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membranständigen

Membranständigen describes organelles and other structures of a cell that are enclosed by one or more lipid membranes. In cell biology, membranständige Organellen form the compartmental architecture of eukaryotic cells, enabling specialized environments for distinct biochemical reactions. Prokaryotic cells generally lack such membrane-bound compartments.

Common membranständige Organellen include the nucleus (double membrane surrounding genetic material), mitochondria (double membrane and own

Functionally, membranes create distinct biochemical environments, regulate material exchange via transport proteins, and enable targeted localization

In contrast, membranständige structures are contrasted with membranunabhängige components, such as ribosomes floating freely in the

genome),
chloroplasts
in
plants
and
algae
(double
membrane
and
own
genome),
the
endoplasmic
reticulum
and
Golgi
apparatus
(continuous
membranes
forming
the
endomembrane
system),
lysosomes
and
peroxisomes
(single
membranes),
and
various
vesicles
and
vacuoles.
Some
organelles
have
two
membranes
(nucleus,
mitochondria,
chloroplasts);
others
have
a
single
limiting
membrane
yet
are
folded
or
interconnected
within
a
network.
of
enzymes
and
substrates.
They
also
support
processes
such
as
energy
production,
macromolecule
synthesis,
storage,
and
waste
processing.
The
most
widely
accepted
explanation
for
the
origin
of
mitochondria
and
chloroplasts
is
endosymbiosis,
supported
by
evidence
including
circular
DNA,
ribosomes
resembling
bacterial
genomes,
and
double
membranes.
cytosol
or
cytoskeletal
filaments,
which
are
not
enclosed
by
a
lipid
bilayer.
This
article
uses
membranständigen
structures
as
a
conventional
German
description
of
membrane-bound
cellular
components.