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auxinbinding

Auxinbinding refers to the molecular interactions by which the plant hormone auxin binds to specific proteins and binding sites to regulate growth and development. It encompasses canonical receptor-mediated signaling as well as binding events that influence auxin distribution and availability within tissues.

In the widely supported core signaling pathway, perception occurs through the TIR1/AFB family of F-box proteins

Auxinbinding also relates to hormone transport, which is essential for creating auxiliary gradients. Polar auxin transport

Other proteins reported to bind auxin have been described, including ABP1, which binds auxin and participates

Overall, auxinbinding underpins a core signaling module plus transport-related interactions that together coordinate plant growth, development,

that
are
part
of
the
SCF
E3
ubiquitin
ligase
complex.
When
auxin
is
bound,
these
receptors
gain
affinity
for
Aux/IAA
transcriptional
repressors.
The
resulting
interaction
leads
to
ubiquitination
and
proteasomal
degradation
of
Aux/IAAs,
releasing
auxin
response
factors
(ARFs)
to
activate
or
repress
downstream
genes.
The
output
is
tightly
linked
to
hormone
concentration
and
tissue
context,
guiding
processes
such
as
cell
elongation,
division,
and
pattern
formation.
involves
transporter
proteins
such
as
PIN
and
AUX1/LAX
that
bind
and
move
auxin
across
cells,
thereby
shaping
developmental
patterns
like
organ
initiation
and
tropic
responses.
in
cellular
processes
such
as
vesicle
trafficking.
However,
the
role
of
ABP1
as
a
canonical
auxin
receptor
remains
debated,
and
the
primary,
consensus
pathway
centers
on
TIR1/AFB-mediated
signaling.
and
adaptive
responses.