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Signaltransduktionswege

Signal transduction is the process by which cells detect and respond to molecular cues from their environment. It begins when a ligand binds to a receptor on the cell surface or inside the cell, triggering a conformational change that transmits a signal across membranes and into the cytoplasm. The initial event is followed by a cascade of intracellular signaling proteins and often second messengers such as cyclic AMP, calcium ions, or IP3/DAG. These signals are propagated, amplified, and integrated to produce a precise cellular response, which may include altered metabolism, gene expression, secretion, movement, or differentiation.

Common receptor types include G protein-coupled receptors, receptor tyrosine kinases, and ligand-gated ion channels. G proteins

Signaling is fundamental to physiology and development and is a major focus in medicine. Dysregulation can

couple
receptors
to
enzymes
or
ion
channels;
RTKs
phosphorylate
themselves
and
downstream
targets
to
activate
pathways
such
as
MAP
kinase
and
PI3K-Akt.
Second
messenger
pathways
rapidly
modulate
enzymes
and
ion
channels,
creating
fast
responses,
while
transcriptional
changes
occur
later.
Signaling
networks
are
highly
regulated
by
feedback
mechanisms,
scaffolding
proteins,
localization
within
cellular
compartments,
and
cross-talk
between
pathways.
Desensitization
and
receptor
endocytosis
help
terminate
signals.
contribute
to
cancer,
metabolic
diseases,
and
neurological
disorders.
Many
therapeutics
aim
to
modulate
signaling
pathways
by
targeting
receptors,
kinases,
or
downstream
effectors.