Characterization of the complete mitogenome of Trachylophus sinensis (Coleoptera: Cerambycidae: Cerambycinae), the type species of Trachylophus and its phylogenetic implications

Complete mitochondrial genomes (mitogenomes) have long been proved as reliable markers for phylogenetic reconstruction among diverse animal groups, especially benefited from recent rapid development of sequencing techniques. However, the mitogenomes of many important clades remain poorly represented, which restricted the understanding of macroscale evolutionary history of these groups. Here, we sequenced and characterized the complete mitogenome of Trachylophus sinensis, a type species of the Trachylophus genus, which also represents the first sequenced mitogenome in this genus. The complete circular mitogenome was 15,746 bp in length, containing 37 typical genes and one noncoding AT-rich control region. The nucleotide composition of the mitogenome was highly A + T biased, accounting for 70.07 % of the whole mitogenome with a slightly positive AT skewness (0.106). The 13 Protein coding genes (PCGs) used ATN as their start codons, except nad1 which used TTG. All tRNA genes were predicted with a characteristic cloverleaf secondary structure except trnS1^(AGN), whose dihydrouridine (DHU) arm was replaced by a simple loop. Phylogenetic analyses recovered Cerambycinae as a monophyletic group with high node supports and the sister relationship between T. sinensis and Nadezhdiella cantori. However, we found that deeper nodes showed not strong support, which may be caused by limited taxa sampling in our study. More mitogenomes should be sequenced representing various taxonomic levels, especially closely related species, which will enhance our understanding of phylogenetic relationships among Cerambycinae.     

Contribution to the mitogenome diversity in Delphacinae: Phylogenetic and ecological implications

We document the complete (or nearly complete) mitogenomes of 20 Delphacidae taxa, and together with 17 other delphacid mitogenomes currently in GenBank, to reconstruct the phylogeny of the Delphacinae and to investigate mitogenome differences among members of Delphacini, Tropidocephalini and Saccharosydnini. The mitogenomes of the 20 species encode the complete set of 37 genes usually found in animal mitogenomes. The length of complete mitogenomes in Delphacinae ranges from 15,531 to 16,231 bp. The gene order of all newly sequenced mitogenomes are identical, and the mitogenome gene order of Stenocranus matsumurai Metcalf in Stenocraninae has a transposition of tRNA^Thr. The two-clade system in Tropidocephalini was supported with high value (PP = 1, BS = 100), and the monophyly of Bambusiphaga was recovered in this study. Finally, we found that the host shift from plants with a C₃ to a C₄ photosynthetic pathway appears to have occurred independently in several clades.     

Complete mitochondrial genome sequence of bighead croaker Collichthys niveatus (Perciformes, Sciaenidae): a mitogenomic perspective on the phylogenetic relationships of Pseudosciaeniae

The monophyly and phylogenetic relationships of Pseudosciaeniae have long been controversial. Here we describe the mitochondrial genome (mitogenome) sequence of Collichthys niveatus. It is a circular double-stranded DNA molecule of 16,450 base pairs (bp) in length with a standard set of 22 transfer RNA genes (tRNAs), 2 ribosomal RNA genes (rRNAs), 13 protein-coding genes as well as a non-coding control region. The mitogenome of C. niveatus shared common features with those of other bony fishes in terms of gene arrangement, base composition, and tRNA structures. The C. niveatus mitogenome exhibited pronounced strand-specific asymmetry in nucleotide composition, which was also reflected in the codon usage of genes oriented in opposite directions. Contrary to the typical structure of the control region, the central conserved blocks (CSB-D, -E, and -F) could not be detected in C. niveatus mitogenome. Phylogenetic analysis based on whole mitogenome sequences provided strong support for the monophyly of Pseudosciaeniae, and sister-group relationships of C. niveatus + Collichthys lucidus and Larimichthys crocea + Larimichthys polyactis, which was consistent with the traditional taxonomy. Unexpected divergence was found in two C. niveatus mitogenomes and several hypotheses were proposed to explain this observation including misidentification and introgressive hybridization between C. niveatus and L. polyactis, and polyphyletic origin of C. niveatus. We considered species misidentification to be the main hypothesis. However, additional data is essential to test these proposed hypotheses.     

The complete mitochondrial genome of Gomphocerus tibetanus Uvarov, 1935 (Orthoptera: Acrididae: Gomphocerinae)

The complete nucleotide sequence of the mitochondrial genome (mitogenome) of Gomphocerus tibetanus Uvarov, 1935 (Orthoptera: Acrididae: Gomphocerinae) was determined. It is 15,571 bp in length and contains 74.8% A + T. All Gomphocerus tibetanus protein-coding sequences start with a typical ATN codon. The usual termination codons (TAA and TAG) were found from 13 PCGs except COI and COII which took incomplete codon T as termination codons. All tRNA genes could be folded into the typical cloverleaf secondary structure, except tRNA^Ser(AGN) lacking of dihydrouridine (D) arm. The sizes of the large and small ribosomal RNA genes are 1313 and 822 bp, respectively. The A + T content of the A + T-rich region is 82.3%. A preliminary analysis on characteristics of Gomphocerinae mitogenome was made by comparision among three Gomphocerinae mitogenomes and Locusta migratoria.     

The phylogenetic position of an undescribed paedomorphic clupeiform taxon: mitogenomic evidence

Molecular characters may offer a useful alternative to confidently estimate the phylogenetic position of paedomorphic taxa otherwise difficult to place based on morphology because of the reduction or absence of characters in their larvae-like adult stage. Here, we sequenced the complete mitogenome of a remarkable undescribed marine paedomorphic clupeiform fish to gain insight into its phylogenetic position. Of a length of 17,507 bp, this mitogenome exhibits a unique gene order within the Teleostei because of the inversion of the contiguous tRNA^Gln and tRNA^Ile within the IQM region and the presence of a putative second control region inserted between these tRNAs. Mitogenomic data from 27 clupeiform species and 22 non-clupeiform species were subjected to partitioned maximum likelihood and Bayesian analyses. All resultant phylogenetic trees strongly supported the placement of this undescribed taxon within the order Clupeiformes, suborder Clupeoidei, and the family Clupeidae, as the sister group of the tribe Spratelloidini (Jenkinsia + Spratelloides) of the subfamily Dussumieriinae. Together, they form a monophyletic group with Chirocentrus and, possibly, Etrumeus. Despite its overall resemblance to Sundasalanx, this undescribed taxa (Clupeidae gen. et sp. indet.) is not closely related to that genus and represents an independent paedomorphic lineage within the Clupeoidei. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Mitochondrial genome of Thais clavigera (Mollusca: Gastropoda): Affirmation of the conserved,ancestral gene pattern within the mollusks

Class Gastropoda includes a large number of described species, many with extensively rearranged mitochondrial genomes. We sequenced the mitogenome of the rock shell, Thais clavigera (Gastropoda: Muricidae), an intertidal snail, using long PCR with primers designed on the basis of expressed sequence tags. The mitogenome of T. clavigera consists of 2 rRNAs, 22 tRNAs, and 13 protein-coding genes, but no control region. Structural comparisons revealed that the order Sorbeoconcha, including T. clavigera, have nearly identical mitochondrial gene patterns. However, they have an inversion between a tRNA^Phe–tRNA^Glu cluster that comprises 21 genes, but most of the remaining structure is similar to the putative mollusk ground pattern. These findings will provide a better insight into mitochondrial gene rearrangement over the course of gastropod evolution.     

Complete mitochondrial genome sequence of the yellow-spotted long-horned beetle <Emphasis Type="Italic">Psacothea hilaris</Emphasis> (Coleoptera: Cerambycidae) and phylogenetic analysis among coleopteran insects

We have determined the complete mitochondrial genome of the yellow-spotted long horned beetle, Psacothea hilaris (Coleoptera: Cerambycidae), an endangered insect species in Korea. The 15,856-bp long P. hilaris mitogenome harbors gene content typical of the animal mitogenome and a gene arrangement identical to the most common type found in insect mitogenomes. As with all other sequenced coleopteran species, the 5-bp long TAGTA motif was also detected in the intergenic space sequence located between tRNA^Ser(UCN) and ND1 of P. hilaris. The 1,190-bp long non-coding A+T-rich region harbors an unusual series of seven identical repeat sequences of 57-bp in length and several stretches of sequences with the potential to form stem-and-loop structures. Furthermore, it contains one tRNA^Arg-like sequence and one tRNA^Lys-like sequence. Phylogenetic analysis among available coleopteran mitogenomes using the concatenated amino acid sequences of PCGs appear to support the sister group relationship of the suborder Polyphaga to all remaining suborders, including Adephaga, Myxophaga, and Archostemata. Among the two available infraorders in Polyphaga, a monophyletic Cucujiformia was confirmed, with the placement of Cleroidea as the basal lineage for Cucujiformia. On the other hand, the infraorder Elateriformia was not identified as monophyletic, thereby indicating that Scirtoidea and Buprestoidea are the basal lineages for Cucujiformia and the remaining Elateriformia.     

Effect of lumpsucker (Cyclopterus lumpus L.) C-reactive protein on DNA synthesis in cultured murine and fish leucocytes

• 1.1. C-reactive protein (CRP) isolated from a marine teleost (Cyclopterus lumpus L.) an structurally resembling mammalian CRP was added to cultures of leucocytes obtained from fish peripheral blood or mouse spleens.
• 2.2. A statistically significant dose-dependent stimulation by the fish CRP, of [³H]thymidine incorporation into normal mouse spleen cells, was observed. The effect was substantially reduced in the presence of phosphorylcholine.
• 3.3. Addition of fish CRP to fish leucocytes or to cultures of nu nu mouse spleen cells did not result in significant stimulation. This suggests that although the CRP is not mitogenic for fish leucocytes it exerts a selective stimulatory effect on mouse T cells.
• 4.4. A synergistic stimulatory effect between fish CRP and PHA was abolished by phosphorylcholine and suggests that phosphorylcholine residues may contribute to the binding sites of mammalian lymphocytes.

     

The first complete mitogenome of Picumnus innominatus (Aves,Piciformes, Picidae) and phylogenetic inference within the Picidae

The avian family Picidae, which is nearly global in distribution, contains the piculets (Picumninae and Nesoctitinae), the woodpeckers (Picinae), and the wrynecks (Jynginae). However, the phylogenetic relationships within the Picidae remain obscure for most genera. In the present study, the complete mitochondrial genome of Picumnus innominatus was determined and described, which was the first complete mitogenome reported in the Picumnus. The circular mitogenome of P. innominatus was 17,180 bp in size and consisted of 13 protein-coding genes (PCGs), 22 tRNAs, 2 rRNA genes, a control region (CR), and a noncoding region. The gene order and arrangement of the P. innominatus mitogenome were identical to other mitogenomes of the Picidae. Moreover, strikingly large tandem repeats were found in the noncoding region of the P. innominatus mitogenome, which have not yet been covered in other picid species to date. At the family level (Picidae), the highest dN/dS ratio was detected for the ND1 gene (1.38726) among 13 PCGs, indicating that positive selection was powerful for this gene. Bayesian and Maximum Likelihood phylogenetic analyses based on the combination of 12S rRNA and CYTB gene supported strongly that the Picumninae is monophyletic.     

Using model selection to choose a size-based condition index that is consistent with operational welfare indicators

Quantitative and qualitative measures of fish health and welfare are essential for management of both wild capture and aquaculture species. These measures include morphometric body condition indices, energetic condition and aquaculture operational welfare indicators (OWIs). Measures vary in ease of measurement (and may require destructive sampling), and it is critical to know how well they correlate with fish health and welfare so appropriate management decisions can be based on them. Lumpfish (Cyclopterus lumpus) is a new farming species that needs nondestructive OWIs to be developed and validated. In this study, we developed a C. lumpus fin damage score. Four different body condition indexes based on individual weight relative to either length–weight relationships or relative to other fish in its local environment were tested (using model selection) as predictors of individual fin damage. Results showed severity of fin damage was predicted by small size relative to the other individuals in the tank or cage. Body condition based on length–weight relationship was not found to predict fin damage, indicating that using established indices from fisheries or from other species would not predict welfare risks from fin damage. Implications are that especially in hatchery conditions grading will improve the condition index, and is expected to mitigate fin damage, but that low weight at length was not of use in predicting fin damage. Model selection to choose between a suite of possible indices proved powerful and should be considered in other applications where an easily measured index is needed to correlate with other health measures.     

Complete mitochondrial genome sequence of the Arctic gammarid,Onisimus nanseni (Crustacea; Amphipoda): Novel gene structures and unusual control region features

To analyze the mitogenome of the amphipod Onisimus nanseni, we amplified the complete mitogenome of O. nanseni using long-PCR and genome walking techniques. The mitogenome of O. nanseni is circular and contains all the typical mt genes (2 rRNAs, 22 tRNAs, and 13 protein-coding genes). It has two peculiar non-coding regions of 148 bp and 194 bp. The latter can be involved in replication and termination processes. The total length of the pooled protein-coding, rRNA, and tRNA genes is shorter than those of other crustaceans. In addition, the intergenic spacers of the O. nanseni mitogenome are considerably shorter in length than those of other crustaceans. Fourteen adjacent genes overlap, resulting in a compact mitogenomic structure. In the O. nanseni mitogenome, the AT composition is elevated, particularly in the control regions (78.9% AT), as has been demonstrated for two other amphipods. The tRNA order is highly rearranged compared to other arthropod mitogenomes, but the order of protein-coding genes and rRNAs is largely conserved. The gene cluster between the CO1 and CO3 genes is completely conserved among all amphipods compared. This provides insights into the evolution and gene structures of crustacean mitochondrial genomes, particularly in amphipods.     

Complete mitochondrial genomes from four subspecies of common chaffinch (Fringilla coelebs): New inferences about mitochondrial rate heterogeneity,neutral theory,and phylogenetic relationships within the order Passeriformes

We describe whole mitochondrial genome sequences from four subspecies of the common chaffinch (Fringilla coelebs), and compare them to 31 publicly available mitochondrial genome sequences from other Passeriformes. Rates and patterns of mitochondrial gene evolution are analyzed at different taxonomic levels within this avian order, and evidence is adduced for and against the nearly neutral theory of molecular evolution and the role of positive selection in shaping genetic variation of this small but critical genome. We find evidence of mitochondrial rate heterogeneity in birds as in other vertebrates, likely due to differences in mutational pressure across the genome. Unlike in gadine fish and some of the human mitochondrial work we do not observe strong support for the nearly neutral theory of molecular evolution; instead evidence from molecular clocks, distribution of dN/dS ratios at different levels of the taxonomic hierarchy and in different lineages, McDonald–Kreitman tests within Fringillidae, and site-specific tests of selection within Passeriformes, all point to a role for positive selection, especially for the complex I NADH dehydrogenase genes. The protein-coding mitogenome phylogeny of the order Passeriformes is broadly consistent with previously-reported molecular findings, but provides support for a sister relationship between the superfamilies Muscicapoidea and Passeroidea on a short basal internode of the Passerida where relationships have been difficult to resolve. An unexpected placement of the Paridae (represented by Hume's groundpecker) within the Muscicapoidea was observed. Consistent with other molecular studies the mtDNA phylogeny reveals paraphyly within the Muscicapoidea and a sister relationship of Fringilla with Carduelis rather than Emberiza.     

The complete mitochondrial genome sequence of the world's largest fish,the whale shark (Rhincodon typus), and its comparison with those of related shark species

The whale shark (Rhincodon typus) is the largest extant species of fish, belonging to the order Orectolobiformes. It is listed as a “vulnerable” species on the International Union for Conservation of Nature (IUCN)'s Red List of Threatened Species, which makes it an important species for conservation efforts. We report here the first complete sequence of the mitochondrial genome (mitogenome) of the whale shark obtained by next-generation sequencing methods. The assembled mitogenome is a 16,875 bp circle, comprising of 13 protein-coding genes, two rRNA genes, 22 tRNA genes and a control region. We also performed comparative analysis of the whale shark mitogenome to the available mitogenome sequences of 17 other shark species, four from the order Orectolobiformes, five from Lamniformes and eight from Carcharhiniformes. The nucleotide composition, number and arrangement of the genes in whale shark mitogenome are the same as found in the mitogenomes of the other members of the order Orectolobiformes and its closest orders Lamniformes and Carcharhiniformes, although the whale shark mitogenome had a slightly longer control region. The availability of mitogenome sequence of whale shark will aid studies of molecular systematics, biogeography, genetic differentiation, and conservation genetics in this species.     

The complete mitochondrial genome of the endangered Apollo butterfly,Parnassius apollo (Lepidoptera: Papilionidae) and its comparison to other Papilionidae species

The Apollo butterfly, Parnassius apollo is a representative species of the butterfly subfamily Parnassiinae. This charming species is one of the most endangered butterfly species in the world. In this study, we sequenced its complete mitochondrial genome (mitogenome), with the aim of accumulating genetic information for further studies of population genetics and mitogenome evolution in the Papilionidae. The 15,404-bp long mitogenome harbors a typical set of 37 genes and is the largest butterfly mitogenome determined, except for Papilio maraho (16,094 bp). Like many other sequenced lepidopteran species, one tRNA^Trp-like and one tRNA^Leu(UUR)-like sequences were detected in the AT-rich region. A total of 164 bp of non-coding sequences are dispersed in 14 regions throughout the genome. The longest intergenic spacer (68 bp) is located between tRNA^Ser(AGN) and tRNA^Glu, and is the largest spacer at this location among Papilionidae species. This spacer may have resulted from an 8-fold repetition of a TTTCTTCT motif or a 4-fold repetition of a CTTTATTT motif.     

The mitochondrial genome of the Russian wheat aphid Diuraphis noxia: Large repetitive sequences between trnE and trnF in aphids

To characterize aphid mitochondrial genome (mitogenome) features, we sequenced the complete mitogenome of the Russian wheat aphid, Diuraphis noxia. The 15,784-bp mitogenome with a high A + T content (84.76%) and strong C skew (− 0.26) was arranged in the same gene order as that of the ancestral insect. Unlike typical insect mitogenomes, D. noxia possessed a large tandem repeat region (644 bp) located between trnE and trnF. Sequencing partial mitogenome of the cotton aphid (Aphis gossypii) further confirmed the presence of the large repeat region in aphids, but with different repeat length and copy number. Another motif (58 bp) tandemly repeated 2.3 times in the control region of D. noxia. All repeat units in D. noxia could be folded into stem-loop secondary structures, which could further promote an increase in copy numbers. Characterization of the D. noxia mitogenome revealed distinct mitogenome architectures, thus advancing our understanding of insect mitogenomic diversities and evolution.     

New species of the genus Careproctus (Liparidae) from the Kara Sea with notes on spongiophilia,reproductive commensalism between fishes and sponges (Rossellidae)

A new species of the family Liparidae, fulvous snailfish Careproctus fulvus sp. n., is described from the Novaya Zemlya Depression of the Kara Sea at a depth between 190 and 414 m. The species belongs to the group of slit-eyed Careproctus (longitudinally oval pupil, elongated lower lobe of the pectoral fin, and large urogenital papilla). The representatives of the species are characterized by fulvous coloration with orange spots, deep body, small teeth, and three radials in the pectoral girdle. The eggs are deposited into glass sponges Schaudinnia rosea (Rossellidae). Valvatophilia (commensalism with bivalves) and carcinophilia (reproductive commensalism with crab-like decapod crustaceans of the family Lithodidae) have been registered in the family Liparidae before, but spongiophilia are described for the first time. Egg deposition into glass sponges (Rossellidae) is known also for cod icefishes (Nototheniidae) from Antarctic waters. Reproductive commensalism between the representatives of the family Liparidae in the Arctic, the species of the family Nototheniidae in the Antarctic, and glass sponges represents a new finding of bionomic bipolarity (independent appearance of similar adaptations in unrelated groups of fishes in two polar regions of the earth). Based on the ecologo-ethological classification of fish reproduction, brood hiding Careproctus species belong to ostracophils, a group of fishes deposited the eggs into live animals.     

Detection of two different mitochondrial genomes in a gall wasp species,Andricus mairei (Hymenoptera: Cynipoidea: Cynipidae)

Mitochondrial genomes (mitogenomes) have been used widely in comparative and evolutionary genomics, molecular evolution, phylogenetics, and population genetics, but very limited information is available for the family Cynipidae. In this report, we described the mitogenome of Andricus mairei. The mitogenome of A. mairei was 16,514 bp in length and contained a typical set of 37 genes. Two control regions (CRs) were detected, one being a partial reverse repeat of the other. In a comparison with the putative ancestral mitogenome, gene rearrangements were found in transfer RNA (tRNA) genes, protein-coding genes and ribosomal RNA (rRNA) genes. Consistent with other Cynipidae species, the gene rearrangement of A. mairei had four obvious characteristics: trnE and trnF had inverted and swapped positions; rrnL and rrnS genes had moved into the cob–nad1 junction; a novel tRNA gene cluster trnL1–trnI–trnL2–trnW–trnM–trnQ had been formed between nad1 and nad2; and trnV had inverted and moved to the nad2–cox1 gene junction. Furthermore, A. mairei had two types of mitochondrial circular DNA molecules. Type II differed from type I in an inverted rearrangement of a large fragment of 3349 nucleotides, including two CRs and two rRNA genes.     

肺囊康定产生菌Glarea lozoyensis线粒体基因组序列的再分析

[目的] Glarea lozoyensis是抗真菌药物卡泊芬净的产生菌,其突变菌株ATCC 74030的线粒体基因组已被报道。我们此前的研究发现诱变剂能引起该菌某些细胞核基因的突变,但诱变剂是否也能引起线粒体DNA序列的改变并不清楚。[方法] 组装野生型菌株ATCC 20868的线粒体基因组,并与发表的突变型菌株ATCC 74030的线粒体基因组进行比较。通过PCR验证野生和突变菌株线粒体基因组间表现差异之处,并利用正确的线粒体基因组序列进行新的分析。[结果] 我们成功组装出野生型菌株ATCC 20868的线粒体基因组,通过比较其与发表的ATCC 74030的线粒体基因组序列,发现存在6处单核苷酸变异位点和2处具有长度差异的区域。然而,随后的PCR验证和序列比较并没有发现2个菌株间存在这些差异。最初观察到的碱基差异是因为发表的ATCC 74030线粒体基因组存在序列错误。有趣的是,在Glarea lozoyensis的线粒体基因组中,我们发现存在3个具有内含子的tRNA基因和1个rnpB基因。同时,该菌线粒体基因组中存在多种重复序列,在其线粒体和细胞核基因组间也存在明显的DNA片段重复事件。[结论] 诱变剂没有引起G. lozoyensis线粒体DNA的任何改变;发表的ATCC 74030的线粒体基因组存在序列错误。我们报道G. lozoyensis正确的线粒体基因组序列,并且发现该菌线粒体和细胞核基因组间频繁的基因交流。