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Introduction
Agarose gel electrophoresis remains the most widely used technique for separating nucleic acid fragments due to its ease of use, non-toxicity, and broad separation range. By varying agarose concentration, gel pore size can be controlled to separate nucleic acid molecules in a wide range of sizes. The migration of nucleic acids in agarose gels is affected by the choice of buffer and applied voltage. Invitrogen offers a range of UltraPure™ agarose products to meet your nucleic acid electrophoresis needs. As with all Invitrogen UltraPure™ reagents, these products are made from the highest purity biochemicals for maximum reliability and superior performance. In addition, every lot is tested to ensure that each UltraPure™ agarose product:
Agarose 1000 is a specialized agarose that exhibits the following properties:
Agarose gel electrophoresis remains the most widely used technique for separating nucleic acid fragments due to its ease of use, non-toxicity, and broad separation range. By varying agarose concentration, gel pore size can be controlled to separate nucleic acid molecules in a wide range of sizes. The migration of nucleic acids in agarose gels is affected by the choice of buffer and applied voltage. Invitrogen offers a range of UltraPure™ agarose products to meet your nucleic acid electrophoresis needs. As with all Invitrogen UltraPure™ reagents, these products are made from the highest purity biochemicals for maximum reliability and superior performance. In addition, every lot is tested to ensure that each UltraPure™ agarose product:
- Forms a homogenous, clear gel and separates the nucleic acid fragments into distinct bands
- Has very low electroendosmosis to minimize internal convection and band spreading during electrophoresis, allowing for sharp band resolution
- Has no detectable DNase or RNase activity
Agarose 1000 is a specialized agarose that exhibits the following properties:
- high resolution of PCR products and other short DNA fragments
- better handling because of a stronger gel structure
- improved clarity of the gel, enhancing visibility
- excellent mechanical strength
| Specifications: | 1.5% Conc. | 3% Conc. |
|---|---|---|
| Gel Strength | > | > 1500 g/cm² |
| Gel Point | < 30°C | < 35°C |
| Melting Point | < 70°C | < 75°C |
| Electroendosmosis (1) | < 0.12 | |
| Moisture | < 7.0% | |
| Ash | < 0.35% | |
| Sulfate | < 0.11% | |
| DNase, RNase | None detected | |
| DNA bending | Low | |
| (1) Wieme method, pH 8.4 |
NOTE: Chill Agarose 1000 gels for 30 minutes at 4°C before use to achieve best resolution.
Method 1: Microwave (recommended for < 3% concentrations)
Method 1: Microwave (recommended for < 3% concentrations)
- Into a flask holding 2-4 times the desired solution volume, add a magnetic stir bar and the calculated volume of buffer at room temperature.
- Put the flask on a magnetic stirrer and slowly sprinkle the calculated amount of agarose powder into the flask while stirring constantly to prevent the formation of agarose clumps.
- Remove the stir bar
- Weigh the flask and solution before heating.
- Place in the microwave oven and heat on high power for two minutes.
- Remove carefully as any microwaved solution may become superheated and foam over when agitated. Gently swirl to resuspend any agarose particles.
- Reheat on high power using 15-20 second intervals or until the solution comes to a boil, and solution is complete.
- Remove carefully and gently swirl.
- Return the flask to its original weight by adding warm distilled water.
- Mix gently and cool to 50-60°C (at room temperature for at least 20 minutes) before pouring the solution into the tray.
- During the cooling time any air bubbles will disappear.
Method 2: Boiling water bath (recommended for all concentrations, especially 4%-5%)
- Into a flask holding 2-4 times the desired solution volume, add a magnetic stir bar and the calculated volume of buffer at room temperature.
- Put the flask on a magnetic stirrer and slowly sprinkle the calculated amount of agarose powder while stirring constantly to prevent the formation of agarose clumps.
- Weigh the flask and solution before heating.
- Bring the solution to a boil while stirring and allow to gently boil for approximately 15-20 minutes or until the agarose dissolves completely.
- Return the flask to its original weight by adding warm distilled water.
- Mix gently and cool to 50-60°C (at room temperature for at least 20 minutes) before pouring the solution into the tray.
- During the cooling time any air bubbles will disappear.
Method 3: Autoclave (recommended for all concentrations, especially > 5%)
- Into a flask holding 2-4 times the desired solution volume, add a magnetic stir bar and calculated amount of buffer at room temperature.
- Put the flask on a magnetic stirrer and slowly sprinkle the calculated amount of agarose powder into the flask while stirring constantly to prevent the formation of agarose clumps.
- Heat two minutes in the microwave oven at medium power.
- Cover the opening of the flask with an aluminum foil to prevent spillover and autoclave at 121°C for 15 minutes.
- Remove from the autoclave and allow to cool to 50-60°C before pouring the solution into the tray.
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