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ribosometargeting

Ribosome targeting is a field of study and pharmacological development focused on directly interacting with ribosomes to regulate protein synthesis. It includes natural and synthetic compounds that bind ribosomal RNA or ribosomal proteins and alter the initiation, elongation, termination, or fidelity of translation across cells. Ribosome-targeting agents may act on prokaryotic or eukaryotic ribosomes, and research spans antibiotics, cellular biology, and therapeutic development.

Ribosomes differ between bacteria and eukaryotes (70S vs 80S), enabling selective targeting in some contexts. Clinically,

In research and development, ribosome targeting is pursued to expand the toolkit for antimicrobial therapy and

Challenges include achieving selectivity and tolerable safety profiles, mitigating resistance through ribosomal mutations, and delivering compounds

many
ribosome-targeting
drugs
are
antibiotics
that
inhibit
bacterial
protein
synthesis.
Examples
include
aminoglycosides,
which
cause
misreading
of
mRNA;
tetracyclines,
which
block
tRNA
binding
to
the
A
site;
and
macrolides,
which
block
translocation.
Some
agents
affect
eukaryotic
ribosomes
as
well,
such
as
cycloheximide,
but
these
generally
have
limited
clinical
use
because
of
toxicity
and
are
primarily
used
as
research
tools.
to
explore
cancer
and
viral
disease
strategies.
Investigators
seek
selective
inhibitors
that
preferentially
affect
diseased
cells
or
exploit
differences
in
ribosome
biogenesis
and
translation—sometimes
described
in
terms
of
altered
ribosome
composition
(onco-ribosomes).
Other
work
aims
to
transiently
suppress
translation
to
block
viral
replication
or
modulate
expression
of
specific
proteins.
effectively.
Advances
in
structural
biology,
medicinal
chemistry,
and
screening
technologies
continue
to
guide
the
design
of
ribosome-targeting
agents
with
improved
specificity
and
pharmacological
properties.