Description
Ultrapure dGTP supplied as sodium salt in purified water (pH 8.5).
Features
- Ideal for PCR amplification and cDNA synthesis
- Nuclease and ribonuclease free
Applications
- PCR
- RT-PCR
Storage
-20°C for 36 months
Ultrapure dGTP supplied as sodium salt in purified water (pH 8.5).
Description
Ultrapure dGTP supplied as sodium salt in purified water (pH 8.5).
Features
Applications
Storage
-20°C for 36 months
Magen’s HiPure columns are prepared by high quality glass fiber filter membrane as raw materials through membrane cutting, membrane release, ring release, ring pressing, gland, weighing and other processes. HiPure nucleic acid adsorption columns have the characteristics of long-term stability and high binding capacity. Experiments show that the highest binding capacity and binding efficiency of HiPure nucleic acid adsorption columns are basically unchanged when stored at room temperature for 4 years.
The series of nucleic acid columns produced by Magen Biotech are based on carefully selected imported glass fiber membranes (GF/B, GF/D, GF/F). Columns production processes such as polypropylene injection molding materials, injection molding process, and downstream membrane packing and compression rings are strictly controlled. This is to ensure that the column has extremely high adsorption capacity and long-term stability. Compared with conventional products on the market, Magen’s columns are with varieties, and binding rate will not change when stored at room temperature for 4 years.
Specifications
| Features | Specifications |
| Recommended application | Small amounts of nucleic acid isolation, viral nucleicacid from cell free samples |
| Preservation conditions | Room temperature |
| Stability | Up to 4 years |
| Filter membrane | High quality glass fiber filter GF/F, 3 layers |
| Membrane aperture | 0.7μm |
| Maximum binding yield of plasmid | 30 μg |
| Maximum yield of alcohol mediated Binding | 200 μg |
| Single liquid carrying capacity of column | 800 μl |
| Minimum elution volume | 30 μl |
| Withstand centrifugal force | 16,000 x g |
| Centrifuge | Small high speed centrifuge (2ml) |
Adsorption Mechanism
Based on the negatively charged DNA skeleton, it has a high affinity for positively charged glass fibers. In high salt and ethanol solutions, DNA/RNA binds to glass fiber and interacts with hydrophilic matrix on silica through hydrogen bond. DNA/RNA is tightly bound. All pollutants can be removed by washing solution. At high salt concentration, nucleic acids selectively bind to silicagel membrane, while other pollutants, mainly proteins, are removed by membrane washing.
Ordering information
| CAT.No. | Product Name | Package |
| C13112 | HiPure Viral Mini Column I (3 x GF/F)with 2ml Collection Tubes | 1000/Bag |
| Item No. | Product Name | Membrane type/number of layers | Collection tubes | Plasmid DNA binding capacity (Physical adsorption) | gDNA/RNA binding capacity (Alcohol-mediated adsorption) | Minimum Elution volume | Liquid volume capacity |
| C13010 | HiPure DNA Nano Column | 2 layers GF/F | 2ml without cap | 5μg | 20μg | 10μl | 700μl |
| C13011 | HiPure DNA Micro Column | 3 layers GF/F | 2ml without cap | 10μg | 50μg | 15μl | 700μl |
| C13100 | HiPure DNA Mini Column I | 2 layers GF/B | 2ml without cap | 15μg | 100μg | 30μl | 700μl |
| C13110 | HiPure DNA Mini Column II | 4 layers GF/B | 2ml without cap | 35μg | 200μg | 50μl | 800μl |
| C13111 | HiPure RNA Mini Column | 3 layers GF/B | 2ml without cap | 30μg | 200μg | 30μl | 800μl |
| C13112 | HiPure Viral Mini Column | 3 layers GF/F | 2ml without cap | 30μg | 200μg | 30μl | 800μl |
| C13113 | HiPure CFDNA Mini Column | 3 layers GF/F,1 layer GF/B | 2ml without cap | 30μg | 200μg | 30μl | 800μl |
| C13120 | HiPure DNA Midi Column | 4 layers GF/B | 15ml Centrifuge tube | 125μg | 1mg | 500μl | 4ml |
| C13121 | HiPure DNA Midi Column III | 8 layers GF/B | 15ml Centrifuge tube | 250μg | 1mg | 500μl | 4ml |
| C13122 | HiPure DNA Maxi Column | 4 layers GF/B | 50ml Centrifuge tube | 500μg | 5mg | 1000μl | 20ml |
| C13123 | HiPure DNA Maxi Column III | 8 layers GF/B | 50ml Centrifuge tube | 1mg | 5mg | 1000μl | 20ml |
| C13124 | HiPure DNA Maxi Column C | 8 layers GF/B | 50ml high speed Centrifuge tube | 1mg | 5mg | 700μl | 12ml |
| C13130 | HiPure DNA Plate | 2 layers GF/F | 1.6ml Plate | 30μg | 100μg | 80μl | 900μl |
| C13131 | HiPure gDNA Plate | 2 layers GF/B | 1.6ml Plate | 30μg | 100μg | 80μl | 900μl |
Note: GF/B pore size is for 1.0μM glass fiber membrane; GF/F pore size is for 0.7μm glass fiber membrane.
Magen’s HiPure columns are prepared by high quality glass fiber filter membrane as raw materials through membrane cutting, membrane release, ring release, ring pressing, gland, weighing and other processes. HiPure nucleic acid adsorption columns have the characteristics of long-term stability and high binding capacity. Experiments show that the highest binding capacity and binding efficiency of HiPure nucleic acid adsorption columns are basically unchanged when stored at room temperature for 4 years.
Salmonella enterica have emerged as significant foodborne pathogens that pose a serious public health problem. The symptoms of salmonellosis may include diarrhea, fever, vomiting, and abdominal cramps with elderly, new-born, and immunocompromised individuals the most susceptible. S. enterica is a facultatively anaerobic Gram-negative bacterium that could survive low temperatures and freezing. The majority of the 1.3 billion annual cases of Salmonella-caused human gastroenteritis result from ingestion of contaminated food products, such as raw or undercooked meat, seafood, and eggs, as well as raw or unpasteurized milk and dairy products. Salmonella infections are also contracted following consumption of fresh fruits or vegetables that have been contaminated by infected fertilizer.
Salmonella enterica TaqMan PCR Kit, 100 reactions
Salmonella enterica TaqMan PCR Probe/Primer Set and Controls, 100 reactions
Figure 1 / 3
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Storage Conditions and Product Stability
All kit components can be stored for 2 years after the date of production without showing any reduction in performance.
All kit components should be stored at -20°C upon arrival. Repeated thawing and freezing (> 2 x) of the Master Mix and Positive Control should be avoided, as this may affect the performance of the assay. If the reagents are to be used only intermittently, they should be frozen in aliquots.
| Component | Cat. TM32150 (100 preps) | Cat. TM32110 (100 preps) |
|---|---|---|
| MDx TaqMan 2X PCR Master Mix | 2 x 700 μL | – |
| S. enterica Primer & Probe Mix | 280 μL | 280 μL |
| S. enterica Positive Control | 150 μL | 150 μL |
| Nuclease-Free Water (Negative Control) | 1.25 mL | 1.25 mL |
| Product Insert | 1 | 1 |
Description
The EzRNA™ RNA Capping System is a user-friendly product for post-transcriptional RNA modification. Both Vaccinia Capping Enzyme and 2’-O-Methyltransferase are included in the package, which are able to perform in a single reaction. The Vaccinia Capping Enzyme attach 7-methylguanylate cap (m7Gppp, Cap-0) to the 5′ end of RNA to form m7Gppp5’N-RNA (Cap-0 RNA). The 2′-O-methyltransferase utilizes Cap-0 RNA as a substrate, employing S-adenosine methionine (SAM) as a methyl donor to methylate 2′ -OH of the first nucleotide at the 5′ end of Cap-0 RNA, resulting in the formation of Cap-1 RNA.
-20°C for 24 months
The EzRNA™ RNA Capping System is a user-friendly product for post-transcriptional RNA modification. Both Vaccinia Capping Enzyme and 2’-O-Methyltransferase are included in the package, which are able to perform in a single reaction. The Vaccinia Capping Enzyme attach 7-methylguanylate cap (m7Gppp, Cap-0) to the 5′ end of RNA to form m7Gppp5’N-RNA (Cap-0 RNA). The 2′-O-methyltransferase utilizes Cap-0 RNA as a substrate, employing S-adenosine methionine (SAM) as a methyl donor to methylate 2′ -OH of the first nucleotide at the 5′ end of Cap-0 RNA, resulting in the formation of Cap-1 RNA.