Home

nonbilayer

Nonbilayer is a term used to describe lipid assemblies that do not form the conventional phospholipid bilayer commonly found in cellular membranes. This category includes inverted-phase structures such as the inverted hexagonal phase (HII), cubic phases, and other non-lamellar arrangements, as well as transient states that depart from flat bilayers. Nonbilayer tendencies depend on the intrinsic curvature preferences of certain lipids and their packing constraints.

A key biophysical concept is spontaneous curvature. Lipids with small headgroups or bulky tails, notably phosphatidylethanolamine

In biological membranes, nonbilayer lipids participate in dynamic processes that require curvature and remodeling, including vesicle

Experimental study employs techniques such as X-ray diffraction, nuclear magnetic resonance, cryo-electron microscopy, and scattering methods

Common nonbilayer-forming lipids include PE and certain lipids with high intrinsic negative curvature, while factors like

(PE),
tend
to
promote
negative
curvature
and
can
favor
nonbilayer
phases
under
certain
conditions
(temperature,
pH,
ionic
strength).
In
contrast,
lipids
with
larger
headgroups,
such
as
phosphatidylcholine,
stabilize
bilayer
structures.
The
balance
between
bilayer
and
nonbilayer
tendencies
influences
membrane
behavior,
especially
under
stress
or
during
remodeling.
fusion
and
fission,
organelle
morphogenesis,
and
the
activity
of
curvature-sensing
proteins.
By
stabilizing
fusion
intermediates
or
generating
local
curvature,
these
lipids
modulate
membrane
structure
and
protein
function
at
curved
interfaces.
to
detect
nonbilayer
phases
and
measure
curvature
propensity.
Synthetic
lipid
systems
are
frequently
used
to
isolate
lipid-driven
effects
from
proteins.
cholesterol
can
suppress
nonbilayer
tendencies
and
promote
bilayer
stability.