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crossphosphorylation

Crossphosphorylation is a term used to describe phosphorylation events in which a protein kinase transfers a phosphate group to a target protein, often another kinase or signaling effector, as part of a signaling cascade. It is commonly discussed in the context of transphosphorylation, where two kinase molecules in proximity phosphorylate each other or associated substrates, as opposed to autophosphorylation, in which a kinase phosphorylates itself.

In receptor tyrosine kinase signaling, crossphosphorylation typically occurs when ligand-induced dimerization brings kinase domains into proximity,

The significance of crossphosphorylation lies in its role in signal amplification, regulation, and specificity. Phosphorylation state

Overall, crossphosphorylation is a central mechanism by which signaling networks transmit and regulate information, enabling coordinated

enabling
transphosphorylation
on
specific
tyrosine
residues.
The
resulting
phosphate
marks
create
docking
sites
for
downstream
signaling
proteins
and
propagate
the
signal.
Crossphosphorylation
also
features
in
other
signaling
architectures,
such
as
two-component
systems
in
bacteria,
where
a
sensor
kinase
can
relay
a
phosphate
to
a
response
regulator,
and
in
cross-talk
between
kinases,
where
one
kinase
phosphorylates
substrates
that
are
not
its
canonical
targets.
changes
can
control
protein
conformation,
interaction
networks,
and
activity,
allowing
cells
to
fine-tune
responses
to
stimuli.
Experimental
study
typically
involves
in
vitro
kinase
assays,
phospho-specific
antibodies,
mass
spectrometry,
and
mutational
analyses
to
identify
participating
kinases
and
phosphorylation
sites.
cellular
responses.