Current Biology,
Год журнала:
2020,
Номер
30(6), С. 988 - 1001.e4
Опубликована: Март 1, 2020
Animals
integrate
information
from
different
sensory
modalities,
body
parts,
and
time
points
to
inform
behavioral
choice,
but
the
relevant
comparisons
underlying
neural
circuits
are
still
largely
unknown.
We
use
grooming
behavior
of
Drosophila
melanogaster
as
a
model
investigate
that
govern
motor
sequence.
Flies
perform
movements
spontaneously,
when
covered
with
dust,
they
clean
their
bodies
following
an
anterior-to-posterior
After
investigating
modalities
could
detect
we
focus
on
mechanosensory
bristle
neurons,
whose
optogenetic
activation
induces
similar
Computational
modeling
predicts
higher
input
strength
head
will
cause
anterior
occur
first.
test
this
prediction
using
competition
assay
whereby
two
targeted
light
beams
independently
activate
neurons
parts.
find
initial
choice
movement
is
determined
by
ratio
inputs
In
dust-covered
flies,
change
result
successful
cleaning
movements.
Simulations
our
suggest
results
in
sequence
progression.
One
possibility
flies
frequent
between
posterior
inputs,
changing
ratios
drive
choices.
Alternatively,
may
track
temporal
given
part
measure
effectiveness.
The
first
hypothesis
supported
experiments:
iterative
spatial
parts
essential
for
organizing
Flexible
behaviors
over
long
timescales
are
thought
to
engage
recurrent
neural
networks
in
deep
brain
regions,
which
experimentally
challenging
study.
In
insects,
circuit
dynamics
a
region
called
the
central
complex
(CX)
enable
directed
locomotion,
sleep,
and
context-
experience-dependent
spatial
navigation.
We
describe
first
complete
electron
microscopy-based
connectome
of
Frontiers in Physiology,
Год журнала:
2019,
Номер
10
Опубликована: Авг. 2, 2019
Olfaction
is
an
essential
sensory
modality
for
insects
and
their
olfactory
environment
mostly
made
up
of
plant-emitted
volatiles.
The
terrestrial
vegetation
produces
amazing
diversity
volatile
compounds,
which
are
then
transported,
mixed,
degraded
in
the
atmosphere.
Each
insect
species
expresses
a
set
receptors
that
bind
part
compounds
present
its
habitat.
Insect
odorscapes
thus
defined
as
species-specific
spaces,
dependent
on
local
habitat,
dynamic
time.
Manipulations
pest-insect
promising
approach
to
answer
strong
demand
pesticide-free
plant-protection
strategies.
Moreover,
understanding
becomes
major
concern
context
global
change
environmental
stresses
populations.
A
considerable
amount
information
available
identity
volatiles
mediating
biotic
interactions
involve
insects.
However,
large
body
research
devoted
how
use
olfaction
locate
resources,
integrative
vision
has
rarely
been
reached.
This
article
aims
better
apprehend
nature
odorscape
importance
behavioral
ecology
by
reviewing
literature
specific
different
disciplines
from
plant
ecophysiology
neuroethology.
First,
we
discuss
determinants
composition,
production
plants
(section
"Plant
Metabolism
Volatile
Emissions")
filtering
during
detection
system
"Insect
Olfaction:
How
Plant
Compounds
Are
Encoded
Integrated
Olfactory
System").
We
summarize
physical
chemical
processes
chemicals
distribute
space
"Transportation
Spatial
Aspects
Odorscape")
time
"Temporal
Aspects:
Dynamics
following
sections
consider
ecological
background
odors
adapt
environment.
Habitat
provides
odor
modulate
responses
pheromones
other
signals
"Ecological
Importance
Odorscapes").
In
addition,
do
not
respond
inflexibly
single
elements
but
integrate
several
components
"Plasticity
Adaptation
Complex
Variable
finally
existing
methods
manipulation
sustainable
pest
control
potential
future
developments
agroecology
"Odorscapes
Protection
Agroecology").
Current Biology,
Год журнала:
2020,
Номер
30(16), С. 3183 - 3199.e6
Опубликована: Июль 2, 2020
Nervous
systems
contain
sensory
neurons,
local
projection
and
motor
neurons.
To
understand
how
these
building
blocks
form
whole
circuits,
we
must
distil
broad
classes
into
neuronal
cell
types
describe
their
network
connectivity.
Using
an
electron
micrograph
dataset
for
entire
Drosophila
melanogaster
brain,
reconstruct
the
first
complete
inventory
of
olfactory
projections
connecting
antennal
lobe,
insect
analog
mammalian
bulb,
to
higher-order
brain
regions
in
adult
animal
brain.
We
then
connect
this
extant
data
literature,
providing
synaptic-resolution
"holotypes"
both
heavily
investigated
previously
unknown
types.
Projection
neurons
are
approximately
twice
as
numerous
reported
by
light
level
studies;
stereotyped,
but
not
identical,
synapse
numbers
between
hemispheres.
The
lateral
horn,
cortical
amygdala,
is
main
target
information
has
been
shown
guide
innate
behavior.
Here,
find
new
connectivity
motifs,
including
axo-axonic
feedback,
inhibition
axons
a
large
population
convergence
different
inputs,
non-olfactory
inputs
memory-related
feedback
onto
third-order
These
features
less
prominent
mushroom
body
calyx,
piriform
cortex
center
associative
memory.
Our
work
provides
neuroanatomical
platform
future
studies
system.
Nature Communications,
Год журнала:
2022,
Номер
13(1)
Опубликована: Авг. 8, 2022
Abstract
To
navigate
towards
a
food
source,
animals
frequently
combine
odor
cues
about
source
identity
with
wind
direction
location.
Where
and
how
these
two
are
integrated
to
support
navigation
is
unclear.
Here
we
describe
pathway
the
Drosophila
fan-shaped
body
that
encodes
attractive
promotes
upwind
navigation.
We
show
neurons
throughout
this
encode
odor,
but
not
direction.
Using
connectomics,
identify
local
called
h∆C
receive
input
from
previously
described
pathway.
exhibit
odor-gated,
direction-tuned
activity,
sparse
activation
of
in
reproducible
direction,
activity
required
for
persistent
orientation
during
odor.
Based
on
connectome
data,
develop
computational
model
showing
can
promote
goal
such
as
an
source.
Our
results
suggest
processed
by
separate
pathways
within
goal-directed
Nature Neuroscience,
Год журнала:
2023,
Номер
26(5), С. 765 - 773
Опубликована: Апрель 24, 2023
Abstract
Animals
generate
neural
representations
of
their
heading
direction.
Notably,
in
insects,
direction
is
topographically
represented
by
the
activity
neurons
central
complex.
Although
head
cells
have
been
found
vertebrates,
connectivity
that
endows
them
with
properties
unknown.
Using
volumetric
lightsheet
imaging,
we
find
a
topographical
representation
neuronal
network
zebrafish
anterior
hindbrain,
where
sinusoidal
bump
rotates
following
directional
swims
fish
and
otherwise
stable
over
many
seconds.
Electron
microscopy
reconstructions
show
that,
although
cell
bodies
are
located
dorsal
region,
these
arborize
interpeduncular
nucleus,
reciprocal
inhibitory
stabilizes
ring
attractor
encodes
heading.
These
resemble
those
fly
complex,
showing
similar
circuit
architecture
principles
may
underlie
across
animal
kingdom
paving
way
to
an
unprecedented
mechanistic
understanding
networks
vertebrates.
Cell,
Год журнала:
2023,
Номер
186(12), С. 2556 - 2573.e22
Опубликована: Май 25, 2023
In
Drosophila,
a
dedicated
olfactory
channel
senses
male
pheromone,
cis-vaccenyl
acetate
(cVA),
promoting
female
courtship
while
repelling
males.
Here,
we
show
that
separate
cVA-processing
streams
extract
qualitative
and
positional
information.
cVA
sensory
neurons
respond
to
concentration
differences
in
5-mm
range
around
male.
Second-order
projection
encode
the
angular
position
of
by
detecting
inter-antennal
concentration,
which
are
amplified
through
contralateral
inhibition.
At
third
circuit
layer,
identify
47
cell
types
with
diverse
input-output
connectivity.
One
population
responds
tonically
flies,
second
is
tuned
looming,
integrates
taste
coincidentally
promote
mating.
The
separation
features
resembles
mammalian
what
where
visual
streams;
together
multisensory
integration,
this
enables
behavioral
responses
appropriate
specific
ethological
contexts.
Neuron,
Год журнала:
2020,
Номер
107(5), С. 924 - 940.e18
Опубликована: Июль 17, 2020
Spatial
maps
in
the
brain
are
most
accurate
when
they
linked
to
external
sensory
cues.
Here,
we
show
that
compass
Drosophila
is
direction
of
wind.
Shifting
wind
rightward
rotates
as
if
fly
were
turning
leftward,
and
vice
versa.
We
describe
mechanisms
several
computations
integrate
information
into
compass.
First,
an
intensity-invariant
representation
computed
by
comparing
left-right
mechanosensory
signals.
Then,
signals
reformatted
reduce
coding
biases
inherent
peripheral
mechanics,
cues
brought
same
circular
coordinate
system
represents
visual
self-motion
Because
incorporates
both
cues,
it
should
enable
navigation
under
conditions
where
no
single
cue
consistently
reliable.
These
results
how
local
can
be
transformed
a
global,
multimodal,
abstract
space.
