Diversity,
Год журнала:
2023,
Номер
15(12), С. 1209 - 1209
Опубликована: Дек. 9, 2023
The
mitochondrial
genome
(mitogenome)
has
been
widely
used
for
structural
comparisons
and
phylogenetic
analyses
of
Hemiptera
groups
at
different
taxonomic
levels.
However,
little
is
known
about
the
mitogenomic
characteristics
species
from
Antheminia
Carpocoris,
two
morphologically
similar
genera
in
Pentatomidae
family,
their
relationships
need
to
be
further
confirmed.
In
this
study,
mitogenomes
varicornis
(Jakovlev,
1874)
Carpocoris
purpureipennis
(De
Geer,
1773)
were
sequenced
analyzed.
Coupled
with
previously
published
Pentatomidae,
we
performed
a
analysis.
A.
C.
are
conserved
terms
genomic
structure,
base
composition,
codon
usage,
tRNA
secondary
structure.
Each
mitogenome
contains
typical
37
genes
control
region
all
arranged
same
order
as
ancestral
insect
mitogenome.
Nucleotide
composition
highly
biased
third
PCGs
displaying
highest
A
+
T
content.
Phylogenetic
analysis
strongly
supports
sister
relationship
between
purpureipennis.
trees
show
strong
support
monophyly
Asopinae
Phyllocephalinae,
while
Pentatominae
Podopinae
was
rejected.
Our
study
enriches
database
provides
valuable
resource
evolutionary
Pentatomidae.
Zootaxa,
Год журнала:
2022,
Номер
5097(1), С. 1 - 88
Опубликована: Фев. 8, 2022
A
checklist
of
5
subfamilies,
108
genera,
and
246
species
stinks
bugs
(Hemiptera,
Pentatomidae)
from
Colombia
is
provided.
Three
genera
[Andrallus
Bergroth,
Placocoris
Mayr,
Pseudobebaeus
Distant],
eight
[Arocera
spectabilis
(Drury),
Andrallus
spinidens
(Fabricius),
Banasa
excavata
Thomas,
saileri
varians
Stl,
Chinavia
scutellata
(Distant),
Pelidnocoris
haglundi
Ruckes,
truncatus
(Fallou)]
are
recorded
for
the
first
time
Colombia.
Images
dorsal
external
habitus
all
that
occur
in
offered.
This
a
comprehensive
list
stink
presented,
providing
baseline
to
develop
further
studies
this
group
true
bugs.
Biology,
Год журнала:
2021,
Номер
10(11), С. 1161 - 1161
Опубликована: Ноя. 10, 2021
The
family
Pentatomidae
(stink
bugs)
is
one
of
the
largest
groups
in
Heteroptera,
containing
many
important
pests
and
natural
enemies.
They
exhibit
highly
diversified
feeding
habits
related
structural
modifications,
but
key
morphological
characteristics
associated
with
habit
radiation
remain
unclear.
In
current
study,
we
address
this
question
by
analyzing
variations
organs.
We
compare
ultrastructures
antennae
mouthparts
across
chosen
17
species
Pentatomidae,
representing
both
plant
feeders
predators
from
four
subfamilies.
A
strong
association
between
ultrastructural
adaptation
transition
has
been
revealed.
long,
sharp,
hook-like
mandibular
teeth
maxillary
barbs
are
exclusively
present
predatory
suggesting
their
tight
shift
phytophagy
to
predation.
Significant
differences
phytophagous
also
found
antennal
labial
sensilla
types
arrangements,
implying
function
food
selection.
Our
data
identify
a
series
structures
among
stink
bugs,
which
will
facilitate
future
studies
on
adaptive
evolution
habits,
utilization,
population
control
economic
as
well
other
heteropteran
lineages.
Diversity,
Год журнала:
2023,
Номер
15(12), С. 1209 - 1209
Опубликована: Дек. 9, 2023
The
mitochondrial
genome
(mitogenome)
has
been
widely
used
for
structural
comparisons
and
phylogenetic
analyses
of
Hemiptera
groups
at
different
taxonomic
levels.
However,
little
is
known
about
the
mitogenomic
characteristics
species
from
Antheminia
Carpocoris,
two
morphologically
similar
genera
in
Pentatomidae
family,
their
relationships
need
to
be
further
confirmed.
In
this
study,
mitogenomes
varicornis
(Jakovlev,
1874)
Carpocoris
purpureipennis
(De
Geer,
1773)
were
sequenced
analyzed.
Coupled
with
previously
published
Pentatomidae,
we
performed
a
analysis.
A.
C.
are
conserved
terms
genomic
structure,
base
composition,
codon
usage,
tRNA
secondary
structure.
Each
mitogenome
contains
typical
37
genes
control
region
all
arranged
same
order
as
ancestral
insect
mitogenome.
Nucleotide
composition
highly
biased
third
PCGs
displaying
highest
A
+
T
content.
Phylogenetic
analysis
strongly
supports
sister
relationship
between
purpureipennis.
trees
show
strong
support
monophyly
Asopinae
Phyllocephalinae,
while
Pentatominae
Podopinae
was
rejected.
Our
study
enriches
database
provides
valuable
resource
evolutionary
Pentatomidae.