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lytA

LytA is the major autolysin of Streptococcus pneumoniae, encoded by the lytA gene. It is a surface-associated enzyme that mediates autolysis by cleaving the peptidoglycan layer of the bacterial cell wall. The enzyme is organized with an N-terminal catalytic domain and a C-terminal choline-binding domain that binds to phosphorylcholine residues in teichoic acids, anchoring the protein to the cell wall and targeting it to its substrate.

The catalytic activity of LytA is broadly described as an N-acetylmuramoyl-L-alanine amidase, which cleaves the amide

Biological and clinical significance of LytA includes its contribution to virulence and biofilm dynamics through the

See also: autolysin, Streptococcus pneumoniae.

bond
within
the
peptidoglycan
backbone.
This
enzymatic
action
weakens
the
cell
wall,
and
when
activated,
leads
to
cell
lysis
and
the
release
of
intracellular
contents.
LytA
activity
is
tightly
regulated
and
typically
associated
with
specific
growth
phases
and
environmental
cues.
It
is
more
active
during
late
exponential
or
stationary
phase
and
can
be
stimulated
by
cellular
stress
or
antibiotics
that
perturb
cell
wall
synthesis,
such
as
beta-lactams,
which
promote
autolysis.
release
of
pneumolysin
and
other
cytoplasmic
components
following
autolysis.
The
enzyme
also
influences
horizontal
gene
transfer
and
DNA
release
in
pneumococcal
populations.
LytA
serves
as
a
model
for
studying
bacterial
autolysis
and
its
role
in
pathogenesis
and
host–pathogen
interactions.