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From 2011.igem.org

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(Created page with "</html> <html> Day 9 Entry (14th/July/2011)<br> <br> Morning:-<br> <br> - more brainstrorming<br> <br> - came up with the following 9 ideas:<br> Chris - Termites : turning cell...")
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Day 9 Entry (14th/July/2011)<br>
Day 9 Entry (14th/July/2011)<br>
<br>
<br>
-
Morning:-<br>
+
'''Morning:-'''<br>
<br>
<br>
- more brainstrorming<br>  
- more brainstrorming<br>  
<br>
<br>
- came up with the following 9 ideas:<br>
- came up with the following 9 ideas:<br>
-
Chris - Termites : turning cellulose into sugar<br>
+
<br>
-
Frank - Auxin secretion bacteria<br>
+
<p>Chris - Termites : turning cellulose into sugar<br>
-
Si - dodecane into primary alcohol<br>
+
<p>Frank - Auxin secretion bacteria<br>
-
Nick - photosynthesis bacteria and ATP production<br>
+
<p>Si - dodecane into primary alcohol<br>
-
Ming - PHA into PAH<br>
+
<p>Nick - photosynthesis bacteria and ATP production<br>
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Rebekka - treatment of estrogen in the waste water<br>
+
<p>Ming - PHA into PAH<br>
-
Nikki - nematodes<br>
+
<p>Rebekka - treatment of estrogen in the waste water<br>
-
Nina & Yuanwei - cellulose breakdown library with the enzyme from rabbit cecum<br>
+
<p>Nikki - nematodes<br>
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                  Hamiltonian path problem and network alignment<br>
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<p>Nina & Yuanwei - cellulose breakdown library with the enzyme from rabbit cecum<br>
 +
<p><p><p>Hamiltonian path problem and network alignment<br>
<br>
<br>
- finally, Nina and Yuanwei's ideas were shut down since:<br>
- finally, Nina and Yuanwei's ideas were shut down since:<br>
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  2. The Hamiltonian path and DNA comnputing idea is definitely worth thinking to solve the protein-protein interaction problem, but it is too unrealistic for us.<br>
  2. The Hamiltonian path and DNA comnputing idea is definitely worth thinking to solve the protein-protein interaction problem, but it is too unrealistic for us.<br>
<br>
<br>
-
Afternoon:-<br>
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'''Afternoon:-'''<br>
- presentation !<br>
- presentation !<br>
<p>Smooth and generally satisfying<br>
<p>Smooth and generally satisfying<br>
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<br>
<br>
-presentation key points:<br>
-presentation key points:<br>
-
  1. Title
+
  1. Title<br>
-
  2. Problem: background introduction
+
  2. Problem: background introduction<br>
-
  3. Project description
+
  3. Project description<br>
-
  4. Previous iGem projects
+
  4. Previous iGem projects<br>
-
  5. Genetic circuits
+
  5. Genetic circuits<br>
-
  6. Modelling
+
  6. Modelling<br>
-
  7. Experiments
+
  7. Experiments<br>
-
  8. Human practice
+
  8. Human practice<br>
-
  9. Safety , security and ethics
+
  9. Safety , security and ethics<br>

Revision as of 11:14, 15 July 2011

Day 9 Entry (14th/July/2011)

'''Morning:-'''

- more brainstrorming

- came up with the following 9 ideas:

Chris - Termites : turning cellulose into sugar

Frank - Auxin secretion bacteria

Si - dodecane into primary alcohol

Nick - photosynthesis bacteria and ATP production

Ming - PHA into PAH

Rebekka - treatment of estrogen in the waste water

Nikki - nematodes

Nina & Yuanwei - cellulose breakdown library with the enzyme from rabbit cecum

Hamiltonian path problem and network alignment

- finally, Nina and Yuanwei's ideas were shut down since:
1. The cellulose breakdown idea is the same as the termites one.
2. The Hamiltonian path and DNA comnputing idea is definitely worth thinking to solve the protein-protein interaction problem, but it is too unrealistic for us.

'''Afternoon:-'''
- presentation !

Smooth and generally satisfying

- two ideas survived out of seven:

Termites group: Chris, Rebekka, Si, Yuanwei and Nick

Auxin group: Frank, Ming, Nikki and Nina

-drink at union bar:

Who is the next model for Ming ? Frank ?

Goat and dude - naughty :]

Yuanwei - we will get you drunk next time

Evening:-
-dinner at Oriental Canteen

-all of us went to the common room in James' hall to prepare for the presentation tomorrow

-presentation key points:
1. Title
2. Problem: background introduction
3. Project description
4. Previous iGem projects
5. Genetic circuits
6. Modelling
7. Experiments
8. Human practice
9. Safety , security and ethics

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