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phosphagen

Phosphagen refers to a family of high-energy phosphate compounds that serve as immediate reserves of cellular energy in muscle and other tissues. They provide a rapid source of ATP during short, intense bouts of activity by donating a phosphate group to ADP to form ATP. The most prominent member is phosphocreatine (creatine phosphate) in vertebrates, formed from creatine by the enzyme creatine kinase. In many invertebrates, phosphoarginine serves a similar role, formed by arginine kinase.

Biochemical reaction and enzymes: The central reaction is phosphocreatine + ADP ⇌ creatine + ATP, catalyzed by creatine kinase.

Physiological role: The phosphagen system supports rapid ATP turnover in skeletal and cardiac muscle, brain, and

Regeneration and regulation: During rest, ATP generated by mitochondria recharges phosphocreatine stores via CK; depletion slows,

Distribution and significance: Creatine phosphate is predominant in vertebrate muscle; arginine phosphate is common in many

In
invertebrates,
arginine
phosphate
is
generated
and
consumed
by
arginine
kinase.
Vertebrates
possess
cytosolic
and
mitochondrial
CK
isoforms
that
help
buffer
cellular
energy
and
shuttle
phosphate
between
compartments.
certain
sperm
cells,
enabling
short
bursts
of
high-intensity
activity.
Phosphagen
stores
typically
sustain
maximal
effort
for
a
few
seconds
(often
5–15
depending
on
species
and
activity)
until
glycolysis
and
oxidative
phosphorylation
take
over.
then
other
energy
pathways
proceed.
Availability
of
substrates,
oxygen,
and
pH
influence
the
rate
of
phosphagen
turnover.
invertebrates.
Some
organisms
use
additional
phosphagens.
The
phosphagen
system
complements
other
energy
systems
and
is
a
focus
of
nutritional
and
exercise
research.