dye qPCR Calibration Plate *Optimized for ABI7500 Fast 96-Well* | 651 | 670 | 2500001 |
ABY Dye qPCR Calibration Plate *Optimized for ABI7500 Fast 96-Well* | 559 | 570 | 1200001 |
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References
View all 50 references: Citation Explorer
Novel design of nucleic acid standards for hydrolysis probe-based PCR with melting analysis.
Authors: Baoutina, Anna and Bhat, Somanath
Journal: Gene therapy (2021)
Authors: Baoutina, Anna and Bhat, Somanath
Journal: Gene therapy (2021)
Determination of Advantages and Limitations of qPCR Duplexing in a Single Fluorescent Channel.
Authors: Zhang, Haoqing and Yan, Zhiqiang and Wang, Xinlu and Gaňová, Martina and Chang, Honglong and Laššáková, Soňa and Korabecna, Marie and Neuzil, Pavel
Journal: ACS omega (2021): 22292-22300
Authors: Zhang, Haoqing and Yan, Zhiqiang and Wang, Xinlu and Gaňová, Martina and Chang, Honglong and Laššáková, Soňa and Korabecna, Marie and Neuzil, Pavel
Journal: ACS omega (2021): 22292-22300
Fluorescent Molecular Beacons Mimicking RNA Secondary Structures to Study RNA Chaperone Activity.
Authors: Menendez-Gil, Pilar and Caballero, Carlos J and Solano, Cristina and Toledo-Arana, Alejandro
Journal: Methods in molecular biology (Clifton, N.J.) (2020): 41-58
Authors: Menendez-Gil, Pilar and Caballero, Carlos J and Solano, Cristina and Toledo-Arana, Alejandro
Journal: Methods in molecular biology (Clifton, N.J.) (2020): 41-58
Development and Evaluation of a Single Dye Duplex Droplet Digital PCR Assay for the Rapid Detection and Quantification of Mycobacterium tuberculosis.
Authors: Nyaruaba, Raphael and Xiong, Jin and Mwaliko, Caroline and Wang, Nuo and Kibii, Belindah J and Yu, Junping and Wei, Hongping
Journal: Microorganisms (2020)
Authors: Nyaruaba, Raphael and Xiong, Jin and Mwaliko, Caroline and Wang, Nuo and Kibii, Belindah J and Yu, Junping and Wei, Hongping
Journal: Microorganisms (2020)
Fast Assays to Detect Interruptions in CTG.CAG Repeat Expansions.
Authors: Tomé, Stéphanie and Gourdon, Geneviève
Journal: Methods in molecular biology (Clifton, N.J.) (2020): 11-23
Authors: Tomé, Stéphanie and Gourdon, Geneviève
Journal: Methods in molecular biology (Clifton, N.J.) (2020): 11-23
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