Home

arabinosyltransferase

Arabinosyltransferase refers to enzymes that catalyze the transfer of arabinose residues from activated donors to acceptors, forming glycosidic bonds. These enzymes participate in the biosynthesis and modification of arabinose-containing structures such as polysaccharides, glycoproteins, and glycolipids in a range of organisms, including bacteria and plants. They are a subset of glycosyltransferases that assemble arabinan-containing polymers and modify cell wall components.

Donor substrates vary by organism; nucleotide-activated arabinose (such as UDP-arabinose) is common, while lipid-linked donors such

Clinical and organismal examples: In Mycobacterium tuberculosis, EmbA, EmbB and EmbC catalyze arabinan formation in the

Mechanistically, arabinosyltransferases are glycosyltransferases that can operate via retaining or inverting catalytic mechanisms. They range from

as
decaprenylphosphoryl-D-arabinose
are
used
by
mycobacteria.
Acceptors
include
arabinans,
arabinogalactans,
pectins,
xylans,
glycoproteins,
and
lipids.
The
resulting
products
contribute
to
cell
wall
architecture,
matrix
properties,
and
development.
cell
wall
arabinogalactan;
ethambutol
inhibits
this
pathway,
making
it
a
target
for
tuberculosis
therapy.
In
plants,
arabinosyltransferases
modify
cell
wall
polysaccharides
and
arabinose-containing
side
chains
on
proteins,
affecting
growth,
cell
wall
integrity
and
defense
responses.
soluble
to
membrane-associated
enzymes
and
are
distributed
across
several
glycosyltransferase
families.
Understanding
their
function
informs
both
antimicrobial
strategies
and
plant
bioengineering
efforts.