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Metagenomics

Metagenomics is the study of genetic material recovered directly from environmental samples, enabling analysis of microbial communities without the need for laboratory cultivation. It encompasses approaches that assess taxonomic composition as well as functional potential of the community. Two common strategies are amplicon sequencing of marker genes, such as the 16S rRNA gene, and shotgun metagenomics, which sequences all DNA present in the sample.

Amplicon sequencing provides a snapshot of community structure but limited functional information. Shotgun metagenomics offers higher

Applications include studies of microbial ecology, human and animal microbiomes, soil, freshwater and marine ecosystems, and

Challenges include complex mixtures with uneven organism abundance, strain-level diversity, and computational demands for assembly and

History and impact: Development in the 2000s with advances in high-throughput sequencing. Large-scale projects such as

resolution,
enabling
recovery
of
genomes,
gene
catalogs,
and
metabolic
pathways.
Results
are
often
analyzed
by
assembling
reads
into
contigs,
binning
contigs
into
metagenome-assembled
genomes
(MAGs),
and
annotating
genes
against
reference
databases.
environments
impacted
by
pollution.
Metagenomics
informs
pathogen
surveillance,
biotech
discovery
of
enzymes,
and
monitoring
of
antimicrobial
resistance
genes.
annotation.
Biases
arise
from
sample
collection,
DNA
extraction,
and
sequencing.
Interpreting
function
from
gene
content
can
be
difficult,
and
many
detected
genes
have
unknown
roles.
Data
sharing
and
privacy
issues
arise
with
human-related
samples.
the
Human
Microbiome
Project
and
Earth
Microbiome
Project
have
shaped
the
field.
Ongoing
work
includes
improving
assembly
of
complex
communities,
developing
standardized
benchmarks,
and
expanding
reference
databases.