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transcriptomes

A transcriptome is the full range of RNA transcripts produced by the genome under specific conditions and at a given time. It includes messenger RNA, ribosomal RNA, transfer RNA, and a wide array of noncoding RNAs. The transcriptome reflects the gene expression state of a cell or tissue and can vary by tissue type, developmental stage, environment, and disease status. It is distinct from the genome, which is its static DNA sequence.

High-throughput sequencing, particularly RNA sequencing (RNA-seq), is the central method for transcriptome analysis. Libraries are prepared

Applications include functional genomics, developmental biology, and disease research; benchmarking and annotation of genomes; discovery of

Limitations include the snapshot nature of measurements, sample heterogeneity, and sequence biases. Isoform complexity, repetitive regions,

Public data repositories such as the Gene Expression Omnibus, Sequence Read Archive, and ENCODE provide transcriptomic

from
total
RNA
or
polyadenylated
RNA
and
sequenced
to
yield
short
reads.
Data
are
processed
by
aligning
reads
to
a
reference
genome
or
performing
de
novo
assembly,
reconstructing
transcripts,
and
estimating
abundance
in
units
such
as
TPM
or
counts.
Downstream
analyses
include
identifying
differentially
expressed
genes,
profiling
alternative
splicing,
and
discovering
novel
transcripts
or
noncoding
RNAs.
Expression
quantification
can
be
gene-level
or
transcript-level.
diagnostic
biomarkers
and
therapeutic
targets;
and
comparative
transcriptomics
across
species.
and
incomplete
reference
annotations
can
complicate
assembly
and
quantification.
Experimental
design,
library
preparation,
and
computational
tools
influence
results.
datasets
and
resources
for
reanalysis
and
meta-studies.