The document summarizes various mechanisms by which enzymes catalyze biochemical reactions. It discusses how enzymes lower the activation energy of reactions by providing alternative transition states through covalent catalysis, acid-base catalysis, catalysis by bond strain, and catalysis by proximity and orientation of substrates. It also explains how enzymes remain unchanged after reactions and greatly increase reaction rates by enhancing the formation of products from substrates.
Report
Share
Report
Share
1 of 30
More Related Content
Mechanism of action of enzymes- By Hurnaum Karishma (Student SSR Medical College)
3. • Introduction of enzymes
• Active site
• Thermodynamic changes
• Covalent catalysis
• Acid base catalysis
• Catalysis by bond strain
• Catalysis by proximity and orientation
4. • Biological catalysts
• Neither consumed nor permanently altered
• All enzymes are proteins in nature except ribozymes
which are RNA in nature
• Highly efficient
• Act as selective catalysts
5. Site where actual
reaction occurs
Substrate –bound by
weak interaction
Specificity of enzyme
depend on arrangement
of atoms in active site
6. The catalytic efficiency of enzyme is explained by
2 perspectives:
•Thermodynamic
1 changes
•Processes at the active
2 site
8. Substrate products
• acquire a transitional state.
• The difference in energy level of
transitional state and substrate is called
activational barrier.
11. Only a few substrate can cross this barrier to
be converted to products.
That is why rate of uncatalysed reaction is
much slow.
When enzyme is present it provides an
alternative pathway for conversion of substrate
into products.
12. Enzymes accelerate reaction rate by
providing transition states with low
activational energy for formation of
products
Hence reaction rate is enhanced by many
folds in the presence of enzymes
The total energy of the system remains the
same and equilibrium state is not disturbed
15. Processes at active site
Covalent catalysis
Acid base catalysis
Catalysis by bond
strain
Catalysis by
proximity &
orientation
16. • Enzyme form covalent linkages with substrate
forming transient enz-subs complex with very
low activational barrier.
• Enzyme is then released unchanged and
unconsumed and substrate is converted into
products.
18. • This process is mostly undertaken by transferases and
hydrolases.
• The hydrolytic enzyme especially proteolytic enzyme
works in this manner for cleavage of peptide bonds in
proteins.
• Proteolytic enzymes mostly have serine at their active
site so OH goup of serine makes a transient complex
with COOH group of peptide bond with subsequent
cleavage by water.
20. • Mostly undertaken by oxido-reductases.
• Mostly at the active site, either histidine is present
which act both as a proton donor and a proton
acceptor.
• Sometimes aspartic acid, glutamic acid and
cysteine residues are also present which
participate in Hydrogen transfer reaction.
23. • Mostly undertaken by lyases.
• The enz-subs binding causes reorientation of the structure of
substrate in the site due to being in a strain condition.
• Thus transitional state is readily acquired and enzyme
maintains that transitional state where the bond is in the
unfavourable state and is eventually broken.
• So enzyme induces a strain in the bond which is required to be
broken.
25. • This mechanism is mostly undertaken by ligases.
• The rate of reaction is ↑ by bringing substrate closer to each
other at the a.site.
• A region of high substrate conc is produced at the a.site.
• The substrate molecule is placed at bond forming
distances.
27. • Since substrate is placed at optimal
distances.
• The probability of collision ↑ and
substrate is eventually converted into
products.
• This mechanism involve the condensation of
substrate molecule.
29. • Class notes
• Biochemistry for medics
• Internet
• Harper’s