Michaelis constant: Difference between revisions
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K<sub>m</sub> = Michaelis constant | K<sub>m</sub> = Michaelis constant<ref>Lakey, J. 2012. BGM 1002 Enzymes: Lecture 6,7&8. [lecture]. October 15. Newcastle: DSLT</ref> | ||
K<sub>m</sub> = the value of [S] that causes V= ½ V<sub>max</sub> * | K<sub>m</sub> = the value of [S] that causes V= ½ V<sub>max</sub> * | ||
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velocity is related to K<sub>m </sub>through the Michaelis & Menten equation: v = (V<sub>max</sub> [S])/(K<sub>m</sub> + [S])<br> | velocity is related to K<sub>m </sub>through the Michaelis & Menten equation: v = (V<sub>max</sub> [S])/(K<sub>m</sub> + [S])<br> | ||
*V<sub>max</sub> = maximum rate of reaction achievable for the enzyme under given conditions, only occurs at infinite substrate concentration | *V<sub>max</sub> = maximum rate of reaction achievable for the enzyme under given conditions, only occurs at infinite substrate concentration | ||
[S] = substrate concentration | [S] = substrate concentration | ||
=== References:<references /> === | |||
Revision as of 11:33, 30 November 2012
Km = Michaelis constant[1]
Km = the value of [S] that causes V= ½ Vmax *
The units of Km are M, concentration
Km indicates the affinity of the enzyme for it's substrate and thus the stability of the Enzyme-Substrate Complex.
High Km demonstrates a low affinity; Low Km demonstrates a high affinity.
velocity is related to Km through the Michaelis & Menten equation: v = (Vmax [S])/(Km + [S])
- Vmax = maximum rate of reaction achievable for the enzyme under given conditions, only occurs at infinite substrate concentration
[S] = substrate concentration
References:
- ↑ Lakey, J. 2012. BGM 1002 Enzymes: Lecture 6,7&8. [lecture]. October 15. Newcastle: DSLT
- ↑ Lakey, J. 2012. BGM 1002 Enzymes: Lecture 6,7&8. [lecture]. October 15. Newcastle: DSLT