12 x 8 strips (96 tests)
This ELISA kit is intended for the quantitative detection of IgG antibodies against parasites of Ascaris genus in human serum.
This product is manufactured by Bordier Affinity Products in Switzerland and distributed in Germany exclusively by Milenia Biotec.
Detail
Name of Product
Ascaris – IgG ELISA
Catalog Number
AF 9250
Short Info
This ELISA kit is intended for the quantitative detection of IgG antibodies against parasites of Ascaris genus in human serum.
This product is manufactured by Bordier Affinity Products in Switzerland and distributed in Germany exclusively by Milenia Biotec.
Method/Platform
ELISA in microplate format
Range/Assay Sensivity
pNPP, λ=405 nm
Test Principle
Specific antibodies in the sample bind to Ascaris solubles coelomics antigens. The presence of parasite specific antibodies is detected with a Protein A alkaline phosphatase conjugate.
The G-HiFi™ DNA Polymerase is a new genetically modified, recombinant DNA polymerase suitable for GC-rich templates that are difficult to amplify. The fidelity of G-HiFi™ DNA Polymerase is 70 times higher than that of Taq DNA polymerase. The high extension rate of G-HiFi™ DNA Polymerase is achieved by blending the DNA polymerase with an elongation enhancer. The optimized 5X G-HiFi™ Buffer includes special ingredients that suppress non-specific amplification as well as plateau effect produced by conventional PCR. With the optimized 5X G-HiFi™ Buffer, G-HiFi™ DNA Polymerase is capable to amplify most templates, such as longer targets (up to 40 kb from lambda DNA) and that contain GC-rich sequences.
Features
5’→3’ DNA polymerase activity
3’→5’ exonuclease (proofreading) activity
Suitable for GC-rich templates
High reaction rate: 7 seconds/kb
High fidelity: 70 times higher than Taq polymerase
Generates blunt end amplicons
Vast elongation capability (up to 40 kb)
Thermo-stable for more than 10 hrs at 95°C
Storage
[TF3000] G-HiFi™ DNA Polymerase
-20°C for 24 months
Document
The G-HiFi™ DNA Polymerase is a new genetically modified, recombinant DNA polymerase suitable for GC-rich templates that are difficult to amplify. The fidelity of G-HiFi™ DNA Polymerase is 70 times higher than that of Taq DNA polymerase. The high extension rate of G-HiFi™ DNA Polymerase is achieved by blending the DNA polymerase with an elongation enhancer. The optimized 5X G-HiFi™ Buffer includes special ingredients that suppress non-specific amplification as well as plateau effect produced by conventional PCR. With the optimized 5X G-HiFi™ Buffer, G-HiFi™ DNA Polymerase is capable to amplify most templates, such as longer targets (up to 40 kb from lambda DNA) and that contain GC-rich sequences.
DBCO-PEG8-PFP ester is a PEG reagent comprising a DBCO group which can react with azides for copper-free Click Chemistry reactions. The PFP ester is an active ester which can be used to react with amine groups. PFP esters have been are stable compounds and are less susceptible to undergo hydrolysis. PEG8 linker increases the water solubility of a compound in aqueous media. Reagent grade, for research purpose. Please contact us for GMP-grade inquiries.
Document
DBCO-PEG8-PFP ester is a PEG reagent comprising a DBCO group which can react with azides for copper-free Click Chemistry reactions. The PFP ester is an active ester which can be used to react with amine groups. PFP esters have been are stable compounds and are less susceptible to undergo hydrolysis. PEG8 linker increases the water solubility of a compound in aqueous media. Reagent grade, for research purpose. Please contact us for GMP-grade inquiries.
2-(Propargyl-PEG4-amido)-1,3bis(PEG1-methyl ester) is a crosslinker that can react with azide compounds or biomolecules via copper catalyzed Click Chemistry to form a stable triazole linkage. The methyl ester groups can be hydrolyzed, reduced, or substituted under different conditions.
Document
2-(Propargyl-PEG4-amido)-1,3bis(PEG1-methyl ester) is a crosslinker that can react with azide compounds or biomolecules via copper catalyzed Click Chemistry to form a stable triazole linkage. The methyl ester groups can be hydrolyzed, reduced, or substituted under different conditions.
