Allosteric Enzymes Flashcards
Sequential rxns are characterized by formation of a
ternary complex, consisting of the two substrates and the enzyme
- May be ordered or random in terms of how substrates bind
Double displacement (ping pong rxn) are characterized by the formation of a
substituted enzyme intermediate
- One or more of the products are released before all substrates bind the enzyme
What are allosteric enzymes?
Enzymes that regulate the flux of biochemicals through metabolic pathways
- Catalyze the committed steps of metabolic pathways
Feedback inhibition
The inhibitor binds the regulatory site on the enzyme, which inhibits activity
- Example: excess F can bind to regulatory site of e1 away from active site and inhibit its activity
How do metabolic pathways communicate?
Allosteric enzymes can recognize both stimulatory and inhibitory molecules
How are metabolic pathways coordinated to make the right amount?
F and I can act as stimulators or inhibitors to ensure enough F or I to make K
Allosteric enzymes are regulated by the endproducts of their pathways via stim or inhib
Concerted Model for Allosteric Enzymes
- Multiple active sites on different polypeptide chains
- Relaxed form (R) catalyzes rxns
- Tense form (T) is less active but more stable and more common
- R and T are in equil
- The allosteric constant = T/R = L0 is typically in the hundreds
- Symmetry rule says all active sites must be in same state
- Substrate will bind more readily to R form
How does the concerted model actually work?
- Thermal jostling will randomly convert T to R form and that will push equil to R side = more R form
- As [S] increases, it binds an active site on R, trapping all other active sites in R state (sym rule)
- As more active sites are in R form, it is easier for the substrate to bind to R state
- The binding of S to R becomes even easier as more active sites are in R form
In the concerted model, the binding of the substrate
disrupts the T/R equil in favour of R
This behaviour is called cooperativity
