Com1847618plete mitochondrial genome of Pnyxia scabiei (Diptera: Sciaridae)

Abstract The potato scab-gnat, Pnyxia scabiei, was recorded as a pest attacking potato tubers and greenhouse cucumber plants. The mitochondrial genome of a total length of 15,437 bp was sequenced, including 13 protein-coding genes, 22 tRNA genes, and two rRNA genes with A + T content of 77.2%. Six gene overlaps were found from 1 to 34 bp. Phylogenetic analysis showed that P. scabiei was closely related to Trichosia lengersdorfi + Sciara ruficauda. The study provided further data for species diversification in Sciaridae.

Sciaridae is one of the most species diverse families in Diptera, with more than 2,800 species recorded worldwide (Yang et al. 2019). Sciarids mostly live in forests and other moist shady area. The larvae feed on mycelium, saprophagous wood, rotting vegetable matter and organic matter in soil (Miao et al. 2020). Pnyxia scabiei is a Holarctic species, found to occur on potato tubers, greenhouse cucumber plants, and edible mushrooms, mainly damaging greenhouse crops (Gui 1933;Broadley et al. 2018). Previous studies on this species mostly concentrated on taxonomic descriptions and biological habits. However, female wings of P. scabiei were reduced, and male wings with m-cu crossvein present and vein M þ CuA absent. Due to these exceptional morphological characters, the phylogenetic status of the genus remains controversial. Mitochondrial DNA is considered a valuable molecular marker and widely used in insect systematic studies.
Specimens were collected on the rotten root of Platycodon grandifloras in Songxian County, He'nan Province of China (33 53 0 7 00 N, 112 10 0 6 00 E) in April 2020. Voucher specimens of male and female adults were deposited in Zhejiang A&F University, China (Sample ID: SMLCX001-1-12; BIN. BOLD:AEA9290 and AEA9289). The genomic DNA was extracted from the whole bodies of six females using the DNeasy Blood & Tissue kit (Qiagen Hilden, Germany). Mitogenome was initially annotated using the MITOS (Bernt et al. 2013). The base composition and codon usages were analyzed using MEGA 7.0 (Kumar et al. 2016). A phylogenetic tree was performed using PhyloSuite (Zhang et al. 2020).
The phylogenetic tree was performed using maximum likelihood (ML) and Bayesian inference (BI), based on all PCGs of eight mitogenomes (Figure 1). The results revealed that P. scabiei was closely related to Sciarinae (Trichosia lengersdorfi þ Sciara ruficauda), with a great genetic distance. The genus was placed in the subfamily Cratyninae by Menzel and Mohrig (2000) based on morphological characters, although it differs in wing veins and posterior pronotum setae. However, the placement was not yet supported by molecular data, since the mitogenome of the type genus (Cratyna) of the subfamily is not available. The mitogenome provides fundamental information for studying molecular phylogeny and evolution.

Disclosure statement
No potential conflict of interest was reported by the author(s).

Funding
This study was supported by the National Natural Science Foundation of China (NSFC) [grant number 31872270].