Agarose High Gel Temp [9012-36-6]

Référence A1025-500g

Conditionnement : 500g

Marque : US Biological



A1025 Agarose High Gel Temp

Grade
Molecular Biology Grade
Applications
DB
Shipping Temp
RT
Storage Temp
RT

High Gel Strength Agarose Combines very high gel strength with low EEO and is a good choice for high speed, high temperature pulsed field gel electrophoresis applications.

Applications:
• Pulsed Field Electrophoresis
• Immunoelectrophoresis
• Blotting Assays (Southern, northern)
• Analytical DNA Gels ≥ 1000bp
• Preparative Electrophoresis
• For use with all buffer systems

EEO:
≤0.14

Melting Point (1.5%):
85.5-88.5°C

Gel Point (1.5%):
39.5-42.5°C

Gel Strength (1.5%):
≥1200g/cm2

Clarity:
≤50 NTU

Sulfate:
≤0.2%

RNase:
None Detected

DNase:
None Detected

Quality Control:
Genetic tested for a wide array of molecular biology procedures ensuring high recovery of biologically active DNA, high cloning efficiency and consistent reproducibility.

Functional and Molecular Biology Testing: To Pass Test
• Comparative assay of different size DNA fragments
• Southern Blot (125-23,000bp)
• Background Fluorescence (TAE/TE, EtBr):
• DNA Binding (TAE, EtBr)
• Restriction Ligation Assay (Bam HI, Hinc II, EcoR I, Hind III, Pst I, and T4 DNA Ligase)

Recommended Usage (1X TAE):
Concentration Molecular Weight
0.4-2.0% 50-500kb

Storage and Stability:
Store powdered agarose at RT. Opened bottles should be capped tightly and kept in a low humidity environment. For greater separation capacity, keep the gel at 4°C for 1 hour before use.

Applications
Form: White, homogeeous free flowing powder||Important Note: This product as supplied is intended for research use only, not for use in human, therapeutic or diagnostic applications without the expressed written authorization of United States Biological.
Form
White, homogeeous free flowing powder
References
1. Ausubel, F.M., et al., Current Protocols in Molecular Biology, John Wiley (1992). 2. Maniatis, T., et al., Molecular Cloning: A Laboratory Manual, Cold Spring Harbor Laboratory Press (1989).