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geneexpression

Gene expression is the process by which information encoded in a gene is used to produce a functional product, typically a protein or a molecule of RNA. In most organisms, gene expression begins with transcription, where RNA polymerase reads a gene's DNA sequence to synthesize messenger RNA (mRNA). In eukaryotes, mRNA is processed and exported to the cytoplasm, where translation on ribosomes produces a polypeptide. Some genes encode noncoding RNAs that play regulatory or structural roles.

Expression is tightly regulated at multiple levels. DNA sequences such as promoters and enhancers recruit transcription

Context matters: gene expression varies between cell types, developmental stages, and in response to environmental cues.

Studying gene expression involves techniques such as RNA sequencing, microarrays, quantitative PCR, and in situ hybridization.

Understanding gene expression informs fields from basic biology to medicine and biotechnology, including diagnostics, pharmacogenomics, and

factors
and
the
transcriptional
machinery.
Epigenetic
mechanisms,
including
DNA
methylation
and
histone
modifications,
alter
chromatin
structure
to
enable
or
restrict
access
to
genes.
Post-transcriptional
regulation
controls
mRNA
splicing,
editing,
transport,
stability,
and
translation
efficiency.
Post-translational
regulation
of
proteins
further
modulates
activity
and
lifespan.
Single
genes
can
have
tissue-specific
expression,
while
networks
of
genes
coordinate
complex
processes
such
as
development,
immune
responses,
and
metabolism.
Dysregulation
of
gene
expression
is
implicated
in
many
diseases,
including
cancer,
neurological
disorders,
and
metabolic
syndromes.
More
recently,
single-cell
RNA
sequencing
provides
expression
profiles
at
the
level
of
individual
cells,
revealing
cellular
heterogeneity
and
dynamic
responses.
synthetic
biology.