Team:Oxford/alternatives to microcompartments
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Thus, the smaller the distance of separation, the higher we expect the rate of reaction to be. However, we must note that this model does not take into consideration stearic hindrances and instabilities that set in when the peptide is made too small. Furthermore, the model is only valid for a minimum radius which is defined as the sum of the two enzyme radii. | Thus, the smaller the distance of separation, the higher we expect the rate of reaction to be. However, we must note that this model does not take into consideration stearic hindrances and instabilities that set in when the peptide is made too small. Furthermore, the model is only valid for a minimum radius which is defined as the sum of the two enzyme radii. | ||
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<img src="https://static.igem.org/mediawiki/2014/e/ea/Oxford_Leroy_pic9.png" style="float:right;position:relative; width:100%;margin-left:0%;margin-right:0%;" /> | <img src="https://static.igem.org/mediawiki/2014/e/ea/Oxford_Leroy_pic9.png" style="float:right;position:relative; width:100%;margin-left:0%;margin-right:0%;" /> | ||
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<h1>The normalized rate against star protein length results yielded by the model imply that reaction rate is proportional to peptide length^-4.</h1> | <h1>The normalized rate against star protein length results yielded by the model imply that reaction rate is proportional to peptide length^-4.</h1> | ||
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Revision as of 15:29, 19 September 2014
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