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protobionts

Protobionts are simple, cell-like structures proposed as precursors to living cells in origin-of-life research. They are aggregates or compartments of abiotic molecules enclosed by a boundary, such as a lipid membrane, a protein coat, or a polymeric shell. Protobionts are envisioned to maintain a distinct internal environment and carry out basic, life-like chemical processes, but they are not considered fully living because they generally lack a self-sustained, information-bearing system capable of reliable replication and Darwinian evolution on their own.

Common model systems studied as protobionts include coacervates, proteinoid microspheres, and lipid vesicles (liposomes). Coacervates form

In origin-of-life research, protobiont-like systems are used to explore how compartmentalization, metabolism, and primitive replication might

droplets
rich
in
polymers
that
can
concentrate
reactants
and
catalyze
reactions.
Proteinoid
microspheres
arise
from
heated
amino
acids
and
can
swell,
take
up
nutrients,
and,
under
some
conditions,
exhibit
growth
or
division-like
behavior.
Lipid
vesicles
form
bilayer
membranes
that
self-assemble
in
water,
encapsulate
enzymes
or
nucleic
acids,
and
create
a
defined
interior
while
allowing
selective
exchange
with
the
surroundings.
co-occur,
and
how
environmental
conditions
could
drive
growth
and
division.
They
help
address
questions
about
how
life-like
properties
could
emerge
from
non-living
matter,
although
protobionts
remain
hypothetical
constructs
rather
than
established
steps
in
a
universal
pathway
to
life.