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phosphoglycans

Phosphoglycans are a class of glycoconjugates in which carbohydrate chains include covalently bound phosphate groups as part of the polymer, typically forming phosphodiester linkages between sugar residues. This phosphate-containing geometry distinguishes phosphoglycans from other glycans whose linkages are solely glycosidic. The presence of phosphate confers negative charge to the molecule and can influence hydration, conformation, and interactions with proteins.

Structurally, phosphoglycans may consist of repeating sugar units or more complex branched architectures. In some cases,

Occurrence and function vary by organism. In parasites, phosphoglycans are implicated in surface protection, adhesion, immune

the
glycan
chain
is
attached
to
a
lipid
or
protein
anchor,
forming
lipophosphoglycans
or
proteophosphoglycans,
respectively.
A
prominent
example
occurs
in
certain
kinetoplastid
parasites,
such
as
Leishmania
and
Trypanosoma,
where
lipophosphoglycan
(LPG)
and
related
phosphoglycans
populate
the
cell
surface.
These
molecules
often
feature
phosphoglycan
repeating
units
linked
to
a
GPI
anchor
or
to
a
protein
core,
and
they
can
vary
with
life
stage
or
species.
evasion,
and
interaction
with
host
tissues.
In
bacteria
and
plants,
phosphorylated
polysaccharides
can
contribute
to
capsule
structure,
surface
charge,
and
interactions
with
the
environment.
The
biosynthesis
of
phosphoglycans
involves
specialized
enzymes
that
form
phosphodiester
bonds
and
incorporate
sugar
residues,
while
degradation
requires
phosphodiesterases
and
glycosidases.
Analytical
characterization
typically
employs
nuclear
magnetic
resonance,
mass
spectrometry,
and
phosphate-detection
methods
to
determine
linkage
types,
repeating-unit
composition,
and
the
extent
of
phosphorylation.