Molecular & Cellular Proteomics,
Journal Year:
2023,
Volume and Issue:
22(8), P. 100610 - 100610
Published: June 29, 2023
Reproductive
traits
often
evolve
rapidly
between
species.
Understanding
the
causes
and
consequences
of
this
rapid
divergence
requires
characterization
female
male
reproductive
proteins
their
effect
on
fertilization
success.
Species
in
Drosophila
virilis
clade
exhibit
rampant
interspecific
incompatibilities,
making
them
ideal
for
studies
diversification
role
speciation.
Importantly,
intraejaculate
protein
abundance
allocation
is
poorly
understood.
Here,
we
identify
quantify
transferred
ejaculate
proteome
using
multiplexed
isobaric
labeling
lower
tract
before
immediately
after
mating
three
species
group.
We
identified
over
200
putative
proteins,
many
which
show
differential
species,
suggesting
that
males
transfer
a
species-specific
seminal
fluid
during
copulation.
also
2000
contain
female-specific
serine-type
endopeptidases
showed
elevated
rates
molecular
evolution,
similar
to
some
proteins.
Our
findings
suggest
can
manifest
terms
patterns.
Nature Communications,
Journal Year:
2023,
Volume and Issue:
14(1)
Published: Sept. 5, 2023
The
reaction
of
CO2
with
H2O
to
form
bicarbonate
(HCO3-)
and
H+
controls
sperm
motility
fertilization
via
HCO3--stimulated
cAMP
synthesis.
A
complex
network
signaling
proteins
participates
in
this
reaction.
Here,
we
identify
key
players
that
regulate
intracellular
pH
(pHi)
HCO3-
human
by
quantitative
mass
spectrometry
(MS)
kinetic
patch-clamp
fluorometry.
resting
pHi
is
set
amiloride-sensitive
Na+/H+
exchange.
sperm-specific
putative
exchanger
SLC9C1,
unlike
its
sea
urchin
homologue,
not
gated
voltage
or
cAMP.
Transporters
channels
implied
transport
are
detected,
may
be
present
at
copy
numbers
<
10
molecules/sperm
cell.
Instead,
produced
diffusion
into
cells
readjustment
the
CO2/HCO3-/H+
equilibrium.
proton
channel
Hv1
serve
as
a
unidirectional
valve
blunts
acidification
ensuing
from
This
work
provides
new
framework
for
study
male
infertility.
Molecular & Cellular Proteomics,
Journal Year:
2022,
Volume and Issue:
21(10), P. 100281 - 100281
Published: Aug. 17, 2022
Spermatozoa
are
central
to
fertilization
and
the
evolutionary
fitness
of
sexually
reproducing
organisms.
As
such,
a
deeper
understanding
sperm
proteomes
(and
associated
reproductive
tissues)
has
proven
critical
advancement
fields
sexual
selection
biology.
Due
their
extraordinary
complexity,
proteome
depth-of-coverage
is
dependent
on
advancements
in
technology
related
bioinformatics,
both
which
have
made
significant
decade
since
last
Drosophila
was
published.
Here,
we
provide
an
updated
version
melanogaster
(DmSP3)
using
improved
separation
detection
methods
genome
annotation.
Combined
with
previous
versions
proteome,
DmSP3
contains
total
3176
proteins,
first
label-free
quantitation
for
2125
proteins.
The
top
20
most
abundant
proteins
included
structural
elements
α-
β-tubulins
leucyl-aminopeptidases.
Both
gene
content
protein
abundance
were
significantly
reduced
X
chromosome,
consistent
prior
genomic
studies
chromosome
evolution.
We
identified
9
16
Y-linked
including
known
testis-specific
male
fertility
factors.
also
almost
one-half
ribosomal
DmSP3.
role
this
subset
unknown.
Surprisingly,
our
expanded
122
seminal
fluid
(Sfps),
originally
accessory
glands.
show
that
fraction
'sperm-associated
Sfps'
recalcitrant
concentrated
salt
detergent
treatments,
suggesting
subclass
Sfps
expressed
testes
may
additional
functions
sperm,
per
se.
Overall,
results
add
growing
landscape
biology
particular
provides
quantitative
evidence
at
level
findings
supporting
meiotic
sex-chromosome
inactivation
model
male-specific
Cold Spring Harbor Perspectives in Biology,
Journal Year:
2023,
Volume and Issue:
16(10), P. a041429 - a041429
Published: Dec. 27, 2023
How
barriers
to
gene
flow
arise
and
are
maintained
key
questions
in
evolutionary
biology.
Speciation
research
has
mainly
focused
on
that
occur
either
before
mating
or
after
zygote
formation.
In
comparison,
postmating
prezygotic
(PMPZ)
isolation-a
barrier
acts
gamete
release
but
formation-is
less
frequently
investigated
may
hold
a
unique
role
generating
biodiversity.
Here
we
discuss
the
distinctive
features
of
PMPZ
isolation,
including
primary
drivers
molecular
mechanisms
underpinning
isolation.
We
then
present
first
comprehensive
survey
isolation
research,
revealing
it
is
widespread
form
across
eukaryotes.
The
also
exposes
obstacles
studying
part
attributable
challenges
involved
directly
measuring
uncovering
its
causal
mechanisms.
Finally,
identify
outstanding
knowledge
gaps
provide
recommendations
for
improving
future
This
will
allow
us
better
understand
nature
this
often-neglected
reproductive
contribution
speciation.
Development,
Journal Year:
2024,
Volume and Issue:
151(20)
Published: April 4, 2024
ABSTRACT
The
ovarian
microenvironment
plays
a
crucial
role
in
ensuring
the
reproductive
success
of
viviparous
teleosts.
However,
molecular
mechanism
underlying
interaction
between
spermatozoa
and
has
remained
elusive.
This
study
aimed
to
contribute
better
understanding
this
process
black
rockfish
(Sebastes
schlegelii)
using
integrated
multi-omics
approaches.
results
demonstrated
significant
upregulation
complement-related
proteins
pattern
recognition
receptors,
along
with
remodeling
glycans
on
surface
at
early
spermatozoa-storage
stage
(1
month
after
mating).
As
were
stored
over
time,
complement
progressively
repressed
by
tryptophan
hippurate,
indicating
remarkable
adaptation
microenvironment.
Before
fertilization,
notable
cellular
junction
was
observed.
revealed
that
bind
ZPB2a
protein
through
GSTM3
promotes
survival
movement
GSTM3-dependent
manner.
These
findings
shed
light
key
influences
dynamics
female
tract,
providing
valuable
insights
into
networks
regulating
species
internal
fertilization.
Biology,
Journal Year:
2023,
Volume and Issue:
12(10), P. 1283 - 1283
Published: Sept. 26, 2023
Following
insect
mating,
females
often
exhibit
a
series
of
physiological,
behavioral,
and
gene
expression
changes.
These
post-mating
responses
(PMRs)
are
induced
by
seminal
fluid
components
other
than
sperm,
which
not
only
form
network
proteins
to
assist
sperm
localization,
supplement
female-specific
protein
requirements,
facilitate
the
formation
specialized
functional
structures,
but
also
activate
neuronal
signaling
pathways
in
insects.
This
review
primarily
discusses
roles
(SFPs)
octopamine
(OA)
various
PMRs
It
explores
regulatory
mechanisms
mediation
conditions
they
trigger
PMRs,
along
with
differences
induce.
Insect
involve
transition
from
signaling,
ultimately
manifested
through
neural
regulation
expression.
The
intricate
formed
as
result
significantly
influences
female
behavior
organ
function,
contributing
both
successful
reproduction
outcomes
sexual
conflict.
Proceedings of the Royal Society B Biological Sciences,
Journal Year:
2022,
Volume and Issue:
289(1977)
Published: June 29, 2022
Seminal
fluid
proteins
(Sfps)
modify
female
phenotypes
and
have
wide-ranging
evolutionary
implications
on
fitness
in
many
insects.
However,
the
Mexican
fruit
fly,
Anastrepha
ludens
,
a
highly
destructive
agricultural
pest,
functions
of
Sfps
are
still
largely
unknown.
To
gain
insights
into
regulated
by
Sfps,
we
used
nano-liquid
chromatography
mass
spectrometry
to
conduct
proteomic
analysis
soluble
from
reproductive
organs
A.
.
The
predicted
be
transferred
males
females
during
copulation
were
100
accessory
glands,
69
testes
20
ejaculatory
bulb,
resulting
141
unique
after
accounting
for
redundancies
multiple
tissues.
These
included
orthologues
Drosophila
melanogaster
involved
mainly
oogenesis,
spermatogenesis,
immune
response,
lifespan
fecundity.
In
particular,
found
one
protein
associated
with
olfactory
response
repellent
stimuli
(Scribble),
two
related
memory
formation
(aPKC
Shibire).
Together,
these
results
raise
possibility
that
could
play
role
regulating
responses
indicative
novel
this
important
pest.
iScience,
Journal Year:
2024,
Volume and Issue:
27(8), P. 110442 - 110442
Published: July 3, 2024
Although
RNA
is
found
in
the
seminal
fluid
of
diverse
organisms,
it
unknown
whether
functional
within
females.
We
developed
a
proteomic
method
(VESPA,
Variant
Enabled
SILAC
Proteomic
Analysis)
to
test
hypothesis
that
Drosophila
male
translated
by
67
male-derived,
female-translated
proteins
(mdFTPs)
female
lower
reproductive
tracts,
many
with
predicted
functions
relevant
reproduction.
Knockout
experiments
indicate
mdFTPs
play
roles
postmating
interactions,
affecting
fertilization
success,
and
formation/persistence
insemination
reaction
mass,
trait
hypothesized
be
involved
sexual
conflict.
These
findings
advance
our
understanding
reproduction
revealing
mechanism
molecular
interactions
between
sexes
strengthens
extends
influences
on
previously
unrecognized
ways.
Given
species
carry
fluid,
this
discovery
has
broad
significance
for
mechanisms
cooperation
conflict
during
Molecular Biology and Evolution,
Journal Year:
2024,
Volume and Issue:
41(7)
Published: July 1, 2024
Abstract
Plutella
xylostella
exhibits
exceptional
reproduction
ability,
yet
the
genetic
basis
underlying
high
reproductive
capacity
remains
unknown.
Here,
we
demonstrate
that
an
orphan
gene,
lushu,
which
encodes
a
sperm
protein,
plays
crucial
role
in
male
success.
Lushu
is
located
on
Z
chromosome
and
prevalent
across
different
P.
populations
worldwide.
We
subsequently
generated
lushu
mutants
using
transgenic
CRISPR/Cas9
system.
Knockout
of
results
reduced
mating
efficiency
accelerated
death
adult
males.
Furthermore,
our
findings
highlight
deficiency
transfer
sperms
from
males
to
females,
potentially
resulting
hindered
competition.
Additionally,
knockout
disrupted
gene
expression
energy-related
pathways
elevated
insulin
levels
Our
reveal
performance
has
evolved
through
birth
newly
evolved,
lineage-specific
with
enormous
potentiality
fecundity
These
insights
hold
valuable
implications
for
identifying
target
control,
particularly
relation
species-specific
traits
are
pivotal
determining
fecundity.
