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polyserine

Polyserine refers to a polymer consisting entirely of serine amino acids joined by peptide bonds, i.e., a serine homopolymer. In biology, polyserine tracts appear as low–complexity regions within proteins and can vary in length between species and individuals. These repeats are commonly found in intrinsically disordered regions and often contribute to flexible linkers or spacers that connect functional domains.

Physically, polyserine is highly hydrophilic due to the hydroxyl side chain of each serine residue, which promotes

Synthesis and study of polyserine can be achieved through chemical peptide synthesis or recombinant expression of

Functional roles attributed to polyserine in natural proteins include serving as flexible spacers, modulating protein-protein interactions,

extensive
interactions
with
water.
A
long
polyserine
chain
in
aqueous
solution
is
expected
to
be
mostly
unstructured,
with
limited
propensity
to
form
well-defined,
stable
secondary
structures.
The
serine
side
chains
also
serve
as
potential
sites
for
post-translational
modification,
particularly
phosphorylation,
which
can
regulate
interactions,
localization,
or
activity
of
the
parent
protein
when
such
repeats
are
present
in
vivo.
serine-rich
sequences.
Repetitive
sequences
can
pose
technical
challenges
for
cloning
and
expression
due
to
genetic
instability,
but
polyserine-containing
polypeptides
are
useful
as
model
systems
for
examining
the
behavior
of
intrinsically
disordered
regions
and
the
effects
of
serine-rich
content
on
solubility
and
dynamics.
or
influencing
the
regulation
of
neighboring
domains
via
phosphorylation
states.
Polyserine
is
related
to
the
broader
concept
of
low-complexity
regions
and
intrinsically
disordered
domains
that
contribute
to
protein
versatility
and
regulation.