G3 Genes Genomes Genetics,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 24, 2025
Abstract
The
mosquito
Aedes
aegypti
is
an
emerging
model
insect
for
invertebrate
neurobiology.
We
detail
the
application
of
a
dual
transgenesis
marker
system
that
reports
nature
transgene
integration
with
circular
donor
template
CRISPR–Cas9-mediated
homology-directed
repair
at
target
chemoreceptor
genes.
Employing
this
approach,
we
demonstrate
establishment
cell-type-specific
T2A-QF2
driver
lines
A.
olfactory
co-receptor
genes
Ir8a
and
orco
via
canonical
CO2
receptor
complex
gene
Gr1
noncanonical
involving
duplication
intended
cassette
separated
by
intervening
plasmid
sequence.
Using
Gr1+
sensory
neurons
as
example,
show
introgression
such
QUAS
responder
transgenes
into
yellow
cuticular
pigmentation
mutant
strain
facilitates
transcuticular
calcium
imaging
CO2-evoked
neural
activity
on
maxillary
palps
enhanced
sensitivity
relative
to
wild-type
mosquitoes
enveloped
dark
melanized
cuticle.
further
apply
Cre-loxP
excision
derive
marker-free
in-frame
fusions
clearly
map
axonal
projection
patterns
from
expressing
these
3
chemoreceptors
antennal
lobe
devoid
background
interference
3xP3-based
fluorescent
markers.
clear
recording
responses
in
central
brain
region
using
genetically
encoded
indicators
GCaMP6s
CaMPARI2.
Systematic
optimized
methods
different
stands
enable
mapping
circuits
peripheral
levels
coding
high
resolution.
Cell,
Год журнала:
2022,
Номер
185(22), С. 4099 - 4116.e13
Опубликована: Окт. 1, 2022
Some
people
are
more
attractive
to
mosquitoes
than
others,
but
the
mechanistic
basis
of
this
phenomenon
is
poorly
understood.
We
tested
mosquito
attraction
human
skin
odor
and
identified
who
exceptionally
or
unattractive
mosquitoes.
These
differences
were
stable
over
several
years.
Chemical
analysis
revealed
that
highly
produce
significantly
carboxylic
acids
in
their
emanations.
Mutant
lacking
chemosensory
co-receptors
Ir8a,
Ir25a,
Ir76b
severely
impaired
scent,
retained
ability
differentiate
weakly
people.
The
link
between
elevated
"mosquito-magnet"
phenotypes
genetic
mutations
acid
receptors
suggests
such
compounds
contribute
differential
attraction.
Understanding
why
some
humans
others
provides
insights
into
what
odorants
most
important
could
inform
development
effective
repellents.
Sensory
compensation
occurs
when
loss
of
one
sense
leads
to
enhanced
perception
by
another
sense.
We
have
identified
a
previously
undescribed
mechanism
sensory
in
female
Aedes
aegypti
mosquitoes.
Odorant
receptor
co-receptor
(
Orco
)
mutants
show
attraction
human
skin
temperature
and
increased
heat-evoked
neuronal
activity
foreleg
neurons.
Ir140
,
foreleg-enriched
member
the
ionotropic
(IR)
superfamily
receptors,
is
up-regulated
mutant
legs.
double
do
not
heat
seeking
seen
single
mutants,
suggesting
that
up-regulation
key
underlying
mutants.
Because
expression
sparse
legs,
this
requires
an
indirect,
long-range
mechanism.
Our
findings
highlight
how
mosquitoes,
despite
suffering
olfactory
loss,
maintain
overall
effectiveness
their
host-seeking
behavior
up-regulating
temperature,
further
enhancing
status
as
most
dangerous
predator
humans.
PLoS Biology,
Год журнала:
2025,
Номер
23(1), С. e3002730 - e3002730
Опубликована: Янв. 30, 2025
Food
presents
a
multisensory
experience,
with
visual,
taste,
and
olfactory
cues
being
important
in
allowing
an
animal
to
determine
the
safety
nutritional
value
of
given
substance.
Texture,
however,
remains
surprisingly
unexplored
aspect,
despite
providing
key
information
about
state
food
through
properties
such
as
hardness,
liquidity,
granularity.
perception
is
achieved
by
specialised
sensory
neurons,
which
themselves
are
defined
receptor
genes
they
express.
While
it
was
assumed
that
neurons
respond
one
or
few
closely
related
stimuli,
more
recent
findings
challenge
this
notion
support
evidence
certain
broadly
tuned.
In
Drosophila
taste
system,
gustatory
opposing
hedonic
valence
cues.
Here,
we
identified
larvae
ingest
navigate
towards
specific
substrate
hardnesses
probed
role
organs
behaviour.
By
developing
genetic
tool
targeting
specifically
organs,
show
these
major
contributors
for
evaluation
hardness
ingestion
decision-making.
We
find
ablation
not
only
results
loss
chemosensation,
but
also
navigation
preference
varied
hardnesses.
Furthermore,
primary
organ
exhibit
concurrent
physiological
responses
mechanical
multimodal
stimulation.
individual
house
independent
mechanisms
multiple
modalities,
challenging
assumptions
capabilities
neurons.
propose
further
investigations,
across
kingdom,
may
reveal
higher
complexity
than
currently
anticipated.
Journal of Comparative Physiology A,
Год журнала:
2023,
Номер
209(4), С. 467 - 488
Опубликована: Янв. 20, 2023
Abstract
Using
odors
to
find
food
and
mates
is
one
of
the
most
ancient
highly
conserved
behaviors.
Arthropods
from
flies
moths
crabs
use
broadly
similar
strategies
navigate
toward
odor
sources—such
as
integrating
flow
information
with
information,
comparing
concentration
across
sensors,
over
time.
Because
arthropods
share
many
homologous
brain
structures—antennal
lobes
for
processing
olfactory
mechanosensors
flow,
mushroom
bodies
(or
hemi-ellipsoid
bodies)
associative
learning,
central
complexes
navigation,
it
likely
that
these
closely
related
behaviors
are
mediated
by
neural
circuits.
However,
differences
in
types
they
seek,
physics
dispersal,
locomotion
water,
air,
on
substrates
mean
circuits
must
have
adapted
generate
a
wide
diversity
odor-seeking
In
this
review,
we
discuss
common
specializations
observed
navigation
behavior
arthropods,
review
our
current
knowledge
about
subserving
behavior.
We
propose
comparative
study
arthropod
nervous
systems
may
provide
insight
into
how
set
basic
circuit
structures
has
diversified
different
environments.
Cell,
Год журнала:
2023,
Номер
186(14), С. 3079 - 3094.e17
Опубликована: Июнь 15, 2023
Ants
communicate
via
large
arrays
of
pheromones
and
possess
expanded,
highly
complex
olfactory
systems,
with
antennal
lobes
in
the
brain
comprising
up
to
∼500
glomeruli.
This
expansion
implies
that
odors
could
activate
hundreds
glomeruli,
which
would
pose
challenges
for
higher-order
processing.
To
study
this
problem,
we
generated
transgenic
ants
expressing
genetically
encoded
calcium
indicator
GCaMP
sensory
neurons.
Using
two-photon
imaging,
mapped
complete
glomerular
responses
four
ant
alarm
pheromones.
Alarm
robustly
activated
≤6
activity
maps
three
inducing
panic
our
species
converged
on
a
single
glomerulus.
These
results
demonstrate
that,
rather
than
using
broadly
tuned
combinatorial
encoding,
employ
precise,
narrowly
tuned,
stereotyped
representations
The
identification
central
hub
glomerulus
behavior
suggests
simple
neural
architecture
is
sufficient
translate
pheromone
perception
into
behavioral
outputs.
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 25, 2025
The
female
mosquito's
remarkable
ability
to
hunt
humans
and
transmit
pathogens
relies
on
her
unique
biology.
Here,
we
present
the
Mosquito
Cell
Atlas
(MCA),
a
comprehensive
single-nucleus
RNA
sequencing
dataset
of
more
than
367,000
nuclei
from
19
dissected
tissues
adult
male
Aedes
aegypti
,
providing
cellular-level
resolution
mosquito
We
identify
novel
cell
types
expand
our
understanding
sensory
neuron
organization
chemoreceptors
all
tissues.
Our
analysis
uncovers
male-specific
cells
sexually
dimorphic
gene
expression
in
antenna
brain.
In
mosquitoes,
find
that
glial
brain,
rather
neurons,
undergo
most
extensive
transcriptional
changes
following
blood
feeding.
findings
provide
insights
into
cellular
basis
behavior
sexual
dimorphism.
MCA
aims
serve
as
resource
for
vector
biology
community,
enabling
systematic
investigation
cell-type
specific
across
