Complete Mitogenomes of Euploea mulciber (Nymphalidae: Danainae) and Libythea celtis (Nymphalidae: Libytheinae) and Their Phylogenetic Implications

The complete mitochondrial genome sequences of the two butterfly species Euploea mulciber (Lepidoptera: Nymphalidae: Danainae) and Libythea celtis (Lepidoptera: Nymphalidae: Libytheinae) were determined in this study, comprising 15,166 bp and 15,164 bp, respectively. The orientation and the gene order of the two mitogenomes are identical to those of most of the other lepidopteran species. All protein-coding genes of Euploea mulciber and Libythea celtis mitogenomes start with a typical ATN codon with the exception of COI gene which uses CGA as its initial codon. All tRNA genes possess the typical cloverleaf secondary structure except for tRNASer (AGN), which has a simple loop with the absence of the DHU stem. There are short microsatellite-like repeat regions, but no conspicuous macrorepeats scattered throughout the A + T-rich regions. Phylogenetic analysis among the available butterfly species suggests that Libythea celtis (Libytheinae) is closely related to Calinaga davidis (Calinaginae), indicating that the subfamily Libytheinae may not represent a basal lineage of the Nymphalidae as previously suggested, and that Euploea mulciber stands at the base of the nymphalid tree as a sister to all other nymphalids.

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The complete mitochondrial genome of Microphysogobio elongatus (Teleostei, Cyprinidae) and its phylogenetic implications

ZooKeys ◽

10.3897/zookeys.1061.70176 ◽

2021 ◽

Vol 1061 ◽

pp. 57-73

Author(s):

Renyi Zhang ◽

Qian Tang ◽

Lei Deng

Keyword(s):

Complete Mitochondrial Genome ◽

Genetic Material ◽

Start Codon ◽

Trna Genes ◽

Protein Coding ◽

Simple Loop ◽

Stop Codons ◽

Phylogenetic Implications ◽

Complete Mitogenome ◽

Rna Genes

Mitochondria are important organelles with independent genetic material of eukaryotic organisms. In this study, we sequenced and analyzed the complete mitogenome of a small cyprinid fish, Microphysogobio elongatus (Yao & Yang, 1977). The mitogenome of M. elongatus is a typical circular molecule of 16,612 bp in length containing 13 protein-coding genes (PCGs), 22 transfer RNA genes, two ribosomal RNA genes, and a 930 bp control region. The base composition of the M. elongatus mitogenome is 30.8% A, 26.1% T, 16.7% G, and 26.4% C. All PCGs used the standard ATG start codon with the exception of COI. Six PCGs terminate with complete stop codons, whereas seven PCGs (ND2, COII, ATPase 6, COIII, ND3, ND4, and Cyt b) terminate with incomplete (T or TA) stop codons. All tRNA genes exhibited typical cloverleaf secondary structures with the exception of tRNASer(AGY), for which the dihydrouridine arm forms a simple loop. The phylogenetic analysis divided the subfamily Gobioninae in three clades with relatively robust support, and that Microphysogobio is not a monophyletic group. The complete mitogenome of M. elongatus provides a valuable resource for future studies about molecular phylogeny and/or population genetics of Microphysogobio.

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The complete mitochondrial genome of Zicrona caerulea (Linnaeus) (Hemiptera: Pentatomidae: Asopinae) and its phylogenetic implications

Zootaxa ◽

10.11646/zootaxa.4747.3.8 ◽

2020 ◽

Vol 4747 (3) ◽

pp. 547-561

Author(s):

QING ZHAO ◽

GERASIMOS CASSIS ◽

LING ZHAO ◽

YIFAN HE ◽

HUFANG ZHANG ◽

...

Keyword(s):

Mitochondrial Genome ◽

Tandem Repeats ◽

Complete Mitochondrial Genome ◽

Rrna Genes ◽

Trna Genes ◽

Stink Bug ◽

Protein Coding ◽

Simple Loop ◽

Phylogenetic Implications ◽

Maximum Likelihood Methods

Zicrona caerulea (Linnaeus, 1758) is a cosmopolitan stink bug species, which belongs to the predatory subfamily Asopinae. In this study, the complete mitochondrial genome of Zicrona caerulea from Shanxi, China was sequenced for the first time, using next generation sequencing. The mitogenome was found to be 15,479 bp in length. It contained 13 protein-coding genes, two rRNA genes, 22 tRNA genes and a typical control region. This research revealed an overall A+T content of 77.14%. All tRNA genes had a clover-leaf structure except for trnS1, which lacks a dihydrouridine (DHU) arm; and for trnV, the DHU arm forms a simple loop. The lengths of rrnS and rrnL were 797 bp and 1,285 bp, respectively. Because of a shortage in tandem repeats, the A+T-rich region was 644 bp in length. Phylogenetic relationships based on these mitogenomes, using Bayesian inference and Maximum likelihood methods, showed that Zicrona caerulea belongs to Asopinae. The monophyly of families of the Pentatomoidea is supported, albeit limited taxon sampling.

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The mitochondrial genome of Dipetalonema gracile from a squirrel monkey in China

Journal of Helminthology ◽

10.1017/s0022149x18000871 ◽

2018 ◽

Vol 94 ◽

Cited By ~ 3

Author(s):

P. Zhang ◽

R.K. Ran ◽

A.Y. Abdullahi ◽

X.L. Shi ◽

Y. Huang ◽

...

Keyword(s):

Mitochondrial Genome ◽

Squirrel Monkey ◽

Complete Mitochondrial Genome ◽

Mitochondrial Gene ◽

Rrna Genes ◽

Saimiri Sciureus ◽

Trna Genes ◽

Loop Structure ◽

Protein Coding ◽

Protein Coding Genes

AbstractDipetalonema gracile is a common parasite in squirrel monkeys (Saimiri sciureus), which can cause malnutrition and progressive wasting of the host, and lead to death in the case of massive infection. This study aimed to identify a suspected D. gracile worm from a dead squirrel monkey by means of molecular biology, and to amplify its complete mitochondrial genome by polymerase chain reaction (PCR) and sequence analysis. The results identified the worm as D. gracile, and the full length of its complete mitochondrial genome was 13,584 bp, which contained 22 tRNA genes, 12 protein-coding genes, two rRNA genes, one AT-rich region and one small non-coding region. The nucleotide composition included A (16.89%), G (20.19%), T (56.22%) and C (6.70%), among which A + T = 73.11%. The 12 protein-coding genes used TTG and ATT as start codons, and TAG and TAA as stop codons. Among the 22 tRNA genes, only trnS1AGN and trnS2UCN exhibited the TΨC-loop structure, while the other 20 tRNAs showed the TV-loop structure. The rrnL (986 bp) and rrnS (685 bp) genes were single-stranded and conserved in secondary structure. This study has enriched the mitochondrial gene database of Dipetalonema and laid a scientific basis for further study on classification, and genetic and evolutionary relationships of Dipetalonema nematodes.

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The complete mitochondrial genome of a cold seep gastropod Phymorhynchus buccinoides (Neogastropoda: Conoidea: Raphitomidae)

PLoS ONE ◽

10.1371/journal.pone.0242541 ◽

2020 ◽

Vol 15 (11) ◽

pp. e0242541

Author(s):

Lvpei Du ◽

Shanya Cai ◽

Jun Liu ◽

Ruoyu Liu ◽

Haibin Zhang

Keyword(s):

Mitochondrial Genome ◽

Complete Mitochondrial Genome ◽

Cold Seep ◽

Start Codon ◽

Rrna Genes ◽

Trna Genes ◽

Protein Coding ◽

Future Studies ◽

Protein Coding Genes ◽

High Support

Phymorhynchus is a genus of deep-sea snails that are most distributed in hydrothermal vent or cold seep environments. In this study, we presented the complete mitochondrial genome of P. buccinoides, a cold seep snail from the South China Sea. It is the first mitochondrial genome of a cold seep member of the superfamily Conoidea. The mitochondrial genome is 15,764 bp in length, and contains 13 protein-coding genes (PCGs), 2 rRNA genes, and 22 tRNA genes. These genes are encoded on the positive strand, except for 8 tRNA genes that are encoded on the negative strand. The start codon ATG and 3 types of stop codons, TAA, TAG and the truncated termination codon T, are used in the 13 PCGs. All 13 PCGs in the 26 species of Conoidea share the same gene order, while several tRNA genes have been translocated. Phylogenetic analysis revealed that P. buccinoides clustered with Typhlosyrinx sp., Eubela sp., and Phymorhynchus sp., forming the Raphitomidae clade, with high support values. Positive selection analysis showed that a residue located in atp6 (18 S) was identified as the positively selected site with high posterior probabilities, suggesting potential adaption to the cold seep environment. Overall, our data will provide a useful resource on the evolutionary adaptation of cold seep snails for future studies.

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Mitochondrial genome of the critically endangered Baer’s Pochard, Aythya baeri, and its phylogenetic relationship with other Anatidae species

Scientific Reports ◽

10.1038/s41598-021-03868-7 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Dawei Liu ◽

Yongwu Zhou ◽

Yiling Fei ◽

Chunping Xie ◽

Senlin Hou

Keyword(s):

Mitochondrial Genome ◽

Complete Mitochondrial Genome ◽

The Other ◽

Rrna Genes ◽

Trna Genes ◽

Protein Coding ◽

Protein Coding Genes ◽

Recent Estimate ◽

Maximum Likelihood Methods ◽

Taxonomic Studies

AbstractHistorically, the diving duck, Baer’s Pochard (Aythya baeri) was widely distributed in East and South Asia, but according to a recent estimate, its global population is now less than 1000 individuals. To date, the mitochondrial genome of A. baeri has not been deposited and is not available in GenBank. Therefore, we aimed to sequence the complete mitochondrial genome of this species. The genome was 16,623 bp in length, double stranded, circular in shape, and contained 13 protein-coding genes, 22 tRNA genes, two rRNA genes, and one non-coding control region. Many structural and compositional similarities were discovered between A. baeri and the other three Aythya mitochondrial genomes. Among 13 protein-coding genes of the four Aythya species, the fastest-evolving gene was ATP8 while the slowest-evolving gene was COII. Furthermore, the phylogenetic tree of Anatidae based on Bayesian inference and maximum likelihood methods showed that the relationships among 15 genera of the Anatidae family were as follows: Dendrocygna was an early diverging lineage that was fairly distant from the other ingroup taxa; Cygnus, Branta, and Anser were clustered into one branch that corresponded to the Anserinae subfamily; and Aythya, Asarcornis, Netta, Anas, Mareca, Mergus, Lophodytes, Bucephala, Tadorna, Cairina, and Aix were clustered into another branch that corresponded to the Anatinae subfamily. Our target species and three other Aythya species formed a monophyletic group. These results provide new mitogenomic information to support further phylogenetic and taxonomic studies and genetic conservation of Anatidae species.

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The mitochondrial genome of Coridius chinensis (Hemiptera: Dinidoridae)

Zootaxa ◽

10.11646/zootaxa.3537.1.2 ◽

2012 ◽

Vol 3537 (1) ◽

pp. 29 ◽

Cited By ~ 5

Author(s):

LI LIU ◽

HU LI ◽

FAN SONG ◽

WEN SONG ◽

XUN DAI ◽

...

Keyword(s):

Mitochondrial Genome ◽

Complete Mitochondrial Genome ◽

Nucleotide Composition ◽

Rrna Genes ◽

Trna Genes ◽

Structural Domains ◽

Protein Coding ◽

Simple Loop ◽

Transfer Rnas ◽

Cloverleaf Structure

The nearly complete mitochondrial genome of Coridius chinensis (Dallas) is reported in this study. The mitogenome is a double-stranded circular molecule of more than 14,648 bp in length with an A+T content of 75.1%. It encoded 37 genes as in other insect mtDNAs, including 13 protein-coding genes (PCGs), 22 tRNA genes, 2 rRNA genes and a control region (unsuccessful sequencing), and the gene order is the same as most other known heteropteran mitogenomes. All of the 22 transfer RNAs can be folded into the typical cloverleaf structure except tRNASer(AGN), which can only form a simple loop at the site of dihydrouridine (DHU) arm as known in other metazoans. The secondary structures of the large and small ribosomal RNAs of C. chinensis are similar to other presented insects. The rrnL consisted of six structural domains and 40 helices, and the rrnS consisted of three structural domains and 26 helices. Nine PCGs are initiated with the standard initiation codons (ATN), while ND6 and ND1 use GTG, and COI and ATP8 use TTG. All PCGs stopped with TAA/TAG termination codons except the COII terminated with a single T residue. Asymmetry in the nucleotide composition between J-strand and N-strand was observed in this mitogenome.

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Characterization of the Complete Mitochondrial Genome of Drabescus ineffectus and Roxasellana stellata (Hemiptera: Cicadellidae: Deltocephalinae: Drabescini) and Their Phylogenetic Implications

Insects ◽

10.3390/insects11080534 ◽

2020 ◽

Vol 11 (8) ◽

pp. 534 ◽

Cited By ~ 1

Author(s):

Deliang Xu ◽

Tinghao Yu ◽

Yalin Zhang

Keyword(s):

Mitochondrial Genome ◽

Stop Codon ◽

Phylogenetic Analyses ◽

Complete Mitochondrial Genome ◽

Strong Support ◽

Start Codon ◽

Protein Coding ◽

Simple Loop ◽

Repeat Units ◽

Phylogenetic Implications

To explore the mitogenome characteristics and shed light on the phylogenetic relationships and molecular evolution of Drabescini species, we sequenced and analyzed the complete mitochondrial genome of two species including Drabescus ineffectus and Roxasellana stellata. The complete mitogenomes of D. ineffectus and R. stellata are circular, closed and double-stranded molecules with a total length of 15744 bp and 15361 bp, respectively. These two newly sequenced mitogenomes contain the typical 37 genes. Most protein-coding genes (PCGs) began with the start codon ATN and terminated with the terminal codon TAA or TAG, with an exception of a special initiation codon of ND5, which started with TTG, and an incomplete stop codon T-- was found in the Cytb, COX2, ND1 and ND4. All tRNAs could be folded into the canonical cloverleaf secondary structure except for the trnS1, which lacks the DHU arm and is replaced by a simple loop. The multiple tandem repeat units were found in A + T-control region. The sliding window, Ka/Ks and genetic distance analyses indicated that the ATP8 presents a high variability and fast evolutionary rate compared to other PCGs. Phylogenetic analyses based on three different datasets (PCG123, PCG12R and AA) using both Bayesian inference (BI) and maximum likelihood (ML) methods showed strong support for the monophyly of Drabescini.

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The first complete mitochondrial genome of Pygopodidae (Aprasia parapulchella Kluge)

Australian Journal of Zoology ◽

10.1071/zo14092 ◽

2015 ◽

Vol 63 (2) ◽

pp. 111 ◽

Cited By ~ 1

Author(s):

Anna J. MacDonald ◽

Theresa Knopp ◽

Mitzy Pepper ◽

J. Scott Keogh ◽

Stephen D. Sarre

Keyword(s):

Mitochondrial Genome ◽

Gene Order ◽

Complete Mitochondrial Genome ◽

Nucleotide Composition ◽

Rrna Genes ◽

Trna Genes ◽

Base Pairs ◽

Protein Coding ◽

Protein Coding Genes ◽

Typical Vertebrate

The Pygopodidae comprise an enigmatic group of legless lizards endemic to the Australo-Papuan region. Here we present the first complete mitochondrial genome for a member of this family, Aprasia parapulchella, from Australia. The mitochondrial genome of A. parapulchella is 16 528 base pairs long and contains 13 protein-coding genes, 22 tRNA genes, two rRNA genes and the control region, conforming to the typical vertebrate gene order. The overall mitochondrial nucleotide composition is 31.7% A, 24.5% T, 30.5% C and 13.2% G. This corresponds to a total A+T content of 56.3%, which is similar to that of other squamate lizard genomes.

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Genome Characterization, Comparison and Phylogenetic Analysis of Complete Mitochondrial Genome of Evolvulus alsinoides Reveals Highly Rearranged Gene Order in Solanales

Life ◽

10.3390/life11080769 ◽

2021 ◽

Vol 11 (8) ◽

pp. 769

Author(s):

Pattayampadam Ramakrishnan Shidhi ◽

Vadakkemukadiyil Chellappan Biju ◽

Sasi Anu ◽

Chandrasekharan Laila Vipin ◽

Kumar Raveendran Deelip ◽

...

Keyword(s):

Mitochondrial Genome ◽

Gene Order ◽

Complete Mitochondrial Genome ◽

Genome Structure ◽

Rrna Genes ◽

Formation Mechanisms ◽

Trna Genes ◽

Protein Coding ◽

Protein Coding Genes ◽

Evolvulus Alsinoides

Mitogenome sequencing provides an understanding of the evolutionary mechanism of mitogenome formation, mechanisms driving plant gene order, genome structure, and migration sequences. Data on the mitochondrial genome for family Convolvulaceae members is lacking. E. alsinoides, also known as shankhpushpi, is an important medicinal plant under the family Convolvulaceae, widely used in the Ayurvedic system of medicine. We identified the mitogenome of E. alsinoides using the Illumina mate-pair sequencing platform, and annotated using bioinformatics approaches in the present study. The mitogenome of E. alsinoides was 344184 bp in length and comprised 46 unique coding genes, including 31 protein-coding genes (PCGs), 12 tRNA genes, and 3 rRNA genes. The secondary structure of tRNAs shows that all the tRNAs can be folded into canonical clover-leaf secondary structures, except three trnW, trnG, and trnC. Measurement of the skewness of the nucleotide composition showed that the AT and GC skew is positive, indicating higher A’s and G’s in the mitogenome of E. alsinoides. The Ka/Ks ratios of 11 protein-coding genes (atp1, ccmC, cob, cox1, rps19, rps12, nad3, nad9, atp9, rpl5, nad4L) were <1, indicating that these genes were under purifying selection. Synteny and gene order analysis were performed to identify homologous genes among the related species. Synteny blocks representing nine genes (nad9, nad2, ccmFc, nad1, nad4, nad5, matR, cox1, nad7) were observed in all the species of Solanales. Gene order comparison showed that a high level of gene rearrangement has occurred among all the species of Solanales. The mitogenome data obtained in the present study could be used as the Convolvulaceae family representative for future studies, as there is no complex taxonomic history associated with this plant.

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Complete mitochondrial genome of the freshwater fish Onychostoma lepturum (Teleostei, Cyprinidae): genome characterization and phylogenetic analysis

ZooKeys ◽

10.3897/zookeys.1005.57592 ◽

2020 ◽

Vol 1005 ◽

pp. 57-72

Author(s):

I-Chen Wang ◽

Hung-Du Lin ◽

Chih-Ming Liang ◽

Chi-Chun Huang ◽

Rong-Da Wang ◽

...

Keyword(s):

Phylogenetic Analysis ◽

Mitochondrial Genome ◽

Phylogenetic Trees ◽

Complete Mitochondrial Genome ◽

Genomic Variation ◽

Rrna Genes ◽

Valid Species ◽

Trna Genes ◽

Protein Coding ◽

Protein Coding Genes

The cyprinid genus Onychostoma Günther, 1896 consists of 24 valid species distributed in Southeast Asia, including Taiwan, Hainan, mainland China and the Indochina region. In the present study, we determined the complete mitochondrial genome of O. lepturum, which is 16,598 bp in length, containing 13 protein-coding genes, two rRNA genes, 22 tRNA genes and a typical control region (D-loop). To verify the molecular phylogeny of the subfamily Acrossocheilinae, we provide new insights to better understand the taxonomic status of Acrossocheilus, Onychostoma and Folifer brevifilis. The phylogenetic trees presented three major clades based on the 13 protein-coding genes from 28 Acrossocheilinae species. Clades I and II represent the Onychostoma and Acrossocheilus groups, respectively. Species of Acrossocheilus, Onychostoma and F. brevifilis are included in Clade III, which is considered as an ancestral group. This work provides genomic variation information and improves our understanding of the Acrossocheilinae mitogenome, which will be most valuable in providing new insights for phylogenetic analysis and population genetics research.

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