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dimerer

Dimerer is the plural form of dimer in several languages, used to refer to a molecule composed of two subunits bound together. A dimer consists of two monomers that can be identical (homodimer) or different (heterodimer). Dimerization can occur through covalent bonds, such as disulfide bridges, or through noncovalent interactions including hydrogen bonds, ionic contacts, and hydrophobic effects. Dimers occur in chemistry as well as biology and are often important for molecular stability, specificity, or activity.

In biology, many proteins function as dimers, and dimerization can be essential for activity, DNA binding, or

Structural interfaces between the two subunits vary and are stabilized by motifs such as coiled coils or

Techniques to study dimers include size-exclusion chromatography, analytical ultracentrifugation, cross-linking followed by mass spectrometry, and high-resolution

signaling.
Receptor
proteins
frequently
dimerize
upon
ligand
binding,
triggering
intracellular
cascades.
Transcription
factors
often
form
dimers
to
recognize
specific
DNA
sequences.
Some
enzymes
require
dimerization
to
assemble
functional
active
sites
or
to
regulate
catalytic
activity.
Dimers
can
be
stable
components
of
a
complex
or
form
transient
assemblies
in
response
to
cellular
conditions.
leucine
zippers,
which
favor
homodimeric
or
heterodimeric
associations.
Mutations
that
disrupt
dimer
interfaces
can
alter
function
and
contribute
to
disease,
while
engineered
stabilization
of
dimers
is
a
strategy
in
drug
design
and
protein
engineering.
structural
techniques
such
as
X-ray
crystallography
and
cryo-electron
microscopy.
Native
mass
spectrometry
and
small-angle
scattering
provide
information
on
stoichiometry
and
arrangement
in
solution,
while
computational
approaches
can
predict
potential
dimerization
from
sequence
and
structural
data.