Fuels,
Год журнала:
2024,
Номер
5(3), С. 394 - 438
Опубликована: Авг. 27, 2024
This
comprehensive
review
investigates
the
potential
of
cyanobacteria,
particularly
nitrogen-fixing
strains,
in
addressing
global
challenges
pertaining
to
plastic
pollution
and
carbon
emissions.
By
analyzing
distinctive
characteristics
including
their
minimal
growth
requirements,
high
photosynthetic
efficiency,
rapid
rates,
this
study
elucidates
crucial
role
transforming
sequestration,
biofuel
generation,
biodegradable
production.
The
investigation
emphasizes
cyanobacteria’s
efficiency
photosynthesis,
positioning
them
as
optimal
candidates
for
cost-effective
bioplastic
production
with
minimized
land
usage.
Furthermore,
explores
unconventional
yet
promising
utilization
biodiesel
production,
mitigating
environmental
concerns
such
sulfur
emissions
presence
aromatic
hydrocarbons.
resulting
exhibits
significant
combustion
potential,
establishing
cyanobacteria
a
viable
option
sustainable
Through
assessment
both
achievements
encountered
during
commercialization
process,
offers
valuable
insights
into
diverse
contributions
cyanobacteria.
Its
objective
is
provide
guidance
researchers,
policymakers,
industries
interested
harnessing
bio-inspired
approaches
structural
applications,
thereby
advancing
efforts
towards
environmentally
conscious
Toxins,
Год журнала:
2022,
Номер
14(5), С. 350 - 350
Опубликована: Май 17, 2022
Microcystins
are
natural
hepatotoxic
metabolites
secreted
by
cyanobacteria
in
aquatic
ecosystems.
When
present
at
elevated
concentrations,
microcystins
can
affect
water
quality
aesthetics;
contaminate
drinking
reservoirs
and
recreational
waters;
disrupt
normal
ecosystem
functioning;
cause
health
hazards
to
animals,
plants,
humans.
Animal
human
exposures
generally
result
from
ingesting
contaminated
or
physically
contacting
tainted
water.
Much
research
has
identified
a
multitude
of
liver
problems
oral
exposure
microcystins,
varying
hepatocellular
damage
primary
cancer.
Provisional
guidelines
for
have
been
established
prevent
toxic
protect
public
health.
With
increasing
occurrences
eutrophication
freshwater
systems,
microcystin
contamination
groundwater
surface
waters
is
growing,
posing
threats
terrestrial
plants
agricultural
soils
used
crop
production.
These
often
transferred
crops
via
irrigation
with
local
sources
water,
such
as
bloom-forming
lakes
ponds.
survive
high
quantities
various
parts
(roots,
stems,
leaves)
due
their
chemical
stability
low
molecular
weight,
risks
consumers
products.
Studies
indicated
potential
associated
fruits
vegetables
sourced
irrigated
containing
microcystins.
This
review
considers
the
risk
humans,
environment
presence
irrigation.
Additional
studies
needed
understand
specific
impacts
consumption
microcystin-contaminated
plants.
Toxins,
Год журнала:
2020,
Номер
12(10), С. 641 - 641
Опубликована: Окт. 4, 2020
Cyanobacterial
harmful
algal
blooms
(CyanoHABs)
produce
microcystins
(MCs)
which
are
associated
with
animal
and
human
hepatotoxicity.
Over
270
variants
of
MC
exist.
MCs
have
been
continually
studied
due
their
toxic
consequences.
Monitoring
water
quality
to
assess
the
presence
is
utmost
importance
although
it
often
difficult
because
CyanoHABs
may
generate
multiple
variants,
low
concentration
in
water.
To
effectively
manage
control
these
toxins
prevent
health
risks,
sensitive,
fast,
reliable
methods
capable
detecting
required.
This
paper
aims
review
three
main
analytical
used
detect
ranging
from
biological
(mouse
bioassay),
biochemical
(protein
phosphatase
inhibition
assay
enzyme
linked
immunosorbent
assay),
chemical
(high
performance
liquid
chromatography,
chromatography-mass
spectrometry,
high
capillary
electrophoresis,
gas
chromatography),
as
well
newly
emerging
biosensor
methods.
In
addition,
current
state
regarding
novel
development
usage,
merits
limitations
presented.
Finally,
this
also
provides
recommendations
future
research
directions
towards
method
application
improvement.
Toxins,
Год журнала:
2021,
Номер
13(8), С. 537 - 537
Опубликована: Июль 29, 2021
Microcystins
are
ubiquitous
toxins
produced
by
photoautotrophic
cyanobacteria.
Human
exposures
to
microcystins
occur
through
the
consumption
of
contaminated
drinking
water,
fish
and
shellfish,
vegetables,
algal
dietary
supplements
recreational
activities.
Microcystin-leucine-arginine
(MCLR)
is
prototypical
microcystin
because
it
reported
be
most
common
toxic
variant
only
with
an
established
tolerable
daily
intake
0.04
µg/kg.
Microcystin
toxicokinetics
characterized
low
intestinal
absorption,
rapid
specific
distribution
liver,
moderate
metabolism
glutathione
cysteinyl
conjugates,
urinary
fecal
excretion.
Molecular
toxicology
involves
covalent
binding
inhibition
protein
phosphatases,
oxidative
stress,
cell
death
(autophagy,
apoptosis,
necrosis),
cytoskeleton
disruption.
These
molecular
cellular
effects
interconnected
commonly
observed
together.
The
main
target
organs
for
toxicity
intestine,
kidney.
Preclinical
data
indicate
may
also
have
nervous,
pulmonary,
cardiac,
reproductive
system
toxicities.
Recent
evidence
suggests
that
exposure
other
hepatotoxic
insults
could
potentiate
increase
risk
chronic
diseases.
This
review
summarizes
current
knowledge
toxicokinetics,
toxicology,
pathophysiology
in
preclinical
rodent
models
humans.
More
research
needed
better
understand
human
how
multifactorial
contribute
disease
pathogenesis
progression.
Environmental Pollution,
Год журнала:
2022,
Номер
302, С. 119079 - 119079
Опубликована: Март 1, 2022
The
excessive
proliferation
of
Microcystis
aeruginosa
can
lead
to
ecological
damage,
economic
losses,
and
threaten
animal
human
health.
For
controlling
blooms,
microorganism-based
methods
have
attracted
much
attention
from
researchers
because
their
eco-friendliness
species-specificity.
Herein,
we
first
found
that
a
Paucibacter
strain
exhibits
algicidal
activity
against
M.
microcystin
degradation
capability.
DH15
(2.1
×
104
CFU/ml)
(2
106
cells/ml)
was
94.9%
within
36
h
exposure.
also
degraded
(1.6
mg/L)
up
62.5%
after
72
h.
We
demonstrated
the
be
mediated
by
physical
attachment
indirect
attack:
(1)
Both
washed
cells
cell-free
supernatant
could
kill
efficiently;
(2)
Treatment
with
supernatants
caused
oxidative
stress,
altered
fatty
acid
profile,
damaged
photosynthetic
system,
carbohydrate,
protein
metabolism
in
aeruginosa.
combination
direct
attacks
supported
exerts
high
expression
most
key
genes
responsible
for
photosynthesis,
antioxidant
activity,
synthesis,
other
metabolic
pathways
downregulated.
Strain
DH15,
its
capacity,
overcome
trade-off
between
blooms
increasing
concentration.
Our
findings
suggest
possesses
great
potential
control
outbreaks
blooms.
Plants,
Год журнала:
2023,
Номер
12(23), С. 3936 - 3936
Опубликована: Ноя. 22, 2023
Extensive
growth
of
microscopic
algae
and
cyanobacteria
results
in
harmful
algal
blooms
(HABs)
marine,
brackish,
freshwater
environments.
HABs
can
harm
humans
animals
through
their
toxicity
or
by
producing
ecological
conditions
such
as
oxygen
depletion,
which
kill
fish
other
economically
ecologically
important
organisms.
This
review
summarizes
the
reports
on
various
that
are
able
to
bring
about
marine
kills.
The
predominant
HABs,
toxins,
effects
fishes
spread
across
parts
globe
discussed.
mechanism
HAB-driven
kills
is
discussed
based
available
reports,
existing
mitigation
methods
presented.
Lapses
large-scale
implementation
demonstrated
under
laboratory
projected.
Clay-related
technologies
nano-sorption-based
nanotechnologies,
although
proven
make
significant
contributions,
have
not
been
put
use
real-world
conditions.
gaps
technology
transfer
accomplished
prototypes
highlighted.
Further
uses
remote
sensing
machine
learning
state-of-the-art
techniques
for
detection
identification
recommended.
Toxins,
Год журнала:
2023,
Номер
15(3), С. 233 - 233
Опубликована: Март 21, 2023
Cyanobacteria
produce
a
wide
range
of
structurally
diverse
cyanotoxins
and
bioactive
cyanopeptides
in
freshwater,
marine,
terrestrial
ecosystems.
The
health
significance
these
metabolites,
which
include
genotoxic-
neurotoxic
agents,
is
confirmed
by
continued
associations
between
the
occurrence
animal
human
acute
toxic
events
and,
long
term,
cyanobacteria
neurodegenerative
diseases.
Major
mechanisms
related
to
neurotoxicity
compounds
(1)
blocking
key
proteins
channels;
(2)
inhibition
essential
enzymes
mammalian
cells
such
as
protein
phosphatases
phosphoprotein
well
new
molecular
targets
toll-like
receptors
4
8.
One
widely
discussed
implicated
includes
misincorporation
cyanobacterial
non-proteogenic
amino
acids.
Recent
research
provides
evidence
that
non-proteinogenic
acid
BMAA
produced
have
multiple
effects
on
translation
process
bypasses
proof-reading
ability
aminoacyl-tRNA-synthetase.
Aberrant
generated
non-canonical
may
be
factor
neuronal
death
neurodegeneration.
We
hypothesize
production
acids
more
general
mechanism,
leading
mistranslation,
affecting
homeostasis,
targeting
mitochondria
eukaryotic
cells.
It
can
evolutionarily
ancient
initially
developed
control
phytoplankton
communities
during
algal
blooms.
Outcompeting
gut
symbiotic
microorganisms
lead
dysbiosis,
increased
permeability,
shift
blood-brain-barrier
functionality,
eventually,
mitochondrial
dysfunction
high-energy
demanding
neurons.
A
better
understanding
interaction
metabolism
nervous
system
will
crucial
target
or
prevent
Journal of Environmental Management,
Год журнала:
2025,
Номер
375, С. 124362 - 124362
Опубликована: Фев. 1, 2025
The
Caloosahatchee
Estuary
in
southwest
Florida,
USA,
is
regularly
subject
to
the
introduction
of
toxic
Microcystis
aeruginosa
blooms,
often
originating
from
eutrophic
Lake
Okeechobee
via
C-43
Canal.
focus
this
study
was
determine
responses
one
these
introduced
blooms
progressively
elevated
salinity
levels
as
bloom
water
mass
moved
through
estuary.
In
upper
estuary,
salinities
were
freshwater,
and
surface
large
colonies
M.
observed,
along
with
peak
microcystin
toxin
concentrations
up
107
μg
L-1,
all
particulate
fraction.
mid-estuary,
increased
2-6,
again
259
however,
significant
extracellular
also
observed
(i.e.,
17.8
L-1),
suggesting
a
level
osmotic
stress
on
aeruginosa.
lower
ranged
6
25
very
few
viable
but
0.5
L-1)
present
throughout
column.
It
noteworthy
that
average
total
column
+
extracellular)
remained
constant
movement
during
its
transit
revealing
negligible
rate
degradation
ten-day
transit.
results
provide
insights
into
changes
distribution
gradient,
which
has
implications
for
management
risks
ecosystem
human
health,
how
may
be
affected
by
releases
three
control
structures
Discharge
rates
play
major
roles
Canal-Caloosahatchee
ecosystem.
potential
discharge
regulation
are
discussed
perspectives
allochthonous
autochthonous
origin.
