Home

ribozimi

Ribozimi, known in English as ribozymes, are RNA molecules that possess catalytic activity. Unlike most enzymes, which are proteins, ribozymes can accelerate chemical reactions such as RNA cleavage and ligation. They achieve catalysis by folding into specific three‑dimensional shapes that form an active site, often relying on metal ions like magnesium to assist catalysis. The ribosome, the cellular machine that builds proteins, is the largest known ribozyme, catalyzing peptide bond formation within its peptidyl transferase center.

The concept of RNA as an enzyme emerged from the discovery of self-splicing ribozymes in the early

Ribozymes can act in cis, where an RNA molecule catalyzes a reaction on itself, or in trans,

Significance and applications: ribozymes provide evidence for the RNA world hypothesis, suggesting RNA could store information

1980s,
notably
in
the
Tetrahymena
group
I
intron.
This
work
demonstrated
that
RNA
alone
could
catalyze
a
biological
reaction,
contributing
to
the
1989
Nobel
Prize
in
Chemistry
awarded
to
Thomas
Cech
and
Sidney
Altman
for
their
discoveries
concerning
catalytic
properties
of
RNA.
where
a
separate
RNA
substrate
participates
in
the
reaction.
Catalytic
strategies
include
acid-base
chemistry
and
metal-ion
catalysis,
with
Mg2+
playing
a
common
role.
Notable
examples
include
self-splicing
introns
(group
I
and
II),
hammerhead
and
hairpin
ribozymes,
and
the
glmS
ribozyme,
which
functions
as
a
metabolite‑activated
ribozyme
using
glucosamine-6-phosphate
as
a
cofactor.
and
catalyze
reactions
in
early
life.
In
modern
biology,
they
serve
as
tools
for
RNA
cleavage
and
ligation
in
research,
and
have
potential
in
biotechnology
and
therapeutic
development,
though
challenges
remain
in
stability,
delivery,
and
specificity.