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Team:MIT/MaterialsAndMethods
From 2012.igem.org
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<LI>5. Wait until the block cools. It will probably not reach RT, but will be at around 30C after a few hours. Turn the block off completely and wait for a bit (1h).</LI> | <LI>5. Wait until the block cools. It will probably not reach RT, but will be at around 30C after a few hours. Turn the block off completely and wait for a bit (1h).</LI> | ||
</OL> | </OL> | ||
| - | *Adapted from Qian L, Winfree E. <i> Scaling up digital circuit computation with DNA displacement cascades </i>, Science. 2011 Jun 3;332(6034):1196-201. | + | |
| + | *Adapted from Qian L, Winfree E. <i> Scaling up digital circuit computation with DNA displacement cascades. </i>, Science. 2011 Jun 3;332(6034):1196-201. | ||
Revision as of 23:20, 9 September 2012
Gate Anneals
Room Temperature Annealing
- Mix gate and output in a 1.2:1 ratio in a tube.
- Cover the tube in foil, if you didn't use an opaque/black tube.
- Leave the tube on a bench top overnight.
Room Temperature Annealing
- Preheat the heat block to 95C, add water to the well you will be using.
- Put a piece of styrofoam (covered with foil) on the heat block. Make sure the temperature is still at 95C, and doesn't jump
- Mix gate and output in a 1.2:1 ratio in a tube, put it in the heat block.
- Cover again with the styrofoam, set the heat block to RT.
- 5. Wait until the block cools. It will probably not reach RT, but will be at around 30C after a few hours. Turn the block off completely and wait for a bit (1h).
*Adapted from Qian L, Winfree E. Scaling up digital circuit computation with DNA displacement cascades. , Science. 2011 Jun 3;332(6034):1196-201.
- Mix gate and output in a 1.2:1 ratio in a tube.
- Cover the tube in foil, if you didn't use an opaque/black tube.
- Leave the tube on a bench top overnight.
Room Temperature Annealing
- Preheat the heat block to 95C, add water to the well you will be using.
- Put a piece of styrofoam (covered with foil) on the heat block. Make sure the temperature is still at 95C, and doesn't jump
- Mix gate and output in a 1.2:1 ratio in a tube, put it in the heat block.
- Cover again with the styrofoam, set the heat block to RT.
- 5. Wait until the block cools. It will probably not reach RT, but will be at around 30C after a few hours. Turn the block off completely and wait for a bit (1h).
*Adapted from Qian L, Winfree E. Scaling up digital circuit computation with DNA displacement cascades. , Science. 2011 Jun 3;332(6034):1196-201.
- Preheat the heat block to 95C, add water to the well you will be using.
- Put a piece of styrofoam (covered with foil) on the heat block. Make sure the temperature is still at 95C, and doesn't jump
- Mix gate and output in a 1.2:1 ratio in a tube, put it in the heat block.
- Cover again with the styrofoam, set the heat block to RT.
- 5. Wait until the block cools. It will probably not reach RT, but will be at around 30C after a few hours. Turn the block off completely and wait for a bit (1h).
