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2. Eadie–Hofstee diagram - Wikipedia

   en.wikipedia.org/wiki/Eadie–Hofstee_diagram

   The plot is occasionally attributed to Augustinsson [5] and referred to the Woolf–Augustinsson–Hofstee plot [6] [7] [8] or simply the Augustinsson plot. [9] However, although Haldane, Woolf or Eadie were not explicitly cited when Augustinsson introduced the versus / equation, both the work of Haldane [10] and of Eadie [3] are cited at other places of his work and are listed in his ...

3. Lineweaver–Burk plot - Wikipedia

   en.wikipedia.org/wiki/Lineweaver–Burk_plot

   The Lineweaver–Burk plot derives from a transformation of the Michaelis–Menten equation, = + in which the rate is a function of the substrate concentration and two parameters , the limiting rate, and , the Michaelis constant.

4. Direct linear plot - Wikipedia

   en.wikipedia.org/wiki/Direct_linear_plot

   The best known plots of the Michaelis–Menten equation, including the double-reciprocal plot of / against /, [2] the Hanes plot of / against , [3] and the Eadie–Hofstee plot [4] [5] of against / are all plots in observation space, with each observation represented by a point, and the parameters determined from the slope and intercepts of the lines that result.

5. Secondary plot (kinetics) - Wikipedia

   en.wikipedia.org/wiki/Secondary_plot_(kinetics)

   In enzyme kinetics, a secondary plot uses the intercept or slope from several Lineweaver–Burk plots to find additional kinetic constants. [1] [2]For example, when a set of v by [S] curves from an enzyme with a ping–pong mechanism (varying substrate A, fixed substrate B) are plotted in a Lineweaver–Burk plot, a set of parallel lines will be produced.

6. Enzyme kinetics - Wikipedia

   en.wikipedia.org/wiki/Enzyme_kinetics

   As shown on the right, enzymes with a substituted-enzyme mechanism can exist in two states, E and a chemically modified form of the enzyme E*; this modified enzyme is known as an intermediate. In such mechanisms, substrate A binds, changes the enzyme to E* by, for example, transferring a chemical group to the active site, and is then released.

7. File:Q10 graph c.svg - Wikipedia

   en.wikipedia.org/wiki/File:Q10_graph_c.svg

   English: Enzymes achieve an optimal rate of reaction at an intermediate temperature since increasing temperature increases activity (Q10 coefficient), but above a certain temperature they unfold (denaturation).

8. Uncompetitive inhibition - Wikipedia

   en.wikipedia.org/wiki/Uncompetitive_inhibition

   This presence of uncompetitive enzymes in membranes has also been supported in a number of other studies. For example, in studies of the protein ADP ribosylation factor , which is involved in regulating membrane activity, it was found that brefeldin A , a lactone antiviral trapped one of the protein's intermediates via uncompetitive inhibition.

9. Active site - Wikipedia

   en.wikipedia.org/wiki/Active_site

   Organisation of enzyme structure and lysozyme example. Binding sites in blue, catalytic site in red and peptidoglycan substrate in black. (In biology and biochemistry, the active site is the region of an enzyme where substrate molecules bind and undergo a chemical reaction.