The PR1MA™ MyVolt™ Touch is a work horse electrophoresis power supply, ideal for efficient separation of nucleic acids and proteins as well as basic western blotting applications. Four pairs of output jacks are wired in parallel for connecting multiple electrophoresis tanks. A color touch screen allows quick setting and monitoring of all run conditions, including run time, voltage, and current. Users can select “Constant Current” or “Constant Voltage” during an electrophoresis run, keeping the chosen parameter fixed as resistance changes. The dual orientation design with rotating display allows the MyVolt™ Touch to be installed in the most convenient location, on a shelf or bench, saving valuable space.
The PR1MA™ MyVolt™ Touch features a logical user interface. Setting up an electrophoresis run couldn’t be easier; simply touch the parameter to select it, press the “up” and “down” arrows to adjust the value, and then touch “Start”. All parameters are always displayed, with no need to toggle between Time, Voltage or Amperage. In addition, the run status is always displayed.
Output Settings
Constant voltage or constant current
Voltage Output
10-300 V (1 V increments)
Current Output
1-400 mA (1 mA increments)
Max Wattage
100 W
Timer
1 min. to 20 hours or continuous
Output Terminals
4 pairs (wired in parallel)
Safety
No load detection, overload detection with power limitying function
Display
2 x 2 in. color touchscreen
Dimensions
8.5 x 6.3 x 4.0 inches
Weight
2 lbs
Electrical*
100 V to 230 V, 50-60 Hz (Universal Input)
Warranty
2 years
Buy 5 Cases of TPP Cryo Tubes and Get a PR1MA™ Cooler Cryo Rack Free! (#Rack-Cryo-F)
Valid through December 31, 2022 - Institutional pricing not valid. All terms apply.
TPP Polar Cryogenic Tubes
Perfect for long term storage of Cell lines or Harvested Tissues in the freezer or cryogenic dewars (LN2 vapor phase)
Quality Assurance:
Recommendations:
Material
Temperature Range
Max. RCF
Polypropylene (PP) Tubes
-196°C to 121°C
9,500 x g
They are compact laminar flow enclosures that reduce the risk of sample contamination while performing polymerase chain reaction experiments.
Airborne contaminants are prevented from entering into the work zone through constant positive pressure HEPA filtered air. Each PCR prep station is equipped with a built-in 254 nanometer shortwave lamp to effectively decontaminate the work area between amplifications. Safety interlocks are included on all PCR prep stations to prevent operator exposure to potentially harmful UV radiation.
MY-PCR prep stations are bench-top personal clean zones allowing the operator to amplify RNA and DNA while minimizing the potential for background from airborne contaminants.
Note: MY-PCR and FE-PCR are not biological safety cabinets. They are designed to provide process protection only from potential airborne contaminants found in the laboratory space.
Sash position switch and overlap to prevent UV light exposure
Specs
MY-PCR24
MY-PCR32
MY-PCR48
Width
24"
32"
48"
Depth
Height
30"
Noise Level
<45 DBA
<49 DBA
<56 DBA
Voltage
110 V or 220 V
Power
200 Watts
400 Watts
UV Light
15 W/254 mm
15 W/254 mm (2)
Blower
Sparkless Brushless
UV Light Timer
0-15 min.
Safety Interlock
Yes
Air Velocity
60 LFM
HEPA Filters, Pre-Filters, UV bulbs, additional ports and shelves also available.
PR1MA Taq provides superior results for routine applications. Modified to improve DNA-binding, this polymerase offers higher solubility and greater template affinity, resulting in consistently superior performance. PR1MA Taq Polymerase exhibits a 5' to 3' nuclease activity, but no 3' to 5' (proofreading) activity and works well with a wide range of DNA templates including GC-rich sequences.
The polymerase is supplied with a 5X buffer containing MgCl2 and proprietary mix of enhancers (dNTP's not included). For convenience, PR1MA Taq is also available in a ready to use 2X Master Mix - just add primers and template DNA. Our "Red Dye" Master Mix incorporates a red loading dye that allows amplified samples to be loaded directly on an agarose gel. The red color aids in visualization during pipetting, and higher density of the buffer ensures that the samples will drop into the gel wells.