Microbiome,
Journal Year:
2024,
Volume and Issue:
12(1)
Published: March 16, 2024
Microorganisms
are
responsible
for
nutrient
removal
and
resource
recovery
in
wastewater
treatment
plants
(WWTPs),
their
diversity
is
often
studied
by
16S
rRNA
gene
amplicon
sequencing.
However,
this
approach
underestimates
the
abundance
of
Patescibacteria
due
to
low
coverage
commonly
used
PCR
primers
highly
divergent
bacterial
phylum.
Therefore,
our
current
understanding
global
diversity,
distribution,
ecological
role
WWTPs
very
incomplete.
This
particularly
relevant
as
considered
be
associated
with
microbial
host
cells
can
therefore
influence
temporal
variability
other
groups
that
important
WWTP
functioning.
Microbiome,
Journal Year:
2023,
Volume and Issue:
11(1)
Published: March 22, 2023
Abstract
Background
Candidate
phyla
radiation
(CPR)
constitutes
highly
diverse
bacteria
with
small
cell
sizes
and
are
likely
obligate
intracellular
symbionts.
Given
their
distribution
complex
associations
bacterial
hosts,
genetic
biological
features
of
CPR
in
low-nutrient
environments
have
received
increasing
attention.
However,
wastewater
treatment
systems
remain
poorly
understood.
We
utilized
genome-centric
metagenomics
to
answer
how
communities
shift
over
11
years
what
kind
ecological
roles
they
act
an
activated
sludge
system.
Results
found
that
approximately
9%
(135)
the
1,526
non-redundant
archaeal
metagenome-assembled
genomes
were
affiliated
CPR.
consistently
abundant
a
relative
abundance
up
7.5%
studied
The
observed
striking
fluctuations
community
compositions
limited
metabolic
biosynthetic
capabilities
collectively
revealed
nature
dynamics
may
be
directly
determined
by
available
hosts.
Similarity-based
network
analysis
further
confirmed
broad
hosts
lineages.
proteome
contents
sludge-associated
had
higher
similarity
those
environmental-associated
than
human-associated
ones.
Comparative
genomic
significant
enrichment
genes
for
oxygen
stress
resistance
bacteria.
Furthermore,
carbon
cycling
horizontal
gene
transfer
extensively
identified
genomes.
Conclusions
These
findings
highlight
presence
specific
host
interactions
among
lineages
systems.
Despite
lack
key
pathways,
these
small,
yet
involvements
biogeochemical
evolution
Environmental Microbiology,
Journal Year:
2022,
Volume and Issue:
25(3), P. 606 - 641
Published: Dec. 14, 2022
Abstract
Pelagic
microbes
have
adopted
distinct
strategies
to
inhabit
the
pelagial
of
lakes
and
oceans
can
be
broadly
categorized
in
two
groups:
free‐living,
specialized
oligotrophs
patch‐associated
generalists
or
copiotrophs.
In
this
review,
we
aim
identify
genomic
traits
that
enable
pelagic
freshwater
thrive
their
habitat.
To
do
so,
discuss
main
genetic
differences
marine
are
both
dominated
by
difference
sediment
microbes,
where
copiotrophs
more
prevalent.
We
phylogenomically
analysed
a
collection
>7700
metagenome‐assembled
genomes,
classified
habitat
preferences
on
different
taxonomic
levels,
compared
metabolic
freshwater,
marine,
microbes.
Metabolic
mainly
associated
with
transport
functions,
environmental
information
processing,
components
electron
chain,
osmoregulation
isoelectric
point
proteins.
Several
lineages
known
transitions
(Nitrososphaeria,
SAR11,
Methylophilaceae,
Synechococcales,
Flavobacteriaceae,
Planctomycetota)
underlying
mechanisms
process
discussed
review.
Additionally,
distribution,
ecology
make‐up
most
abundant
prokaryotes
described
details
separate
chapters
for
Actinobacteriota,
Bacteroidota,
Burkholderiales,
Verrucomicrobiota,
Chloroflexota,
‘
Ca
.
Patescibacteria’.
The ISME Journal,
Journal Year:
2024,
Volume and Issue:
18(1)
Published: Jan. 1, 2024
Abstract
The
evolutionary
trajectory
of
Methylophilaceae
includes
habitat
transitions
from
freshwater
sediments
to
and
marine
pelagial
that
resulted
in
genome
reduction
(genome-streamlining)
the
pelagic
taxa.
However,
extent
genetic
similarities
genomic
structure
microdiversity
two
genome-streamlined
lineages
(freshwater
“Ca.
Methylopumilus”
OM43
lineage)
has
so
far
never
been
compared.
Here,
we
analyzed
complete
genomes
91
strains
isolated
14
lakes
Central
Europe
12
coastal
strains.
showed
a
remarkable
niche
differentiation
with
clear
species-specific
differences
preference
seasonal
distribution.
On
other
hand,
observed
synteny
preservation
their
by
having
similar
locations
types
flexible
islands
(fGIs).
Three
main
fGIs
were
identified:
replacement
fGI
acting
as
phage
defense,
an
additive
harboring
metabolic
resistance-related
functions,
tycheposon
containing
nitrogen-,
thiamine-,
heme-related
functions.
differed
relative
abundances
metagenomic
datasets
suggesting
different
levels
variability
ranging
strain-specific
population-level
adaptations.
Moreover,
variations
one
gene
seemed
be
responsible
for
growth
at
low
substrate
concentrations
potential
biogeographic
separation
within
species.
Our
study
provides
first
insight
into
closely
related
taxa
family
revealed
remarkably
dynamics
involving
mobile
elements
recombination
between
members.
Molecular Ecology,
Journal Year:
2024,
Volume and Issue:
33(5)
Published: Jan. 24, 2024
Abstract
The
growing
threat
of
global
warming
on
coral
reefs
underscores
the
urgency
identifying
heat‐tolerant
corals
and
discovering
their
adaptation
mechanisms
to
high
temperatures.
Corals
in
intertidal
rock
pools
that
vary
markedly
daily
temperature
may
have
improved
heat
tolerance.
In
this
study,
stress
experiments
were
performed
scleractinian
Porites
lutea
from
subtidal
habitat
pool
Weizhou
Island
northern
South
China
Sea.
Thermotolerance
differences
two
habitats
explored
through
phenotype,
physiological
indicators,
ITS2,
16S
rRNA,
RNA
sequencing.
At
extremely
34°C,
P.
had
a
stronger
tolerance
than
those
habitat.
strong
antioxidant
capacity
host
its
microbial
partners
was
important
resistance
at
34°C
immune
apoptotic
regulation,
downregulated
metabolism
disease‐infection‐related
pathways
compared
,
habitat,
upregulated
Cladocopium
C15
(Symbiodiniaceae)
photosynthetic
efficiency
photoprotection,
significantly
increased
bacterial
diversity
probiotics,
including
ABY1,
Ruegeria
Alteromonas
.
These
findings
indicate
can
tolerate
temperatures
integrated
response
holobionts.
be
‘touchstones’
for
future
warming.
Our
research
provides
new
insights
into
complex
by
which
resist
theoretical
basis
reef
ecosystem
restoration
selection
stress‐resistant
populations.
mSystems,
Journal Year:
2022,
Volume and Issue:
7(4)
Published: Aug. 8, 2022
Reconstruction
of
metagenome-assembled
genomes
(MAGs)
has
become
a
fundamental
approach
in
microbial
ecology.
However,
MAG
is
hardly
complete
and
overlooks
genomic
microdiversity
because
metagenomic
assembly
fails
to
resolve
microvariants
among
closely
related
genotypes.
Aiming
at
understanding
the
universal
factors
that
drive
or
constrain
prokaryotic
genome
diversification,
we
performed
an
ecosystem-wide
high-resolution
exploration
by
combining
spatiotemporal
(2
depths
×
12
months)
sampling
from
pelagic
freshwater
system,
high-quality
reconstruction
using
long-
short-read
sequences,
profiling
single
nucleotide
variants
(SNVs)
structural
(SVs)
through
mapping
short
long
reads
MAGs,
respectively.
We
reconstructed
575
including
29
circular
assemblies,
providing
reference
bacterioplankton.
Read
against
these
MAGs
identified
100
101,781
SNVs/Mb
0
305
insertions,
467
deletions,
41
duplications,
6
inversions
for
each
MAG.
Nonsynonymous
SNVs
were
accumulated
genes
potentially
involved
cell
surface
modification
evade
phage
recognition.
Most
(80.2%)
deletions
overlapped
with
gene
coding
region,
defense
systems
most
frequently
(>8%
genes)
deletion.
Some
such
exhibited
monthly
shift
their
allele
frequency,
suggesting
rapid
turnover
genotypes
response
predation.
extremely
low
either
rare
opportunistic
bloomers,
population
persistency
key
diversification.
The
results
concluded
diversification
driven
primarily
viral
load
constrained
bottleneck.
Microbiome,
Journal Year:
2024,
Volume and Issue:
12(1)
Published: March 27, 2024
Aerobic
anoxygenic
phototrophic
(AAP)
bacteria
are
heterotrophic
that
supply
their
metabolism
with
light
energy
harvested
by
bacteriochlorophyll-a-containing
reaction
centers.
Despite
substantial
contribution
to
bacterial
biomass,
microbial
food
webs,
and
carbon
cycle,
phenology
in
freshwater
lakes
remains
unknown.
Hence,
we
investigated
seasonal
variations
of
AAP
abundance
community
composition
biweekly
across
3
years
a
temperate,
meso-oligotrophic
lake.
displayed
clear
trend
spring
maximum
following
the
bloom
phytoplankton
secondary
autumn.
As
represent
highly
diverse
assemblage
species,
followed
succession
using
amplicon
sequencing
pufM
marker
gene.
To
enhance
accuracy
taxonomic
assignment,
developed
new
primers
generate
longer
amplicons
compiled
currently
largest
database
genes,
comprising
3633
reference
sequences
spanning
all
phyla
known
contain
species.
With
this
novel
resource,
demonstrated
majority
species
appeared
during
specific
phases
less
than
2%
detected
whole
year.
presented
an
indigenous
nature
characterized
high
resilience
heterogenic
adaptations
varying
conditions
environment.
Our
findings
highlight
flow
ecological
dynamics
unveil
recurrent
dynamic
community.
By
integrating
information
indicator
primary
production
(Chlorophyll-a)
existing
models,
show
play
pivotal
role
recycling
dissolved
organic
matter
released
bloom.
We
suggest
potential
within
context
PEG
model
consideration
further
models.
Environmental Microbiome,
Journal Year:
2024,
Volume and Issue:
19(1)
Published: June 20, 2024
Abstract
Background
To
better
understand
the
influence
of
habitat
on
genetic
content
bacteria,
with
a
focus
members
Candidate
Phyla
Radiation
(CPR)
we
studied
effects
transitioning
from
soil
via
seepage
waters
to
groundwater
genomic
composition
ultra-small
Parcubacteria
,
dominating
CPR
class
in
waters,
using
genome
resolved
metagenomics.
Results
Bacterial
metagenome-assembled
genomes
(MAGs),
(318
total,
32
)
were
generated
and
compared
directly
counterparts.
The
estimated
average
sizes
major
phyla
Proteobacteria
Bacteroidota
Cand
.
Patescibacteria
(Candidate
–
bacteria)
significantly
higher
soil-seepage
water
as
their
Seepage
(
Paceibacteria
exhibited
1.18-fold
greater
mean
size
2-fold
lower
proportion
pseudogenes
than
those
groundwater.
also
showed
similar
trend
reduced
seepage.
While
exploring
gene
loss
adaptive
gains
closely
related
lineages
groundwater,
identified
membrane
protein,
lipoglycopeptide
resistance
unique
Parcubacterium
genome.
A
nitrite
reductase
was
genomes,
likely
acquired
other
planktonic
microbes
horizontal
transfer.
Conclusions
Overall,
our
data
suggest
that
bacteria
including
have
larger
metabolic
enrichment
counterparts,
highlighting
possible
streamlining
latter
response
selection
an
oligotrophic
environment.
ISME Communications,
Journal Year:
2024,
Volume and Issue:
4(1)
Published: Jan. 1, 2024
Abstract
The
candidate
phyla
radiation
(CPR)
represents
a
distinct
monophyletic
clade
and
constitutes
major
portion
of
the
tree
life.
Extensive
efforts
have
focused
on
deciphering
functional
diversity
its
members,
primarily
using
sequencing-based
techniques.
However,
cultivation
success
remains
scarce,
presenting
significant
challenge,
particularly
in
CPR-dominated
groundwater
microbiomes
characterized
by
low
biomass.
Here,
we
employ
an
advanced
high-throughput
droplet
microfluidics
technique
to
enrich
CPR
taxa
from
groundwater.
Utilizing
low-volume
filtration
approach,
successfully
harvested
microbiome
resembling
original
microbial
community.
We
assessed
enrichment
aqueous
bulk
for
30
days
novel
CPR-specific
primer
rapidly
track
fraction
through
attempts.
combination
soil
extract
microbial-derived
necromass
provided
most
supportive
conditions
enrichment.
Employing
these
supplemented
conditions,
proved
superior
cultivation,
resulting
up
13-fold
compared
1-
2-fold
increase
cultivation.
Amplicon
sequencing
revealed
10
significantly
enriched
orders.
highest
CPRs
was
observed
some
unknown
members
Parcubacteria
order,
Cand.
Jorgensenbacteria,
unclassified
UBA9983.
Furthermore,
identified
co-enriched
putative
host
taxa,
which
may
guide
more
targeted
isolation
approaches
subsequent
investigations.
