Functionally tested Protein A conjugated gold Perfect for Lateral Flow Development and use in final product 40nm gold particles conjugated to Protein A are offered in 10 OD 1mL size. If a different OD or amount is required please
Product image shows functional testing of Protein A 40nm colloidal gold on a lateral flow test. Protein A 40nm colloidal gold was incubated in lateral flow running buffer alone or in the presence of a limiting amount of monoclonal antibody that targets the chemical-BSA conjugate. The gold was then applied to the sample port of a cassette containing a lateral flow strip sprayed with a chemical conjugate (Chemical-BSA) on the test line and a goat anti mouse antibody as the control line. The data demonstrates the specificity and robustness of the Protein A 40nm colloidal gold.
Our products are produced in a state-of-the-art manufacturing facility that enable rapid turnaround times while ensuring batch to batch consistency and reliability.
Other Products
endo-BCN-PEG4-t-butyl ester
Product Info
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Product Info
endo-BCN-PEG4-t-butyl ester is a click chemistry linker containing a BCN group and a t-butyl protected carboxyl group. The BCN group can react with azide-tagged molecules. The protected carboxyl group (COOH) prevents self coupling or polymerization under standard acid/amine or acid/hydroxyl coupling conditions. The t-butyl ester can be converted to free acid under acidc condition. Reagent grade, for research purpose. Please contact us for GMP-grade inquiries.
Document
endo-BCN-PEG4-t-butyl ester is a click chemistry linker containing a BCN group and a t-butyl protected carboxyl group. The BCN group can react with azide-tagged molecules. The protected carboxyl group (COOH) prevents self coupling or polymerization under standard acid/amine or acid/hydroxyl coupling conditions. The t-butyl ester can be converted to free acid under acidc condition. Reagent grade, for research purpose. Please contact us for GMP-grade inquiries.
The Heat&Run® gDNA removal kit removes contaminating gDNA from RNA prior to RT-qPCR.
The kit is based on the recombinant heat labile dsDNase, which is irreversibly inactivated at low temperatures (5 minutes at 58ºC or 15 minutes at 55ºC).
Reverse Transcription can be performed in the same tube, thereby minimizing pipetting steps and reducing hands-on time.
Protocol
The kit contains HL-dsDNase which efficiently removes gDNA from RNA preps before running RT-qPCR.
gDNA is removed, leaving RNA ready for reverse transcription in the same tube (Figure 1).
Heat-labile dsDNase can easily be inactivated.
This procedure minimizes pipetting steps and reduces hands-on time.
The Heat&Run kit is especially well suited for high throughput experiments.
The high activity of the HL-dsDNase at low temperature and its heat-lability makes it ideal to use in a combination with a heat activated RT enzyme. The contaminating genomic DNA is cleaved at ambient temperature and increasing the temperature over 50°C will inactivate the DNase and start the Reverse Transcriptase.
Do you require gDNA removal in applications other than RT-qPCR? Contact our support team for assistance in implementing dsDNase treatment in your workflow.
Kit Contents
10X reaction Buffer
HL-dsDNase (50 or 250 reactions)
Document
The Heat&Run® gDNA removal kit removes contaminating gDNA from RNA prior to RT-qPCR.
The kit is based on the recombinant heat labile dsDNase, which is irreversibly inactivated at low temperatures (5 minutes at 58ºC or 15 minutes at 55ºC).
Reverse Transcription can be performed in the same tube, thereby minimizing pipetting steps and reducing hands-on time.
