I think you make have confused the equilibrium constant and the rate constant. The rate constant is the expression of just the concentration of the reactants or products. It is a upper case "K" so it is in that case the equilibrium constant, not the rate constant.
Thank u sir Bt I have one confusion, since in both uncompetitive and noncompitative inbtn inhabitor binds to (ES) complex then why vmax and km both decreases in uncompetitive bt only vmax decreases in noncompitative......hope u got my point
Excellent. Can you give sources for: 1. Mixed inhibitor binds to both, active site and allosteric site (which you said in the video) 2. Noncompetitive inhibition is a subtype of mixed inhibition (also said in the video)
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I think you make have confused the equilibrium constant and the rate constant. The rate constant is the expression of just the concentration of the reactants or products. It is a upper case "K" so it is in that case the equilibrium constant, not the rate constant.
Great lesson! Thank you.
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Much of love thx sir
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thank you sir! really saved the day!! love you... hugs n kisses xoxoxox
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Thank u sir
Bt I have one confusion, since in both uncompetitive and noncompitative inbtn inhabitor binds to (ES) complex then why vmax and km both decreases in uncompetitive bt only vmax decreases in noncompitative......hope u got my point
Excellent. Can you give sources for:
1. Mixed inhibitor binds to both, active site and allosteric site (which you said in the video)
2. Noncompetitive inhibition is a subtype of mixed inhibition (also said in the video)
Elliot Natanov www.ncbi.nlm.nih.gov/books/NBK545242/
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Isn't Km>Kmapp the same as Kmapp
What's the difference between km and km apparent
Here it’s just a hypothetical term which denotes altered values of km... it’s simply like initial velocity vs final velocity
@@animatedbiologywitharpan u km apparent is the km which results due to inhibition
Sreeram Srinivasan yup