Home

importin

Importin refers to a group of nuclear transport receptors that mediate the import of proteins from the cytoplasm into the nucleus through the nuclear pore complex (NPC). These receptors are part of the broader karyopherin family, which also includes exportins responsible for nuclear export. Importins recognize cargo proteins that carry specific nuclear localization signals (NLS) and shuttle them into the nucleus.

In the classical import pathway, importin-α (a cargo adaptor) binds proteins bearing a classical NLS and then

Apart from the classical α/β pathway, other importins (beta family members) recognize non-classical NLSs and direct various

Dysregulation or mutation of importins has been linked to diseases including cancer and neurodegenerative disorders, and

associates
with
importin-β
(also
called
importin-β1).
The
resulting
complex
docks
at
the
NPC
and
traverses
the
pore
via
interactions
with
FG-nucleoporins.
Inside
the
nucleus,
the
Ran
GTPase
system
induces
cargo
release:
RanGTP
binding
to
importin-β
causes
dissociation
of
the
complex
and
release
of
the
cargo.
Importins
are
then
recycled
to
the
cytoplasm,
where
RanGAP
catalyzes
GTP
hydrolysis
to
return
importins
to
their
cargo-binding-receptive
state.
cargoes
into
the
nucleus.
Examples
include
transportin-1
(TNPO1),
which
binds
specific
non-classical
signals
such
as
the
M9
domain,
and
other
karyopherins
like
IPO7
and
IPO5.
The
specificity
and
regulation
of
importins
contribute
to
developmental
processes
and
cellular
signaling.
some
viruses
co-opt
importins
to
facilitate
the
nuclear
entry
of
their
proteins.
The
term
importin
is
often
used
to
describe
these
receptors
collectively,
while
individual
members
show
distinct
cargo
preferences
and
regulatory
mechanisms.