. Biophysical science. Biophysics. Figure 9. Noncompetitive inhibition of the hydrolysis of the normal substrate S by the inhibitor S'. The shapes chosen have no physical significance. greater than x', the concentration of S', the reaction must proceed as if S' were not there. Thus, no matter how large the value of x', by choosing a sufficiently large value of x it is possible to obtain the un- inhibited maximum velocity. Stoichiometrically, a competitively inhibited Michaelis-Menten reaction can be represented by e-p-p' x' *,' p' E +S'^±E-S' e-p-p' x Aj p E +S^±E-S E-SJ-E+ Products. Please no
. Biophysical science. Biophysics. Figure 9. Noncompetitive inhibition of the hydrolysis of the normal substrate S by the inhibitor S'. The shapes chosen have no physical significance. greater than x', the concentration of S', the reaction must proceed as if S' were not there. Thus, no matter how large the value of x', by choosing a sufficiently large value of x it is possible to obtain the un- inhibited maximum velocity. Stoichiometrically, a competitively inhibited Michaelis-Menten reaction can be represented by e-p-p' x' *,' p' E +S'^±E-S' e-p-p' x Aj p E +S^±E-S E-SJ-E+ Products. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Ackerman, Eugene, 1920-. Englewood Cliffs, N. J. , Prentice-Hall
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