Revision as of 19:27, 16 October 2016

Wichtiger Kommentar: Polymerization wird Proof-of-Principle page.

Introduction to polymerization

Design: Why we chose the Avidin & Biotin affinity pair

Vergleich mit anderen Polymerisationsmöglichkeiten die wir diskutiert hatten
Tabelle mit Literaturwerten zu Assoziationsraten

Properties of membrane proteins
Affinity pair	Kind of interaction	Dissociation constant	Association rate	Comment
Avidin - Biotin	non covalent	10^-15M ^[1]	55 440
SpyCatcher - SpyTag	covalent	not applicable
StrepTactin - Strep-tag II

Multivalency and avidity as major principles for polymerization

Sturkturmodeling

Different polymers possible with biotINK polymerization

Mesh-Bilder von Luisa

Results: Polymerizationexperiments

References

↑ Green, N. M. (1963). Avidin. 1. The use of [14C] biotin for kinetic studies and for assay. Biochemical Journal, 89(3), 585.

[1] Green, N. M. (1963). Avidin. 1. The use of [14C] biotin for kinetic studies and for assay. Biochemical Journal, 89(3), 585.

[1]

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-<html>
+[[File:Muc16_Sticker_Polymerization_001.png |right|400px]]
+Wichtiger Kommentar: Polymerization wird Proof-of-Principle page.
+=Introduction to polymerization=
+=Design: Why we chose the Avidin & Biotin affinity pair=
+*Vergleich mit anderen Polymerisationsmöglichkeiten die wir diskutiert hatten
+* Tabelle mit Literaturwerten zu Assoziationsraten
+{|
+|+ Properties of membrane proteins
+|-
+|Affinity pair
+|Kind of interaction
+|Dissociation constant
+|Association rate
+|Comment
+|-
+|Avidin - Biotin
+|non covalent
+|10<sup>-15</sup>M <ref>Green, N. M. (1963). Avidin. 1. The use of [14C] biotin for kinetic studies and for assay. Biochemical Journal, 89(3), 585.</ref>
+|55 440
+|
+|-
+|SpyCatcher - SpyTag
+|covalent
+|not applicable
+|
+|
+|-
+|''Strep''Tactin - ''Strep''-tag II
+|
+|
+|
+|
+|}
+=Multivalency and avidity as major principles for polymerization=
+*Sturkturmodeling
+[[File:Muc16-eGFP-annimatedGIF.gif]]
+[[File:Muc16-BSA-annimatedGIF.gif]]
+=Different polymers possible with biotINK polymerization=
+* Mesh-Bilder von Luisa
+=Results: Polymerizationexperiments=
-<div class="column full_size">
-<p>
+=References=
-iGEM teams are great at making things work! We value teams not only doing an incredible job with theoretical models and experiments, but also in taking the first steps to make their project real.
+<references />
-</p>
-<h4> What should we do for our proof of concept? </h4>
-<p>
-You can assemble a device from BioBricks and show it works. You could build some equipment if you're competing for the hardware award. You can create a working model of your software for the software award. Please note that this not an exhaustive list of activities you can do to fulfill the gold medal criterion. As always, your aim is to impress the judges!
-</p>
-</div>
-</div>
-</html>
 {{LMU-TUM_Munich_html_end}}

Difference between revisions of "Team:LMU-TUM Munich/Proof"

Revision as of 19:27, 16 October 2016

Contents

Introduction to polymerization

Design: Why we chose the Avidin & Biotin affinity pair

Multivalency and avidity as major principles for polymerization

Different polymers possible with biotINK polymerization

Results: Polymerizationexperiments

References