Irreversible inhibitors: Difference between revisions

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&nbsp;An irreversible inhibitor will bind to an enzyme so that no other [[Enzyme-substrate_complex|enzyme-substrate complexes]] can form. It will bind to the [[Enzyme|enzyme ]]using a covalent bond at the active site which therefore makes the [[Enzyme|enzyme ]]denatured. An example of an irreversible inhibitor is ''diisopropyl fluorophosphate ''which is present in nerve gas. It binds to the [[Enzyme|enzyme]] and stops nerve impulses being transmitted. An example of where we use irreversible inhibitors in medicin is [[Penicillin|penicillin]]. Penicillin works by inhibiting the activity of the enzyme responsible for the creation of the bacterial [[Cell_wall|cell wall]]. This measn that once the cell goes to divide it dies and the bacteria is destroyed.&nbsp;<ref>Becker's World of the Cell, J.Hardin, G.Bertoni, L.J.Kleinsmith,8th edition, Pearson Benjamin Cummings, p 145</ref>
An irreversible inhibitor will bind to an enzyme so that no other [[Enzyme-substrate complex|enzyme-substrate complexes]] can form. It will bind to the [[Enzyme|enzyme using]] a covalent bond at the active site which therefore makes the [[Enzyme|enzyme denatured]]. An example of an irreversible inhibitor is ''diisopropyl fluorophosphate ''which is present in nerve gas. It binds to the [[Enzyme|enzyme]] and stops nerve impulses being transmitted. An example of where we use irreversible inhibitors in medicin is [[Penicillin|penicillin]]. Penicillin works by inhibiting the activity of the enzyme responsible for the creation of the bacterial [[Cell wall|cell wall]]. This measn that once the cell goes to divide it dies and the bacteria is destroyed.&nbsp;<ref>Becker's World of the Cell, J.Hardin, G.Bertoni, L.J.Kleinsmith,8th edition, Pearson Benjamin Cummings, p 145</ref><br>  


 
=== References ===
 
=== References ===


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Revision as of 23:44, 26 November 2014

An irreversible inhibitor will bind to an enzyme so that no other enzyme-substrate complexes can form. It will bind to the enzyme using a covalent bond at the active site which therefore makes the enzyme denatured. An example of an irreversible inhibitor is diisopropyl fluorophosphate which is present in nerve gas. It binds to the enzyme and stops nerve impulses being transmitted. An example of where we use irreversible inhibitors in medicin is penicillin. Penicillin works by inhibiting the activity of the enzyme responsible for the creation of the bacterial cell wall. This measn that once the cell goes to divide it dies and the bacteria is destroyed. [1]

References

  1. Becker's World of the Cell, J.Hardin, G.Bertoni, L.J.Kleinsmith,8th edition, Pearson Benjamin Cummings, p 145
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