Characterization and Phylogenetic Analysis of the Complete Mitochondrial Genome of Triplophysa microphthalma.

The complete mitochondrial genome has been extensively utilized in studies related to phylogenetics, offering valuable perspectives on evolutionary relationships. The mitochondrial genome of the fine-eyed plateau loach, Triplophysa microphthalma, has not attracted much attention, although this species is endemic to China. In this study, we characterized the mitochondrial genome of T. microphthalma and reassessed the classification status of its genus. The complete mitochondrial genome of T. microphthalma was 16,591 bp and contained thirty-seven genes, including thirteen protein-coding genes (PCGs), two ribosomal RNA genes (rRNAs), and twenty-two transfer RNA genes (tRNAs). All but one of the thirteen PCGs had the regular start codon ATG; the gene cox1 started with GTG. Six PCGs had incomplete stop codons (T--). These thirteen PCGs are thought to have evolved under purifying selection, and the mitogenome shared a high degree of similarity with the genomes of species within the genus Leptobotia. All tRNA genes exhibited the standard clover-shaped structure, with the exception of the trnS1 gene, which lacked a DHU stem. A phylogenetic analysis indicated that T. microphthalma was more closely related to species within the genus Triplophysa than to those in Barbatula. The present study contributes valuable genomic information for T. microphthalma, and offers new perspectives on the phylogenetic relationships among species of Triplophysa and Barbatula. The findings also provide essential data that can inform the management and conservation strategies for T. microphthalma and other species of Triplophysa and Barbatula.

The complete mitochondrial genome of Ceresium sinicum ornaticolle Pic, 1907 (Coleoptera: Cerambycidae).

Ceresium sinicum ornaticolle Pic, 1907 (Coleoptera: Cerambycidae) is one of the main pests of pomegranate and citrus trees. In this study, we described the complete mitochondrial genome of C. sinicum ornaticolle. The total length of the mitochondrial genome was 15,817 bp, and the entire content of GC was 27.8%. The genome encoded 2 ribosomal RNA genes (rRNAs), 13 protein-coding genes (PCGs), and 22 transfer RNA genes (tRNAs). The phylogenetic tree showed that C. sinicum ornaticolle was clustered with Allotraeus orientalis and Zoodes fulguratus. These results will provide the genetic information for understanding the genetic evolution of C. sinicum ornaticolle and the insights to control cerambycid pests.

The complete mitochondrial genome of Sigara lateralis (Leach, 1817) (Nepomorpha: Corixidae).

The Sigara lateralis (Leach, 1817) is a small aquatic insect belonging to the family Corixidae. The study aims to reveal the genomic data of the mitochondrial genome of S. lateralis. The length of its circular mitochondrial genome is 15,725 bp long with an A + T bias (75.96%). The mitogenome comprises 37 genes, including 13 protein-coding genes (PCGs), 22 transfer RNA genes, and two rRNA genes. The phylogenetic analyses showed that the S. lateralis is the closest to S. septemlineata. These findings will help the conservation of Corixidae from the perspective of genetic evolution.

Characterization of the complete mitochondrial genome of Paecilomyces variotii and comparative evolutionary mitochondriomics of 36 fungi.

BACKGROUD: Paecilomyces variotii has important economic value in stimulating crop growth, biodegradation, and other aspects. Up to now, there are no research reports on its mitochondrial genome. METHODS AND RESULTS: The mitochondrial genome of Paecilomyces variotii was determined with the next-generation sequencing method (Illumina, NovaSeq), and its characteristics were analyzed using various bioinformatics approaches. The length of complete mitochondrial genome sequence of P. variotii is 40,965 bp and consists of 14 protein-coding genes, 2 ribosomal RNA genes, 1 ribosomal protein S3 gene, 26 transport RNA genes. The results of phylogenetics analysis using Bayesian inference and Maximum likelihood methods showed that P. variotii belongs to the Eurotiales order in the Thermoascaceae family, and 9 genera within the Eurotiomycetes class were effectively distinguished with high support rates (bootstrap value > 92% and posterior probabilities > 99%). The analysis of synonymous substitution rates and nonsynonymous substitution rates indicated that the Ka/Ks values of the 14 PCGs in the mitochondrial genomes of the two orders in the Eurotiomycetes class ranged from 0 to 0.4333. CONCLUSIONS: This study revealed the structural and sequence information characteristics of the mitochondrial genome of P. variotii, and the phylogenetic results strongly support its classification within the family Thermoascaceae, consistent with traditional morphological taxonomy studies. The 14 PCGs in the mitochondrial genomes of the two orders in the Eurotiomycetes class are subject to strong purifying (negative) selection. The results of this research provides an important molecular basis for the development of genomics, evolutionary genetics and molecular markers of P. variotii in the future.

The complete mitochondrial genome of Aegialites californicus (Motchoulsky, 1845) (insecta: coleoptera: salpingidae).

The flightless intertidal beetle genus Aegialites (family Salpingidae) is distributed along the Northern Pacific coasts, from California to Alaska and from Northern Japan to Kamchatka. Systematics of Aegialites and its phylogenetic relationships to other members of Salpingidae are unclear, and little genetic information is available. We here present the first complete mitochondrial genome of this genus, represented by Aegialites californicus (Motchoulsky, 1845) from Sonoma County, California, U.S.A. The complete mitochondrial genome of A. californicus is 15,899 bp long and comprises 13 protein-coding (PCG), two ribosomal RNA (rRNA) and 22 transfer RNA (tRNA) genes. The phylogenetic analysis places A.californicus as sister to other members of family Salpingidae. The mitochondrial genome sequence of A. californicus will contribute to future phylogenetic and taxonomic studies of genus Aegialites, family Salpingidae and superfamily Tenebrionoidea.

Complete mitochondrial genome of the Korean endemic springtail Tomocerus caputiviolaceus Lee 1975 (Collembola: Tomoceridae).

The complete mitochondrial genome of Tomocerus caputiviolaceus was sequenced and assembled. The complete mitochondrial genome is 15,519 bp in length. The mitogenome contained 37 genes, including 13 protein-coding genes (PCGs), 22 tRNAs, and two rRNAs. In phylogenetic analysis based on the nucleotide sequences of 13 PCGs, T. caputiviolaceus is closely related to Tomocerus qinae Yu, Yao & Hu, 2016, both of which belong to the genus Tomocerus within the family Tomoceridae.

The complete mitochondrial genome and phylogenetic analysis of Polythlipta liquidalis Leech, 1889 (Crambidae: spilomelinae).

The complete mitochondrial genome of Polythlipta liquidalis Leech, 1889 was sequenced and annotated in this study, which was the first reported complete mitogenome of the genus Polythlipta. The mitogenome of P. liquidalis is 15,305 bp in length and was predicted to encode 37 typical mitochondrial genes including 13 protein-coding genes (PCGs), 22 transfer RNA genes (tRNAs), 2 ribosomal RNA genes (rRNAs), and one major non-coding A-T rich region. The maximum likelihood phylogenetic analysis based on the 13 PCGs was constructed, including P. liquidalis and 15 related Spilomelinae species, using Ostrinia furnacalis as the outgroup. The result showed that P. liquidalis is grouped with Sinomphisa plagialis. These data will serve as a molecular resource for species identification of P. liquidalis and become a valuable resource for a range of genetic, functional, evolutionary and comparative genomic studies on members of Spilomelinae.

A report on the complete mitochondrial genome of the trematode Azygia robusta Odhner, 1911, its new definitive host from the Russian Far East, and unexpected phylogeny of Azygiidae within Digenea, as inferred from mitogenome sequences.

New data on the complete mitochondrial genome of Azygia robusta (Azygiidae) were obtained by the next-generation sequencing (NGS) approach. The mitochondrial DNA (mtDNA) of A. robusta had a length of 13 857 bp and included 12 protein-coding genes, two ribosomal genes, 22 transfer RNA genes, and two non-coding regions. The nucleotide sequences of the complete mitochondrial genomes of two A. robusta specimens differed from each other by 0.12 ± 0.03%. Six of 12 protein-coding genes demonstrated intraspecific variation. The difference between the nucleotide sequences of the complete mitochondrial genomes of A. robusta and Azygia hwangtsiyui was 26.95 ± 0.35%; the interspecific variation of protein-coding genes between A. robusta and A. hwangtsiyui ranged from 20.5 ± 0.9% (cox1) to 30.7 ± 1.2% (nad5). The observed gene arrangement in the mtDNA sequence of A. robusta was identical to that of A. hwangtsiyui. Codon usage and amino acid frequencies were highly similar between A. robusta and A. hwangtsiyui. The results of phylogenetic analyses based on mtDNA protein-coding regions showed that A. robusta is closely related to A. hwangtsiyui (belonging to the same suborder, Azygiida) that formed a distinct early-diverging branch relative to all other Digenea. A preliminary morphological analysis of paratypes of the two azygiid specimens studied showed visible morphological differences between them. The specimen extracted from Sakhalin taimen (Parahucho perryi) was most similar to A. robusta. Thus, we here provide the first record of a new definitive host, P. perryi, for A. robusta and also molecular characteristics of the trematode specimens.

The complete mitochondrial genome of Spurilla braziliana MacFarland 1909 (Nudibranchia, Aeolidiidae).

Spurilla braziliana MacFarland 1909 is a morphologically diverse nudibranch found in the Pacific and Western Atlantic. The complete mitochondrial genome of S. braziliana has been constructed using next-generation sequencing technology. The mitochondrial genome is 14,291 bp and contains 13 protein-coding genes, 2 rRNA genes, and 23 tRNA genes. Molecular phylogenetic analysis using the maximum likelihood method revealed that S. braziliana is included in the superfamily Aeolidioidea and forms a monophyletic group with Berghia stephanieae, a nudibranch of the family Aeolidiidae. This study reinforces existing taxonomic insights and provides a basis for further molecular phylogenetic analysis.

The complete mitochondrial genome of Choristoneura metasequoiacola Liu,1983 (Lepidoptera: Tortricidae).

Choristoneura metasequoiacola Liu, 1983 is an important caterpillar species that specifically infests the leaves and branches of Metasequoia glyptostroboides Hu & W. C. Cheng 1948 with short larval infestations, long-term dormancy, and has a limited distribution in Lichuan, Hubei, China. The complete mitochondria genome of C. metasequoiacola was determined by using Illumina NovaSeq, and analyzed based on previously annotated sibling species. In total, we obtained mitochondria genome with 15,128 bp in length, circular in shape with a double-stranded closed ring structure, including 13 protein-coding genes, 2 rRNA genes, 22 tRNA genes, and an AT-rich region. Of which the nucleotide composition was highly A + T biased, accounting for 81.98% of the whole mitogenome. Thirteen protein-coding genes (PCGs) were 11,142 bp; Twenty-two tRNA genes and AT-rich region were 1,472 and 199 bp, respectively. Phylogenetically, the relationship between Choristoneura spp. (containing C. metasequoiacola) and Adoxophyes spp. was closer than any other two genera from Tortricidae, and the relationship between C. metasequoiacola and C.murinana was the closest among nine sibling species from that genus, which helps to explain species evolution within the family Tortricidae.

Complete mitochondrial genome of Ischnura asiatica (Brauer, 1865) assembled from next-generation sequencing data.

Ischnura asiatica (Brauer, 1865) is a freshwater damselfly belonging to the family Coenagrionidae that is distributed across most of Korea, primarily in areas with low water flow, such as ponds and wetlands. The complete mitochondrial genome of I. asiatica was sequenced by next-generation sequencing. The circular mitochondrial genome was found to be 15,769 bp long, with of 13 protein-coding, two ribosomal RNA, and 22 transfer RNA genes (GenBank accession no. OM310774). Maximum likelihood, phylogenetic analysis showed that this species clustered with other species belonging to the family Coenagrionidae. This study contributes to the phylogeny of damselflies and other members of the family Coenagrionidae.

Characterization of the complete mitochondrial genome of Neolissochilus hendersoni (Herre, 1940) (Cypriniformes: Cyprinidae).

The differentiation between Neolissochilus and Acrossocheilus species based only on morphology is ambiguous; however, phylogenetic analysis using their mitogenome sequences provides conclusive results. Here, the phylogenetic position of Neolissochilus hendersoni (Herre, 1940) was determined using its mitogenome data. Total DNA from N. hendersoni was sequenced using the Illumina NovaSeq6000 platform, and annotation of mitochondrial genes was performed using MITOS2. Phylogenetic trees were constructed using the complete mitogenomes of 16 fish species. The mitogenome of N. hendersoni was found to be 16584 bp long, containing two ribosomal RNA genes, 13 protein-coding genes, 22 transfer RNA genes, and three non-coding control regions. The genome showed a slight A + T bias (A + T = 56.46%). Most PCGs were found to be located on the L-strand. Results of the phylogenetic analysis showed that N. stracheyi is closely related to N. hendersoni. Our results will help to clarify the phylogenetic relationship between Neolissochilus and Acrossocheilus species.

Complete mitochondrial genome of Macromia manchurica Asahina, 1964 (Odonata: Macromiidae).

We describe the first time sequencing and assembly of the complete mitochondrial genome of Macromia manchurica Asahina, 1964 (Odonata; Macromiidae; Macromia). The mitochondrial genome of M. manchurica was found to be 15,560 bp. It contains thirteen protein-coding genes (PCGs), 22 transfer RNAs (tRNAs), two ribosomal RNAs (rRNAs), and AT-rich region. The overall base composition of A. japonicus is A-38.6%, C-17.0%, G-12.5%, and T-31.9%. A phylogenetic analysis of 14 species within the order Odonata and order Ephemeroptera suggested that Macromia amphigena is most closely related to M. manchurica.

Characterization of the complete mitochondrial genome and phylogenetic analysis of Epiverta chelonia (Coleoptera: Coccinellidae).

Epiverta chelonia (Mader 1933; Coleoptera: Coccinellidae) is an important economically and scientifically valuable insect. In this study, the first complete mitochondrial genome of E. chelonia was sequenced and characterized using next-generation sequencing techniques. The circular mitogenome of E. chelonia consists of 17,347 bp including 13 protein-coding genes (PCGs), 22 transfer RNA (tRNA) genes, two ribosomal RNA (rRNA) genes, and a control region (D-loop). The base composition was AT-biased (75.77%). Bayesian Inference and Maximum likelihood phylogenetic trees strongly supported the monophyly of Coccinellinae. Also, E. chelonia was supported as the sister group of Subcoccinella vigintiquatuorpunctata, within Epilachninae. Thus, the E. chelonia mitochondrial genome will be a fundamental resource for understanding the molecular phylogenetic relationships of the species-rich family Coccinellidae of Coleoptera.

The complete mitochondrial genome of the Brambling Fringilla montifringilla (Passeriformes: Fringillidae) from Maor Mountain, China.

The Brambling (Fringilla montifringilla) (Linnaeus 1758) is a member of the Passeriformes family of birds and primarily feeds on grass seeds and grains. Muscle tissue was collected from birds sampled from Moar Mountain, China, and the complete mitochondrial genome was sequenced. Its mitochondrial genome consists of 13 protein-coding genes (PCGs), 2 rRNA genes (12S rRNA and 16S rRNA), 22 tRNA genes, and 1 control region (CR). The genome comprises 30.30% A, 23.32% T, 14.31% G, and 32.07% C bases. Phylogenetically, F. montifringilla is closely related to the Fringilla coelebs, Fringilla teydea teydea and Fringilla polatzeki.

Complete mitochondrial genome of Appasus japonicus Vuillefroy, 1864 (Hemiptera: Belostomatidae).

We describe the initial sequencing and assembly of the complete mitochondrial genome of Appasus japonicus Vuillefroy, 1864 (Hemiptera; Belostomatidae; Appasus). The mitochondrial genome of A. japonicus was found to be 18,608 bp. It contains thirteen protein-coding genes (PCGs), 22 transfer RNAs (tRNAs), two ribosomal RNAs (rRNAs) and an AT-rich region. The overall base composition of A. japonicus is A-41.9%, C-17.5%, G-11.9%, and T-28.7%. A phylogenetic analysis of 21 species within the order Hemiptera suggests that Diplonychus rusticus is most closely related to A. japonicus.

The complete mitochondrial genome study and phylogenetic analysis of Asiatic Water Snake (Fowlea piscator) using 'Next-Generation Sequencing' technology.

The first complete mitochondrial genome sequencing of Asiatic Water snake or Checkered Keelback or Fowlea piscator (=Xenochrophis piscator) was carried out using Next-Generation Sequencing technology. The complete mitochondrial genome of Asiatic Water snake is 16,999bp long with a base composition of 33% A, 28% T, 12% G and 27% C, with a GC content of 39%. Like the typical snake mitochondrial genome, F. piscator also shows relatively similar mitogenome arrangement comprising 37 genes including 13 protein-coding genes, 22 tRNA genes, two rRNA genes and two non-coding regions or a duplicated control region (D-Loop) along with an origin of replication. Nine genes including eight tRNAs and NAD6 were encoded on the Light or L-strand. Phylogenetic analyses using the complete mitochondrial genome of F. piscator demonstrate a close relationship with the family Colubridae and sub family Natricinae.

The complete mitochondrial genome of Arhopalus oberthuri Hua, 2002 (Coleoptera: Spondylidinae).

Arhopalus oberthuri is a pest which spreads in China, Laos, Japan and some other countries in Asia. The complete mitochondrial genome of A. oberthuri is 15,854 bp in length with 32.1% GC content, including 38.2% A, 20.4% C, 11.7% G, 29.7% T. There are 13 protein-coding genes (PCGs), 22 transfer RNA genes (tRNA) and two ribosomal RNA genes (rRNA) encoded in the genome. The graph of phylogenetic analysis gives the information that Arhopalus oberthuri is closer to Arhopalus unicolor. This study provided a scientific basis for the population genetics, phylogeny, and molecular taxonomy of A. oberthuri.

The complete mitochondrial genome of the Yellow-rumped Flycatcher (Ficedula zanthopygia) from Maorshan, China.

The Yellow-rumped Flycatcher (Ficedula zanthopygia) is a secondary cavity nesting bird and widely distributed in China, Mongolia, Russia and Korea. In this study firstly sequenced the mitotic genome of the Yellow-rumped Flycatcher (Ficedula zanthopygia) gathered at Maorshan, China, using Illumina high-throughput sequencing technology, and then annotated the assembly. The total length of the complete mitochondrial genome is 16,730 bp and it consists of 13 protein-coding, 22 tRNA, 2 rRNA genes, and 1 control region (CR). The CR is 1148 bp in length. The nucleotide composition is 29.59% A, 14.75% T, 32.13% G, 23.54% C. The result of phylogenetic analysis showed that there is close genetic relationship among Ficedula zanthopygia and Ficedula hyperythra.

Characterization of Seventeen Complete Mitochondrial Genomes: Structural Features and Phylogenetic Implications of the Lepidopteran Insects.

Lepidoptera (moths and butterflies) are widely distributed in the world, but high-level phylogeny in Lepidoptera remains uncertain. More mitochondrial genome (mitogenome) data can help to conduct comprehensive analysis and construct a robust phylogenetic tree. Here, we sequenced and annotated 17 complete moth mitogenomes and made comparative analysis with other moths. The gene order of trnM-trnI-trnQ in 17 moths was different from trnI-trnQ-trnM of ancestral insects. The number, type, and order of genes were consistent with reported moths. The length of newly sequenced complete mitogenomes ranged from 14,231 bp of Rhagastis albomarginatus to 15,756 bp of Numenes albofascia. These moth mitogenomes were typically with high A+T contents varied from 76.0% to 81.7% and exhibited negative GC skews. Among 13 protein coding genes (PCGs), some unusual initiations and terminations were found in part of newly sequenced moth mitogenomes. Three conserved gene-overlapping regions and one conserved intergenic region were detected among 17 mitogenomes. The phylogenetic relationship of major superfamilies in Macroheterocera was as follows: (Bombycoidea + Lasiocampoidea) + ((Drepanoidea + Geometroidea) + Noctuoidea)), which was different from previous studies. Moreover, the topology of Noctuoidea as (Notodontidae + (Erebidae + Noctuidae)) was supported by high Bayesian posterior probabilities (BPP = 1.0) and bootstrapping values (BSV = 100). This study greatly enriched the mitogenome database of moth and strengthened the high-level phylogenetic relationships of Lepidoptera.