PLoS Genetics,
Год журнала:
2019,
Номер
15(2), С. e1007903 - e1007903
Опубликована: Фев. 4, 2019
The
impact
of
pesticides
on
the
health
bee
pollinators
is
determined
in
part
by
capacity
detoxification
systems
to
convert
these
compounds
less
toxic
forms.
For
example,
recent
work
has
shown
that
cytochrome
P450s
CYP9Q
subfamily
are
critically
important
defining
sensitivity
honey
bees
and
bumblebees
pesticides,
including
neonicotinoid
insecticides.
However,
it
currently
unclear
if
solitary
have
functional
equivalents
enzymes
with
potentially
serious
implications
relation
their
metabolise
certain
To
address
this
question,
we
sequenced
genome
red
mason
bee,
Osmia
bicornis,
most
abundant
economically
species
Central
Europe.
We
show
O.
bicornis
lacks
but,
despite
this,
exhibits
low
acute
toxicity
N-cyanoamidine
thiacloprid.
Functional
studies
revealed
variation
N-nitroguanidine
neonicotinoids
does
not
reside
differences
affinity
for
nicotinic
acetylcholine
receptor
or
speed
cuticular
penetration.
Rather,
a
P450
within
CYP9BU
subfamily,
shared
ancestry
Apidae
metabolises
thiacloprid
vitro
confers
tolerance
vivo.
Our
data
reveal
conserved
pathways
model
eusocial
key
evolution
specific
pesticide-metabolising
two
groups.
discovery
can
act
as
metabolic
defence
against
be
leveraged
avoid
negative
pesticide
impacts
pollinators.
Molecular Biology and Evolution,
Год журнала:
2016,
Номер
unknown, С. msw264 - msw264
Опубликована: Ноя. 19, 2016
DNA
methylation
contributes
to
gene
and
transcriptional
regulation
in
eukaryotes,
therefore
has
been
hypothesized
facilitate
the
evolution
of
plastic
traits
such
as
sociality
insects.
However,
is
sparsely
studied
Therefore,
we
documented
patterns
across
a
wide
diversity
We
predicted
that
underlying
enzymatic
machinery
concordant
with
methylation.
Finally,
given
suggestion
facilitated
social
Hymenoptera,
tested
hypothesis
system
will
be
associated
presence/absence
among
other
insect
orders.
found
widespread,
detected
all
orders
examined
except
Diptera
(flies).
Whole
genome
bisulfite
sequencing
showed
differed
levels
Hymenopteran
(ants,
bees,
wasps
sawflies)
had
some
lowest
levels,
including
several
potential
losses.
Blattodea
(cockroaches
termites)
show
possible
patterns,
loss
eusocial
species
whereas
solitary
highest
levels.
Species
do
not
always
possess
typical
machinery.
identified
duplication
event
maintenance
methyltransferase
1
(DNMT1)
shared
by
paralogs
have
experienced
divergent,
nonneutral
evolution.
This
suggests
alternative
pathways
may
exist.
Phylogenetically
corrected
comparisons
revealed
no
evidence
supports
evolutionary
association
between
Future
functional
studies
required
advance
our
understanding
Biological reviews/Biological reviews of the Cambridge Philosophical Society,
Год журнала:
2017,
Номер
93(1), С. 28 - 54
Опубликована: Май 15, 2017
More
than
a
century
ago,
William
Morton
Wheeler
proposed
that
social
insect
colonies
can
be
regarded
as
superorganisms
when
they
have
morphologically
differentiated
reproductive
and
nursing
castes
are
analogous
to
the
metazoan
germ-line
soma.
Following
rise
of
sociobiology
in
1970s,
Wheeler's
insights
were
largely
neglected,
we
left
with
multiple
new
superorganism
concepts
mutually
inconsistent
uninformative
on
how
superorganismality
originated.
These
difficulties
traced
broadened
sociobiological
concept
eusociality,
which
denies
physical
queen-worker
caste
differentiation
is
universal
hallmark
superorganismal
colonies.
Unlike
early
evolutionary
naturalists
geneticists
such
Weismann,
Huxley,
Fisher
Haldane,
who
set
out
explain
acquisition
an
unmated
worker
caste,
goal
was
understand
evolution
broad-brush
convenience
category
covers
most
forms
cooperative
breeding.
By
lumping
diverse
spectrum
systems
into
single
category,
drawing
attention
away
from
distinct
quantifiable
traits,
tradition
has
impeded
straightforward
connections
between
inclusive
fitness
theory
major
transitions
paradigm
for
understanding
irreversible
shifts
higher
organizational
complexity.
We
evaluate
history
by
these
inconsistencies
accumulated,
develop
common-cause
approach
origins
all
eukaryote
hierarchical
complexity,
use
Hamilton's
rule
argue
directly
comparable.
show
only
original
definition
unambiguously
linked
context-dependent
altruism
unconditional
permanently
ants,
corbiculate
bees,
vespine
wasps
termites.
strictly
monogamous
parents
necessary,
albeit
not
sufficient
condition
superorganismality,
single-zygote
bottlenecking
being
necessary
but
convergent
complex
soma
across
multicellular
eukaryotes.
infer
conflict
reduction
origin
any
transitions,
conclude
controversies
over
status
primarily
emanate
arbitrarily
defined
itself.
Nature Ecology & Evolution,
Год журнала:
2018,
Номер
2(3), С. 557 - 566
Опубликована: Фев. 2, 2018
Abstract
Around
150
million
years
ago,
eusocial
termites
evolved
from
within
the
cockroaches,
50
before
Hymenoptera,
such
as
bees
and
ants,
appeared.
Here,
we
report
2-Gb
genome
of
German
cockroach,
Blattella
germanica
,
1.3-Gb
drywood
termite
Cryptotermes
secundus
.
We
show
evolutionary
signatures
eusociality
by
comparing
genomes
transcriptomes
three
cockroach
against
background
16
other
non-eusocial
insects.
Dramatic
adaptive
changes
in
genes
underlying
production
perception
pheromones
confirm
importance
chemical
communication
termites.
These
are
accompanied
major
gene
regulation
molecular
evolution
caste
determination.
Many
these
results
parallel
mechanisms
Hymenoptera.
However,
specific
solutions
remarkably
different,
thus
revealing
a
striking
case
convergence
one
transitions
biological
complexity.
Proceedings of the National Academy of Sciences,
Год журнала:
2015,
Номер
112(45), С. 13970 - 13975
Опубликована: Окт. 19, 2015
Significance
In
eusocial
insect
societies,
such
as
ants
and
some
bees
wasps,
phenotypes
are
highly
plastic,
generating
alternative
(queens
workers)
from
the
same
genome.
The
greatest
plasticity
is
found
in
simple
which
individuals
can
switch
between
adults.
genomic,
transcriptional,
epigenetic
underpinnings
of
largely
unknown.
contrast
to
complex
societies
honeybee,
we
find
that
lack
distinct
transcriptional
differentiation
coherently
patterned
DNA
methylomes.
Instead,
defined
by
subtle
network
organization.
These
traits
may
facilitate
genomic
plasticity.
insights
resources
will
stimulate
new
approaches
hypotheses
help
unravel
processes
create
phenotypic
Annual Review of Entomology,
Год журнала:
2018,
Номер
64(1), С. 227 - 242
Опубликована: Окт. 12, 2018
The
evolutionary
origins
of
the
three
major
families
chemoreceptors
in
arthropods-the
odorant
receptor
(OR),
gustatory
(GR),
and
ionotropic
(IR)
families-occurred
at
base
Insecta,
Animalia,
Protostomia,
respectively.
Comparison
family
sizes
across
arthropods
reveals
a
generally
positive
correlation
with
their
widely
disparate
complexity
chemical
ecology.
Closely
related
species
reveal
ongoing
processes
gene
evolution,
including
duplication,
divergence,
pseudogenization,
loss,
that
mediate
these
larger
patterns.
Sets
paralogous
receptors
within
selection
on
amino
acids
regions
likely
to
contribute
ligand
binding
specificity.
Ligands
many
ORs
some
GRs
IRs
have
been
identified;
however,
identification
for
more
is
needed,
as
are
structures
OR/GR
superfamily,
improve
our
understanding
molecular
evolution
ecologically
important
arthropods.
Molecular Phylogenetics and Evolution,
Год журнала:
2018,
Номер
130, С. 121 - 131
Опубликована: Окт. 13, 2018
Two
increasingly
popular
approaches
to
reconstruct
the
Tree
of
Life
involve
whole
transcriptome
sequencing
and
target
capture
ultraconserved
elements
(UCEs).
Both
methods
can
be
used
generate
large,
multigene
datasets
for
analysis
phylogenetic
relationships
in
non-model
organisms.
While
targeted
exon
across
divergent
lineages
is
now
a
standard
method,
it
still
not
clear
if
UCE
data
readily
combined
with
published
transcriptomes.
In
this
study,
we
evaluate
combination
UCEs
transcriptomes
single
using
genome-,
transcriptome-,
79
bees
largest
most
biologically
diverse
bee
family,
Apidae.
Using
existing
tools,
first
developed
workflow
assemble
phylogenomic
from
different
sources
produced
two
large
nucleotide
matrices
data.
We
then
reconstructed
phylogeny
Apidae
concatenation-
coalescent-based
methods,
critically
evaluated
resulting
phylogenies
context
previously
genetic,
genomic,
morphological
sets.
Our
estimated
trees
are
robustly
supported
largely
congruent
previous
molecular
hypotheses,
deep
nodes
shallow
species-level
phylogenies.
Moreover,
approach
allows
us
resolve
controversial
apid
Life,
by
clarifying
among
genera
orchid
(Euglossini)
monophyly
Centridini.
Additionally,
present
novel
evidence
supporting
clade
cleptoparasitic
placement
enigmatic,
oil-collecting
(Ctenoplectra
Tetrapedia).
Lastly,
propose
revised
classification
family
that
reflects
our
improved
understanding
higher-level
relationships.
Proceedings of the National Academy of Sciences,
Год журнала:
2022,
Номер
119(4)
Опубликована: Янв. 18, 2022
Life
on
Earth
has
evolved
from
initial
simplicity
to
the
astounding
complexity
we
experience
today.
Bacteria
and
archaea
have
largely
excelled
in
metabolic
diversification,
but
eukaryotes
additionally
display
abundant
morphological
innovation.
How
these
innovations
come
about
what
constraints
are
there
origins
of
novelty
continuing
maintenance
biodiversity
Earth?
The
history
life
code
for
working
parts
cells
systems
written
genome.
BioGenome
Project
proposed
that
genomes
all
extant,
named
eukaryotes—about
2
million
species—should
be
sequenced
high
quality
produce
a
digital
library
Earth,
beginning
with
strategic
phylogenetic,
ecological,
high-impact
priorities.
Here
discuss
why
should
sequence
eukaryotic
species,
not
just
representative
few
scattered
across
many
branches
tree
life.
We
suggest
questions
evolutionary
ecological
significance
will
only
addressable
when
whole-genome
data
representing
divergences
at
branchings
or
species
natural
ecosystems
available.
envisage
genomic
foster
understanding
ongoing
processes
speciation,
adaptation,
organismal
dependencies
within
entire
ecosystems.
These
explorations
resolve
long-standing
problems
phylogenetics,
evolution,
ecology,
conservation,
agriculture,
bioindustry,
medicine.
