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tryptophanderived

Tryptophan-derived is an umbrella term for chemical compounds that originate from the essential amino acid tryptophan. These compounds can be direct derivatives of tryptophan or products formed through its metabolism in animals, plants, and microorganisms. Because tryptophan contains an indole ring, many tryptophan-derived molecules are indole-containing and participate in signaling, metabolism, and defense.

In animals, major pathways begin with tryptophan being converted to 5-hydroxytryptophan and then to serotonin; serotonin

Representative tryptophan-derived entities include serotonin and melatonin, the plant hormone IAA, tryptamine and related indole compounds,

Understanding tryptophan-derived metabolism informs nutrition, physiology, and medicine. Alterations in tryptophan processing have been associated with

can
be
further
converted
to
the
sleep-regulating
hormone
melatonin.
In
plants,
tryptophan
serves
as
a
precursor
to
the
growth
regulator
indole-3-acetic
acid
(IAA)
and
to
various
indole
alkaloids
and
defensive
compounds.
In
microbes,
tryptophan
can
give
rise
to
a
range
of
indole
derivatives
and
to
metabolites
via
the
kynurenine
pathway,
producing
kynurenine
and
related
compounds.
and
kynurenine
pathway
metabolites
such
as
kynurenic
acid.
Some
pharmaceuticals
and
natural
products
employ
tryptophan-derived
scaffolds,
and
researchers
study
these
molecules
for
roles
in
mood,
sleep,
plant
growth,
and
neuroprotection.
psychiatric
disorders,
inflammatory
conditions,
and
neurodegenerative
diseases.
Therapeutic
strategies
often
target
serotonin
and
melatonin
signaling
or
the
kynurenine
pathway
to
modulate
mood,
cognition,
and
immune
responses.