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genomes

A genome is the complete set of genetic material present in an organism, cell, or virus. It includes genes, regulatory sequences, and the noncoding regions that influence how genes are expressed. In cellular life, genomes are primarily built from DNA; in many RNA viruses, the genome is made of RNA. The genome provides the blueprint for development, growth, and function, and its organization varies across life forms.

In cellular organisms the genome is organized into chromosomes. Prokaryotes typically have a single circular chromosome,

Genomics is the study of genomes through sequencing and analysis. Modern sequencing technologies—ranging from Sanger sequencing

Applications of genome science span medicine, agriculture, and ecology. In medicine, genomic information supports diagnosis, risk

while
eukaryotes
carry
multiple
linear
chromosomes
within
a
nucleus
and
may
contain
additional
DNA
in
mitochondria
or
chloroplasts.
Genome
size
and
content
vary
greatly:
compact
bacterial
genomes
are
mostly
coding
with
little
noncoding
DNA,
whereas
many
eukaryotic
genomes
contain
large
amounts
of
repetitive
and
regulatory
sequences.
Mitochondrial
and
chloroplast
genomes
are
smaller
and
usually
circular,
separate
from
the
nuclear
genome.
Viruses
possess
a
wide
range
of
genome
structures,
including
linear,
circular,
segmented,
and
single-
or
double-stranded
configurations.
to
high-throughput
next-generation
sequencing
and
long-read
platforms—enable
rapid
reconstruction
of
genome
sequences.
Genome
assembly
and
annotation
identify
the
order
of
bases
and
locate
genes,
regulatory
elements,
and
other
features.
Comparative
genomics
explores
similarities
and
differences
between
species
to
infer
function
and
evolutionary
history.
assessment,
and
personalized
therapies.
In
agriculture,
it
guides
crop
improvement
and
disease
resistance.
Ethical,
legal,
and
social
considerations
address
privacy,
data
sharing,
and
the
responsible
use
of
genomic
information
in
society.