Team:ETH Zurich/modeling/whole

From 2014.igem.org

(Difference between revisions)
(Chemical Species)
(Chemical Species)
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|Serine integrase that can fold into two conformations - ΦC31a and ΦC31b. We chose to use a common connotation for both conformations - ΦC31.
|Serine integrase that can fold into two conformations - ΦC31a and ΦC31b. We chose to use a common connotation for both conformations - ΦC31.
|-
|-
-
|Bxb1
+
|SI<sub>Bxb1</sub>
-
|Serine integrase that can fold into two conformations called Bxb1a and Bxb1b. Even if those conformations have the same sequence of amino acids, their tertiary structure is different. As it is experimentally difficult to differentiate these two conformations, we chose to to use a common notation for both conformations.
+
|Inactive DNA binding site for Bxb1. No dimer is bound to this site.
|-
|-
-
|ΦC31
+
|SA<sub>Bxb1</sub>
-
|Serine integrase that can fold into two conformations called ΦC31a and ΦC31b. Similarly to Bxb1, we chose to use a common notation for both conformations.
+
|Active DNA binding site. A dimer is bound to this site.
|-
|-
-
|DBxb1
+
|SF<sub>Bxb1</sub>
-
|Dimer of Bxb1. Bxb1a (respectively Bxb1b) forms a dimer DBxb1a (respectively DBxb1b). To be coherent, dimers are not differentiated depending on their spatial configuration.
+
|Flipped DNA binding site. The site generated after recombination by integrase.
|-
|-
-
|DΦC31
+
|SI<sub>ΦC31</sub>
-
|Dimer of ΦC31. ΦC31a (respectively ΦC31b) forms a dimer DΦC31a (respectively DΦC31b). The different spatial configuration are not taken into account.
+
|Inactive DNA binding site for ΦC31. No dimer is bound to this site.
 +
|-
 +
|SA<sub>ΦC31</sub>
 +
|Active DNA binding site. A dimer is bound to this site.
 +
|-
 +
|SF<sub>ΦC31</sub>
 +
|Flipped DNA binding site. The site generated after recombination by integrase.
|}
|}

Revision as of 14:58, 12 October 2014

iGEM ETH Zurich 2014