The Opentrons Flex Gripper GEN1 attaches to the gantry and is capable of moving labware across the deck and on or off modules such as the Magnetic Block or Thermocycler. It can also access the additional slots to the side of the main deck to replenish tips or labware. The gripper can be used with any pipette configuration.
Included with the gripper is a calibration pin that enables automatic calibration to ensure positional accuracy. Currently, the gripper is optimized for use with the following labware items:
– NEST 2 mL 96 Deep Well Plate, V bottom
– Opentrons Tough 0.2 mL 96-Well PCR Plate, Full Skirt
– NEST 96 Well Plate Flat
– All Opentrons Flex tip racks
Detail
The Opentrons Flex Gripper GEN1 attaches to the gantry and is capable of moving labware across the deck and on or off modules such as the Magnetic Block or Thermocycler. It can also access the additional slots to the side of the main deck to replenish tips or labware. The gripper can be used with any pipette configuration.
Included with the gripper is a calibration pin that enables automatic calibration to ensure positional accuracy. Currently, the gripper is optimized for use with the following labware items:
– NEST 2 mL 96 Deep Well Plate, V bottom – Opentrons Tough 0.2 mL 96-Well PCR Plate, Full Skirt – NEST 96 Well Plate Flat – All Opentrons Flex tip racks
Permagen’s most universal bar magnet plate. From PCR plates to almost any microplate including deep well, flat bottom, pyramid bottom, round bottom, full-skirt PCR, and 1/2 skirt PCR the MSPU650 has you covered
SBS SLAS Footprint (127.75mm x 85.50mm) to fit into any automated liquid handling robot
Features include solid aluminum alloy construction and hard coat anodized finish for years of trouble-free use, and compatible with any magnetic bead
Permagen’s most universal bar magnet plate. From PCR plates to almost any microplate including deep well, flat bottom, pyramid bottom, round bottom, full-skirt PCR, and 1/2 skirt PCR the MSPU650 has you covered
[NS1001] FluoroVue™ Nucleic Acid Gel Stain (10,000X), 500 μl x 5
Product Info
Document
Product Info
Description
FluoroVue™ Nucleic Acid Gel Stain (10,000X) is specially designed for in-gel use and is a safer replacement for conventional Ethidium bromide (EtBr), which poses a significant health and safety hazard to its users. It is a fluorescent stain which offers highly sensitive detection of double-stranded or single-stranded DNA and RNA in a convenient manner. FluoroVue™ Nucleic Acid Gel Stain offers high sensitivity that is several times greater than EtBr.
FluoroVue™ Nucleic Acid Gel Stain is compatible with both conventional UV gel-illumination systems as well as harmless long wavelength blue light illumination systems, like B-BOX™. When bound to nucleic acids, FluoroVue™ Nucleic Acid Gel Stain has a fluorescent excitation maximum of 250 and 482 nm, and an emission maximum of 509 nm. Therefore, it can replace EtBr without the need of changing existing lab imaging systems.
Features:
Excellent for in-gel staining
Sensitivity: 0.14 ng (DNA) or 1 ng (total RNA)
A safer alternative to EtBr
Compatibility: suitable to blue or UV light
Increased cloning efficiency (blue light)
Storage
Protected from light 4°C for 12 months -20°C for 24 months
Document
FluoroVue™ Nucleic Acid Gel Stain (10,000X) is specially designed for in-gel use and is a safer replacement for conventional Ethidium bromide (EtBr), which poses a significant health and safety hazard to its users. It is a fluorescent stain which offers highly sensitive detection of double-stranded or single-stranded DNA and RNA in a convenient manner. FluoroVue™ Nucleic Acid Gel Stain offers high sensitivity that is several times greater than EtBr.
FluoroVue™ Nucleic Acid Gel Stain is compatible with both conventional UV gel-illumination systems as well as harmless long wavelength blue light illumination systems, like B-BOX™. When bound to nucleic acids, FluoroVue™ Nucleic Acid Gel Stain has a fluorescent excitation maximum of 250 and 482 nm, and an emission maximum of 509 nm. Therefore, it can replace EtBr without the need of changing existing lab imaging systems.
