Peelable heat sealing foil which seals to polystyrene plates. This seal is resealable, pierceable and suitable for compound storage too.
Detail
Overview
Peelable heat sealing foil which seals to polystyrene plates. This seal is resealable, pierceable and suitable for compound storage too.
Heat sealing offers a 100% effective method of plate sealing, for complete seal integrity, as well as being quick and cost effective
Our PierceASeal Foil PS Heat Seal produces a strong seal to polystyrene plates
It is compatible with polypropylene and polystyrene plates
This seal demonstrates moderate solvent resistance and can be used for low temperature compound storage, in DMSO and organic solvents, and short term room temperature storage
PierceASeal Foil PS Heat Seal can be pierced with a pipette tip manually, by a liquid handling robot, or it can be removed by peeling (from polystyrene only). It can be resealed by applying another Polystyrene Foil Heat Seal directly on top of a previously pierced seal
This seal is available as sheets, for use with manual and semi-automated sealers, such as our HeatASeal 500 Sealing Machine
Also available in multiple roll formats compatible with specified automated heat sealers, such as our Wasp or Chameleon XT
Our 384-well PCR plates have a rigid fully-skirted frame which remains stable during thermal cycling.
About
Our 384-well plate has a rigid, fully-skirted frame which remains stable during thermal cycling. The rigidity of the plate lends itself to automated and high-throughput PCR environments where robotic handling maybe in use.
The 2-component design reduces the risk of evaporation due to a poor sealing, commonly seen with 1-component PCR plates. 100% virgin medical grade polypropylene is used for the 384 wells, with a maximum capacity of 45 µL Certified free from DNase, RNase, nucleases and human gDNA.
It is recommended to use the Isothermal fluorescence detector developed by Amp-future, which is also suitable for fluorescence quantitative PCR apparatus with market known brands.
Kit Storage and term of Validity
Storage term: stored at ≤-20℃,keep away from light, avoid heavy weight and repeated freezing and thawing.
Term of Validity: 14 months
Isothermal nucleic acid Principle Summary
This kit is based on a rapid nucleic acid amplification technology at room temperature and constant temperature: at room temperature and constant temperature (generally 39℃~42℃), with the help of auxiliary proteins and single-strand binding proteins,the recombinase and primers form a complex;Source search and combine the target homology domain, at this time,a D-loop region is formed at the homology position and strand exchange begins;along with the dissociation of the recombinase from the complex,the polymerase also binds to the 3′ end of the primer and begins chain extension. At the same time, relying on the function of exonuclease, adding specific molecular probes designed according to the template, and using fluorescence monitoring equipment can realize real-time monitoring of the amplification process of the target fragment.
Isothermal nucleic acid Product Features
1/ High sensitivity and specificity, short reaction time.
2/ The reagent form is freeze-dried, stable and easy to operate.
Technical Parameters:
Parameters
Details
Product Name
DNA Isothermal Amplification Kit EXO
Manufacturer
Amp-future
Storage Temperature
-20°C
Kit Components
Enzymes, Buffers ,Reagents
Packaging
48 Tests/box
Detection Limit
500-1000copies/µL
Shipping
ICE
Test Time
5-20mins
Isothermal nucleic acid Applications
Suitable for DNA isothermal rapid amplification kit(fluorescent type)
Primer: Require pair of nucleotide primers with the length of 25-35 bp.
Fluorescent Probe:Require the suitable length is 46-52nt.
DNA fluorescent kit reaction temperature is 39 to 42℃ and time is 5-20 minutes.
Notes
1/ Please avoid nucleic acid contamination and set blank control during reaction due to the high sensitivity of the kit.
2/ Please take out the required quantity of MIRA reaction units for the experiment, and put the rest under storage conditions when performing the experiment.