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tCr

T cell receptor (TCR) is a membrane-bound protein complex expressed on the surface of T lymphocytes. It recognizes peptide antigens presented by major histocompatibility complex (MHC) class I or class II molecules on antigen-presenting cells. Most T cells carry an alpha-beta (αβ) TCR, while a smaller subset expresses a gamma-delta (γδ) TCR. The antigen-binding site is formed by the variable regions of the two chains and is generated by somatic V(D)J recombination, yielding vast diversity through junctional choices and nucleotide additions.

The TCR is associated with the CD3 signaling complex, comprising multiple chains that contain immunoreceptor tyrosine-based

During T cell development in the thymus, TCR gene rearrangement is driven by RAG1/2 enzymes. Thymocytes undergo

Diversity in TCRs enables recognition of a wide range of antigens. αβ T cells constitute the majority

In clinical research and therapy, TCRs are being exploited in TCR-engineered T cell therapies to target tumor-associated

activation
motifs
(ITAMs).
Engagement
of
the
TCR
with
a
peptide-MHC
complex,
often
with
co-receptors
such
as
CD4
(for
MHC
II)
or
CD8
(for
MHC
I),
triggers
intracellular
signaling.
This
leads
to
calcium
flux
and
activation
of
signaling
pathways
including
MAPK,
NFAT,
and
NF-κB,
ultimately
resulting
in
T
cell
activation,
proliferation,
and
effector
function.
Full
activation
typically
requires
additional
co-stimulatory
signals,
such
as
CD28
engagement.
positive
selection
for
the
ability
to
recognize
self-MHC
and
negative
selection
to
eliminate
strongly
self-reactive
cells,
shaping
a
repertoire
that
maintains
self-tolerance
in
the
periphery.
and
mediate
adaptive
immunity,
while
γδ
T
cells
display
more
innate-like
properties
and
participate
in
mucosal
and
stress-related
responses.
peptide-MHC
complexes.
Potential
risks
include
off-target
reactivity
and
mispairing
with
endogenous
TCR
chains,
which
ongoing
efforts
aim
to
minimize.