The Opentrons Temperature Module, compatible with both the OT-2 and Flex Robots, is a fully automated thermoelectric module and integrated for use with the Opentrons platform. It is used to achieve temperature changes ranging from 4 to 95°C for various applications.
The Temperature Module GEN2 is compatible with the new Opentrons Flex Robot when paired with the Flex Temperature Caddy and Calibration Adapter. The caddy sits below the deck to enable below-deck cable routing and labware placed on modules remain closer to the deck surface. The calibration adapter is used to calibrate the location of the module. If you choose to include the Opentrons Flex Caddy and Calibration Adapter, your order will ship in 20 business days.
Detail
The Opentrons Temperature Module, compatible with both the OT-2 and Flex Robots, is a fully automated thermoelectric module and integrated for use with the Opentrons platform. It is used to achieve temperature changes ranging from 4 to 95°C for various applications.
The Temperature Module GEN2 is compatible with the new Opentrons Flex Robot when paired with the Flex Temperature Caddy and Calibration Adapter. The caddy sits below the deck to enable below-deck cable routing and labware placed on modules remain closer to the deck surface. The calibration adapter is used to calibrate the location of the module. If you choose to include the Opentrons Flex Caddy and Calibration Adapter, your order will ship in 20 business days.
Other Products
[DL2000] ExcelDye™ 6X DNA Loading Dye, Green, 5 ml x 2
Product Info
Document
Product Info
Description
The ExcelDye™ 6× DNA Loading Dye (Green) is pre-mixed buffer for tracking the DNA sample during the electrophoresis on agarose or polyacrylamide gels. It contains two dyes (Xylene cyanol FF and Orange G) for tracking the DNA migration. The Xylene cyanol FF and Orange G migrate at approximately 800 bp and 30 bp on a standard 2% TAE agarose gel respectively (4,000 bp and 50 bp on 1% TAE agarose gel respectively). The included glycerol keeps the DNA at the bottom of the well and the presence of EDTA chelates divalent metal ions to prevent the process of metal-dependent nuclease.
Composition
0.03% Xylene cyanol FF
0.15% Orange G
10 mM Tris-HCl (pH 8.0)
60% glycerol
60 mM EDTA
Storage
4°C for 12 months -20°C for 36 months
Document
The ExcelDye™ 6× DNA Loading Dye (Green) is pre-mixed buffer for tracking the DNA sample during the electrophoresis on agarose or polyacrylamide gels. It contains two dyes (Xylene cyanol FF and Orange G) for tracking the DNA migration. The Xylene cyanol FF and Orange G migrate at approximately 800 bp and 30 bp on a standard 2% TAE agarose gel respectively (4,000 bp and 50 bp on 1% TAE agarose gel respectively). The included glycerol keeps the DNA at the bottom of the well and the presence of EDTA chelates divalent metal ions to prevent the process of metal-dependent nuclease.
The kit is developed for RNA quantification. The RNA Quantification HS kit includes HS Dye, HS Dilution Buffer, and two RNA Standards. Simply dilute the HS Dye with the HS Dilution Buffer, add RNA sample, then read the concentration using the Qubit Fluorometer. The assay is accurate for RNA concentrations from 250 pg/µL to 100 ng/µL (Figure 1). The RNA Quantification High Sensitivity Kit has several advantages over traditional RNA quantitation such as stability, sensitivity, and contaminant tolerance.
Features
Optimized condition for using with the Qubit Fluorometer
Uses the Qubit RNA High Sensitivity assay setting
Cuts costs by 60%
The performance of the BioDynami RNA Quantification HS kit is nearly identical to that of Thermo Fisher’s Qubit RNA HS kit (figure below).
Common contaminants such as detergents, solvents, salts, free nucleotides, or protein are well tolerated in the assay (Table 1).
Qubit is a registered trademark of Thermo Fisher Scientific.
Document
The kit is developed for RNA quantification. The RNA Quantification HS kit includes HS Dye, HS Dilution Buffer, and two RNA Standards. Simply dilute the HS Dye with the HS Dilution Buffer, add RNA sample, then read the concentration using the Qubit Fluorometer. The assay is accurate for RNA concentrations from 250 pg/µL to 100 ng/µL (Figure 1). The RNA Quantification High Sensitivity Kit has several advantages over traditional RNA quantitation such as stability, sensitivity, and contaminant tolerance.