Difference between revisions of "N-Acetyl L-Tyrosine"

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[[File:NAY_trial_-3_6-6-2016.jpg|500px|thumb|left|Figure 1:  NAT oxidation in solution with dioxane and reacted with H2O2 and HRP 6/5/16.  This graph shows the dioxane in the solution inhibiting the reaction completely. ]]
 
[[File:NAY_trial_-3_6-6-2016.jpg|500px|thumb|left|Figure 1:  NAT oxidation in solution with dioxane and reacted with H2O2 and HRP 6/5/16.  This graph shows the dioxane in the solution inhibiting the reaction completely. ]]
  
[[file:NATw-oDioxane.jpg|500px|thumb|none|Figure 2:  2mM NAT oxidation without dioxane and reacted with 2mM H2O2 and HRP in a beaker 6/5/16]]
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[[file:NATw-oDioxane.jpg|500px|thumb|right|Figure 2:  2mM NAT oxidation without dioxane and reacted with 2mM H2O2 and HRP in a beaker 6/5/16]]
  
 
==Beaker Reaction vs. Immobilized Enzyme Bio-Reactor==
 
==Beaker Reaction vs. Immobilized Enzyme Bio-Reactor==

Revision as of 17:01, 29 June 2016

This page depicts the oxidation of N-Acetyl L-Tyrosine (NAT) by Horse Radish Peroxidase (HRP)

NAT

The Dioxane Conundrum

Figure 1: NAT oxidation in solution with dioxane and reacted with H2O2 and HRP 6/5/16. This graph shows the dioxane in the solution inhibiting the reaction completely.
Figure 2: 2mM NAT oxidation without dioxane and reacted with 2mM H2O2 and HRP in a beaker 6/5/16

Beaker Reaction vs. Immobilized Enzyme Bio-Reactor

Figure 2: 2mM NAT oxidation without dioxane and reacted with 2mM H2O2 and HRP in a beaker 6/5/16
Figure 3: 2mM NAT oxidation without dioxane and reacted with 1mM H2O2 using the Immobilized Enzyme technique 6/9/16
Figure 4: 2mM NAT oxidation without dioxane and reacted with 1mM H2O2 and 2mM H202 with immobilized HRP at 0.5ml/min and 1.0ml/min 6/9/16
Figure 5: 10mM NAT oxidized with 5, 10, and 20mM H2O2 with immobilized HRP at 0.5ml/min 6/23/16
Figure 6: Flash chromatography separation of Figure 5 6/28/16