29 research outputs found
The Complete Mitochondrial Genome Sequence of the Planthopper, Sivaloka damnosus
The complete mitochondrial genome (mitogenome) sequence was determined from the plant hopper, Sivaloka damnosus Chow and Lu (Hemiptera: Issidae), a representative of the insect family Issidae. The genome is a circular molecule of 15,287 bp with a total A+T content of 76.5%. The gene content, order, and structure are identical to that in Drosophila melanogaster, which is considered ancestral for insects. All 13 protein-coding genes of the S. damnosus mitogenome have a putative inframe ATR methionine or ATT isoleucine codons as start signals. The usual termination codons (TAA and TAG) were found in 11 protein-coding genes. However, atp6, and nad4 have incomplete termination codons. All tRNAs show stable canonical clover-leaf structures similar to other insect mitochondrial tRNAs, except for tRNASer(AGN), which has a reduced DHU arm. The A+T-rich region or putative control region includes two extensive repeat regions. The first repeat region is composed of two sets of complicated repeat units, and these repetitive sequences are arranged alternately; the second contains ten 20 bp tandemly repetitive sequences. In the phylogenetic analyses based on protein-coding genes, Cicadomorpha is a sister to Fulgoromorpha+Sternorrhyncha, and Heteroptera is a sister to all other Hemiptera
Comparative morphology of the forewing base articulationin Sternorrhyncha compared with a representative of Fulgoromorpha (Insecta, Hemiptera)
The forewing articulation of single species
from each of the four subgroups of Sternorrhyncha
(Aleyrodomorpha, Aphidomorpha, Coccomorpha, Psyllomorpha)
was examined by optical and scanning electron
microscopy. The species were compared with a species of
Cixiidae (Fulgoromorpha), as an outgroup of Sternorrhyncha.
We present the results of a comparative analysis
of the forewing articulation in these five groups, propose a
standardized terminology and compare our findings with
those previously reported. The wing base of all examined
species is composed of the following structures: anterior
and posterior notal wing process, first, second, and third
axillary sclerites, tegula, and axillary cord. The number of
elements included in the wing base and the surrounding
area is the greatest in Cacopsylla mali, the most complicated
species from Sternorrhyncha. Based on the shape of
axillary sclerites and the number of elements forming the
wing base environment, Orthezia urticae (Coccomorpha)
and Cixius nervosus (Fulgoromorpha) are the most similar.
Among Sternorrhyncha, the most similar axillaries are
those of Aphis fabae and Orthezia urticae, which is congruent
with existing classifications. In this paper we show
that the four groups from Sternorrhyncha exhibit their own
distinct wing base morphology