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enzymatik

Enzymatik refers to the study and application of enzyme-driven catalysis. Enzymes are biological catalysts that accelerate chemical reactions under mild conditions in living organisms. Most enzymes are proteins, although RNA molecules can also function as catalysts. Enzymes are highly specific for their substrates and have optimal temperatures and pH values.

They operate by lowering activation energy, often binding substrates at an active site through induced fit

Enzymes are classified into six main classes: oxidoreductases, transferases, hydrolases, lyases, isomerases, and ligases. Regulation occurs

Applications span industry and medicine. Enzymes serve as biocatalysts with high selectivity: amylases in starch processing,

History notes: The concept of enzymes emerged in the 19th century; Eduard Buchner demonstrated fermentation could

or
a
lock-and-key
mechanism.
Michaelis-Menten
kinetics
describe
their
rates,
with
parameters
such
as
Km
and
Vmax.
Enzyme
activity
is
modulated
by
inhibitors,
activators,
cofactors,
and
post-translational
modifications.
through
allosteric
control,
covalent
modification,
and
changes
in
gene
expression.
proteases
in
detergents,
lactases
for
lactose
hydrolysis,
and
catalases
for
hydrogen
peroxide
breakdown.
They
can
be
produced
recombinantly,
engineered
for
stability,
or
immobilized
for
reuse.
occur
without
living
cells,
establishing
enzymes
as
biological
catalysts.
The
field
of
enzymology
now
covers
structural
studies,
kinetics,
and
diverse
biotechnological
applications.