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Skp1CUL1Fbox

Skp1-Cullin-1-F-box (Skp1-CUL1-F-box) complexes, commonly known as SCF ubiquitin ligases, are a major class of multi-subunit E3 ubiquitin ligases in eukaryotes. They regulate the ubiquitination and subsequent proteasomal degradation of specific target proteins, thereby controlling a wide range of cellular processes.

The core SCF architecture includes the scaffold protein Cullin-1 (CUL1), the adaptor Skp1, and the RING-finger

SCF ligase activity is regulated by post-translational modification: neddylation of CUL1 by NEDD8 activates the complex

SCF complexes influence numerous biological processes, including cell cycle progression, DNA replication licensing, transcription factor turnover,

protein
RBX1
(Roc1),
which
recruits
the
ubiquitin-conjugating
enzyme
(E2).
The
F-box
protein
serves
as
the
substrate
receptor,
binding
Skp1
through
an
F-box
motif
and
recognizing
degron
motifs
in
substrates
via
its
C-terminal
substrate-binding
domain.
A
large
family
of
F-box
proteins
exists
(including
FBXW,
FBXL,
and
FBXO
subfamilies),
providing
substrate
specificity
to
the
complex.
and
promotes
ubiquitin
transfer,
while
deneddylation
by
the
COP9
signalosome
(CSN)
downregulates
activity.
Substrates
are
typically
polyubiquitinated
with
Lys48-linked
chains,
targeting
them
for
degradation
by
the
26S
proteasome;
alternative
ubiquitin
linkages
can
signal
other
cellular
outcomes
in
some
cases.
and
responses
to
signaling
pathways.
The
repertoire
of
F-box
proteins
enables
context-dependent
substrate
selection,
contributing
to
tissue-
and
condition-specific
regulation
of
protein
stability.
Misregulation
of
SCF
components
has
been
associated
with
diseases
such
as
cancer,
highlighting
their
critical
role
in
cellular
homeostasis.
As
modular
E3
ligases,
SCF
complexes
exemplify
how
protein
degradation
is
tailored
through
combinatorial
subunit
composition.