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immunolocalization

Immunolocalization is a set of techniques used to detect and visualize the distribution of specific proteins or antigens within cells or tissue sections by exploiting antigen-antibody binding. The method translates biochemical presence into spatial information, complementing bulk analyses.

The principal approaches are immunohistochemistry (IHC) for paraffin-embedded or cryosectioned tissues, and immunocytochemistry for cultured cells.

A typical workflow includes fixation to preserve structure and antigenicity, permeabilization if intracellular targets are accessed,

Applications include mapping subcellular localization (nucleus, mitochondria, membranes), tissue distribution and abundance of proteins, co-localization with

Limitations include dependence on antibody specificity, fixation-induced masking of epitopes, and potential artifacts from processing. Advances

Immunofluorescence
uses
fluorescently
labeled
antibodies;
immunohistochemistry
can
use
enzyme-labeled
secondary
antibodies
with
chromogenic
substrates.
Immunoelectron
microscopy
can
localize
at
high
ultrastructural
resolution
by
gold-labeled
antibodies.
blocking
to
reduce
nonspecific
binding,
incubation
with
a
primary
antibody,
and
detection
with
a
labeled
secondary
antibody.
For
formalin-fixed
paraffin-embedded
samples,
antigen
retrieval
may
be
required.
Samples
may
be
mounted
for
light,
fluorescence,
or
electron
microscopy.
other
markers,
diagnostic
pathology,
and
research
into
development
and
disease.
Quantification
can
be
qualitative
or
semi-quantitative,
with
digital
image
analysis
enabling
intensity
measurements,
area
fraction,
or
colocalization
metrics.
Key
controls
include
negative
controls,
isotype
controls,
and
antigen-blocking
tests
to
assess
specificity.
include
multiplexed
labeling,
frozen
sections
to
preserve
antigenicity,
confocal
or
super-resolution
imaging,
and
newer
labeling
strategies
to
improve
sensitivity
and
accuracy.