Genes & Development,
Год журнала:
2021,
Номер
35(7-8), С. 470 - 482
Опубликована: Апрель 1, 2021
Social
behavior
is
one
of
the
most
fascinating
and
complex
behaviors
in
humans
animals.
A
fundamental
process
social
communication
among
individuals.
It
relies
on
capability
nervous
system
to
sense,
process,
interpret
various
signals
(e.g.,
pheromones)
respond
with
appropriate
decisions
actions.
Eusocial
insects,
including
ants,
some
bees,
wasps,
termites,
display
intriguing
cooperative
behavior.
Recent
advances
genetic
genomic
studies
have
revealed
key
genes
that
are
involved
pheromone
synthesis,
chemosensory
perception,
physiological
behavioral
responses
varied
pheromones.
In
this
review,
we
highlight
pathways
regulate
queen
pheromone-mediated
communication,
discuss
evolutionary
changes
systems,
outline
prospects
functional
sociobiology.
Cell,
Год журнала:
2022,
Номер
185(17), С. 3104 - 3123.e28
Опубликована: Авг. 1, 2022
Aedes
aegypti
mosquitoes
are
a
persistent
human
foe,
transmitting
arboviruses
including
dengue
when
they
feed
on
blood.
Mosquitoes
intensely
attracted
to
body
odor
and
carbon
dioxide,
which
detect
using
ionotropic
chemosensory
receptors
encoded
by
three
large
multi-gene
families.
Genetic
mutations
that
disrupt
the
olfactory
system
have
modest
effects
attraction,
suggesting
redundancy
in
coding.
The
canonical
view
is
sensory
neurons
each
express
single
receptor
defines
its
ligand
selectivity.
We
discovered
Ae.
uses
different
organizational
principle,
with
many
co-expressing
multiple
genes.
In
vivo
electrophysiology
demonstrates
broad
ligand-sensitivity
of
mosquito
depends
this
non-canonical
co-expression.
afforded
an
co-express
may
increase
robustness
explain
our
long-standing
inability
detection
humans
mosquitoes.
Proper
differentiation
of
sperm
from
germline
stem
cells,
essential
for
production
the
next
generation,
requires
dramatic
changes
in
gene
expression
that
drive
remodeling
almost
all
cellular
components,
chromatin
to
organelles
cell
shape
itself.
Here,
we
provide
a
single
nucleus
and
RNA-seq
resource
covering
spermatogenesis
Drosophila
starting
in-depth
analysis
adult
testis
(snRNA-seq)
data
Fly
Cell
Atlas
(FCA)
study.
With
over
44,000
nuclei
6000
cells
analyzed,
identification
rare
types,
mapping
intermediate
steps
differentiation,
potential
identify
new
factors
impacting
fertility
or
controlling
supporting
somatic
cells.
We
justify
assignment
key
types
using
combinations
known
markers,
situ
hybridization,
extant
protein
traps.
Comparison
datasets
proved
particularly
revealing
dynamic
developmental
transitions
differentiation.
To
complement
web-based
portals
hosted
by
FCA,
compatible
with
commonly
used
software
such
as
Seurat
Monocle.
The
foundation
provided
here
will
enable
communities
studying
interrogate
candidate
genes
test
function
vivo.
In
both
invertebrates
such
as
Drosophila
and
vertebrates
mouse
or
human,
the
brain
contains
most
diverse
population
of
cell
types
any
tissue.
It
is
generally
accepted
that
transcriptional
diversity
an
early
step
in
generating
neuronal
glial
diversity,
followed
by
establishment
a
unique
gene
expression
profile
determines
morphology,
connectivity,
function.
,
there
are
two
neural
stem
cells,
called
Type
1
(T1)
2
(T2)
neuroblasts.
contrast
to
T1
neuroblasts,
T2
neuroblasts
generate
intermediate
progenitors
(INPs)
expand
number
types.
The
T2-derived
neurons
contributes
large
portion
central
complex
(CX),
conserved
region
plays
role
sensorimotor
integration.
Recent
work
has
revealed
much
connectome
CX,
but
how
this
assembled
remains
unclear.
Mapping
derived
from
necessary
linking
assembly
adult
brain.
Here
we
perform
single
nuclei
RNA
sequencing
neuroblast-derived
glia.
We
identify
clusters
containing
all
known
classes
glia,
male/female
enriched,
161
neuron-specific
clusters.
map
neurotransmitter
neuropeptide
transcription
factor
combinatorial
codes
for
each
cluster
(presumptive
neuron
subtype).
This
directs
functional
studies
determine
whether
code
specifies
distinct
type
within
CX.
several
columnar
subtypes
(NPF+
AstA+)
closely
related
Our
data
support
hypothesis
represents
one
few
subtypes.
Recognition
of
environmental
cues
is
essential
for
the
survival
all
organisms.
Transcriptional
changes
occur
to
enable
generation
and
function
neural
circuits
underlying
sensory
perception.
To
gain
insight
into
these
changes,
we
generated
single-cell
transcriptomes
Drosophila
olfactory-
(ORNs),
thermo-,
hygro-sensory
neurons
at
an
early
developmental
adult
stage
using
single-nucleus
RNA
sequencing.
We
discovered
that
ORNs
maintain
expression
same
olfactory
receptors
across
development.
Using
receptor
computational
approaches,
matched
transcriptomic
clusters
corresponding
anatomically
physiologically
defined
neuron
types
multiple
stages.
found
cell-type-specific
partly
reflected
axon
trajectory
choices
in
development
modality
adults.
uncovered
stage-specific
genes
could
regulate
wiring
responses
distinct
ORN
types.
Collectively,
our
data
reveal
features
biology
provide
a
resource
future
studies
their
physiology.
Drosophila
melanogaster
is
a
powerful,
long-standing
model
for
metazoan
development
and
gene
regulation.
We
profiled
chromatin
accessibility
in
almost
1
million
expression
half
nuclei
from
overlapping
windows
spanning
the
entirety
of
embryogenesis.
Leveraging
developmental
asynchronicity
within
embryo
collections,
we
applied
deep
neural
networks
to
infer
age
each
nucleus,
resulting
continuous,
multimodal
views
molecular
cellular
transitions
absolute
time.
identify
cell
lineages;
their
relationships;
link
dynamic
changes
enhancer
usage,
transcription
factor
(TF)
expression,
TFs’
cognate
motifs.
With
these
data,
dynamics
usage
can
be
explored
across
lineages
at
scale
minutes,
including
precise
like
zygotic
genome
activation.
PLoS Biology,
Год журнала:
2022,
Номер
20(6), С. e3001677 - e3001677
Опубликована: Июнь 13, 2022
The
valence
and
salience
of
individual
odorants
are
modulated
by
an
animal’s
innate
preferences,
learned
associations,
internal
state,
as
well
the
context
odorant
presentation.
mechanisms
underlying
context-dependent
flexibility
in
odor
not
fully
understood.
Here,
we
show
that
behavioral
response
Caenorhabditis
elegans
to
bacterially
produced
medium-chain
alcohols
switches
from
attraction
avoidance
when
presented
background
a
subset
additional
attractive
chemicals.
This
reversal
preference
is
driven
cell-autonomous
inversion
these
single
AWC
olfactory
neuron
pair.
We
find
while
inhibit
neurons
drive
attraction,
instead
activate
promote
second
AWC-sensed
odorant.
opposing
responses
via
engagement
distinct
odorant-directed
signal
transduction
pathways
within
AWC.
Our
results
indicate
recruitment
alternative
intracellular
signaling
sensory
type
conveys
opposite
hedonic
valences,
thereby
providing
robust
mechanism
for
encoding
discrimination
at
periphery.
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2021,
Номер
unknown
Опубликована: Июль 5, 2021
Abstract
The
ability
to
obtain
single
cell
transcriptomes
for
stable
types
and
dynamic
states
is
ushering
in
a
new
era
biology.
We
created
the
Tabula
Drosophilae
,
atlas
of
adult
fruit
fly
which
includes
580k
cells
from
15
individually
dissected
sexed
tissues
as
well
entire
head
body.
Over
100
researchers
community
contributed
annotations
>250
distinct
across
all
tissues.
provide
an
in-depth
analysis
type-related
gene
signatures
transcription
factor
markers,
sexual
dimorphism,
whole
animal.
Analysis
common
that
are
shared
between
tissues,
such
blood
muscle
cells,
allowed
discovery
rare
tissue-specific
subtypes.
This
provides
valuable
resource
Drosophila
serves
comprehensive
reference
study
genetic
perturbations
disease
models
at
resolution.
