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anabolismus

Anabolismus, in English commonly referred to as anabolism, denotes the set of metabolic processes that construct complex molecules from smaller building blocks, requiring an input of energy. It contrasts with catabolismus (catabolism), which breaks down larger molecules to release energy. Anabolismus occurs in nearly all living cells and underpins growth, tissue repair, and the storage of energy in macromolecules.

Major anabolic pathways include protein synthesis from amino acids, nucleic acid synthesis from nucleotide precursors, carbohydrate

Regulation: Anabolic activity is controlled by hormonal and intracellular signaling networks that sense energy and nutrient

Clinical and lifestyle relevance: Adequate nutrition and hormonal balance support normal anabolic function, essential for growth,

storage
through
glycogen
or
starch
synthesis,
lipid
synthesis
including
fatty
acids
and
triglycerides,
and
the
assembly
of
structural
polymers
and
membranes.
These
processes
typically
consume
energy
carriers
such
as
ATP
and
reducing
equivalents
like
NADPH,
and
are
coordinated
with
cellular
energy
and
nutrient
status.
availability.
Hormones
such
as
insulin,
insulin-like
growth
factor
1,
growth
hormone,
and
androgens
promote
protein
and
glycogen
synthesis,
whereas
fasting
and
glucocorticoids
tend
to
suppress
anabolic
flux.
Central
regulatory
pathways
include
mTOR,
which
promotes
growth
when
energy
and
nutrients
are
ample,
and
AMPK,
which
inhibits
anabolic
processes
during
energy
stress.
Availability
of
substrates,
cofactors,
and
redox
balance
also
modulates
the
rate
of
anabolic
reactions.
wound
healing,
and
maintenance
of
body
tissues.
Imbalances
can
affect
metabolic
health,
aging,
and
recovery
from
injury
or
illness.