Mitogenomes have been widely used in phylogenetic and taxonomic research,due to their maternal inheritance,accelerated evolutionary rates,compact circular structure,and the absence of introns.Although their utility is...Mitogenomes have been widely used in phylogenetic and taxonomic research,due to their maternal inheritance,accelerated evolutionary rates,compact circular structure,and the absence of introns.Although their utility is well-established,efficient mitogenome sequencing still poses a challenge for evolutionary studies.Here,we presented a novel hybridization capture protocol that enables high-fidelity sequencing of the complete mitogenome(16535 bp)of Odorrana nasuta.This genome exhibits typical anuran characteristics,including an A+T nucleotide bias(56.37%)and conserved gene composition.Notably,we identified a lineage-specific trnH transposition event that reorganizes the typical gene order into a unique trnH-trnL1-trnT-trnP-trnF cluster,which may be a potential synapomorphic trait for the genus Odorrana.Phylogenetic reconstruction using 13 protein-coding genes from 59 anuran species strongly supported the monophyly of Ranidae and its constituent genera(Odorrana,Rana,Lithobates,Amolops,Pelophylax,Glandirana),yet reveals the incongruence in the placement of Hylarana.The conflicting topologies observed for Hylarana and Glandirana across different studies highlight critical methodological limitations,including taxonomic sampling biases and data type dependency,which collectively compromise phylogenetic resolution.By integrating mitogenomic structure signatures with sequence-based phylogenies,this work advances our understanding of the systematics within Odorrana and highlights the need of multi-locus genomic datasets for resolving deep phylogenetic conflicts within Ranidae.展开更多
The insect mitogenome is typically a compact circular molecule with highly conserved gene contents.Nonetheless,mitogenome structural variations have been reported in specific taxa,and gene rearrangements,usually the t...The insect mitogenome is typically a compact circular molecule with highly conserved gene contents.Nonetheless,mitogenome structural variations have been reported in specific taxa,and gene rearrangements,usually the tRNAs,occur in different lineages.Because synapomorphies of mitogenome organizations can provide information for phylogenetic inferences,comparative analyses of mitogenomes have been given increasing attention.However,most studies use a very few species to represent the whole genus,tribe,family,or even order,overlooking potential variations at lower taxonomic levels,which might lead to some incorrect inferences.To provide new insights into mitogenome organizations and their implications for phylogenetic inference,this study conducted comparative analyses for mitogenomes of three social bee tribes(Meliponini,Bombini,and Apini)based on the phylogenetic framework with denser taxonomic sampling at the species and population levels.Comparative analyses revealed that mitogenomes of Apini and Bombini are the typical type,while those of Meliponini show diverse variations in mitogenome sizes and organizations.Large inverted repeats(IRs)cause significant gene rearrangements of protein coding genes(PCGs)and rRNAs in Indo-Malay/Australian stingless bee species.Molecular evolution analyses showed that the lineage with IRs have lower dN/dS ratios for PCGs than lineages without IRs,indicating potential effects of IRs on the evolution of mitochondrial genes.The finding of IRs and different patterns of gene rearrangements suggested that Meliponini is a hotspot in mitogenome evolution.Unlike conserved PCGs and rRNAs whose rearrangements were found only in the mentioned lineages within Meliponini,tRNA rearrangements are common across all three tribes of social bees,and are significant even at the species level,indicating that comprehensive sampling is needed to fully understand the patterns of tRNA rearrangements,and their implications for phylogenetic inference.展开更多
The complete 15,831 bp nucleotide sequence of the mitochondrial genome from Elimaea cheni (Phaneropterinae) was determined. The putative initiation codon for cox1 was TTA. The phylogeny of Orthoptera based on differ...The complete 15,831 bp nucleotide sequence of the mitochondrial genome from Elimaea cheni (Phaneropterinae) was determined. The putative initiation codon for cox1 was TTA. The phylogeny of Orthoptera based on different mtDNA datasets were analyzed with maximum likelihood (ML) and Bayesian inference (BI). When all 37 genes (mtDNA) were analyzed simultaneously, the monophyly of Caelifera and Ensifera were recovered in the context of our taxon sampling. The phylogeny of Orthoptera was largely consistent with previous phylogenetic hypotheses. Rhaphidophoridae to be a sister group of Tettigoniidae, and the relationships among four subfamilies of Tettigoniidae were (Phaneropterinae + (Conocephalinae + (Bradyporinae + Tettigoniinae))). Pyrgomorphidae was the most basal group of Caelifera. The relationships among six acridid subfamilies were (Oedipodinae + (Acridinae + (Gomphocerinae + (Oxyinae + (Callip- taminae + Cyrtacanthacridinae))))). However, we did not recover a monophyletic Grylloidea. Myrmecophilidae clustered into one clade with Gryllotalpidae instead of with Gryllidae. ML and BI analyses of all protein coding genes (using all nucleotide sequence data or excluding the third codon position, and amino acid sequences) revealed a topology identical to that of the entire mtDNA genome dataset. However, 22 tRNAs genes excluding the DHU loop and TψC loop (TRNA), and two rRNA genes (RRNA) perform poorly when analyzed as single dataset. Our results suggest that the best phylogenetic inferences were ML and BI methods based on total mtDNA. Excluding tRNA genes, rRNA genes and the third codon position of protein coding genes from dataset and converting nucleotide sequences to amino acid sequences do not positively affect phylogenetic reconstruction.展开更多
The complete mitochondrial genome (mitogenome) of Gampsocleis gratiosa was determined. The 15,929 bp in the size of G. gratiosa mitogenome contains a typical gene content, base composition, and codon usage found in ...The complete mitochondrial genome (mitogenome) of Gampsocleis gratiosa was determined. The 15,929 bp in the size of G. gratiosa mitogenome contains a typical gene content, base composition, and codon usage found in metazoan. All 13 protein coding genes (PCGs) of the G gratiosa mitogenome start with a typical ATN codon. The usual termination codons (TAA and TAG) were found from 10 PCGs. However, the atp6, had4, and had5 had incomplete termination codon (T). The anticodons of all tRNAs are identical to those observed in Drosophila yakuba and Locusta migratoria, and can be folded in the form of a typical clover leaf structure except for trnS (AGN). The secondary structure of trnS (AGN) was drawn according with the Steinberg-Cedergren tertiary structure. The A+T content (67.4%) of the A+T-rich region is relatively lower among the mitogenome regions, in contrast, it usually contains the highest A+T content for most insects. Two isolated sequence repeat regions (202 bp) were found in the A+T-rich region with mapping and secondary structure information.展开更多
Sequencing technology has developed rapidly in recent years. Complete or nearly complete mitochondrial genomes(mitogenomes) of 155 species from 47 families in Heteroptera have been sequenced. However, the amounts of m...Sequencing technology has developed rapidly in recent years. Complete or nearly complete mitochondrial genomes(mitogenomes) of 155 species from 47 families in Heteroptera have been sequenced. However, the amounts of mitogenomes between those families are unbalanced, which makes it difficult to correctly discern the patterns of mitogenome rearrangement in Heteroptera. Among 21 species from ten families, ten variations in mitogenome rearrangement had been previously reported, among which the translocation between tRNA-Thr and tRNA-Pro was considered as a synapomorphy of Pyrrhocoroidea based on two mitogenomes. As only one mitogenome in each of Largidae and Pyrrhocoridae had been sequenced to conclude the synapomorphy, more mitogenomes of Pyrrhocoroidea need to be explored. In this study, additional two mitogenomes of Pyrrhocoroidea(Macrocheraia grandis grandis(Gray, 1832) and Myrmoplasta mira Gerst-cker, 1892) were sequenced. Both of them also possess the same translocation between tRNA-Thr and tRNA-Pro, which reaffirms that this kind of rearrangement is a molecular synapomorphy of Pyrrhocoroidea. Moreover, we discovered a more complex rearrangement in Myrmoplasta mira, in which six nearly identical duplications of tRNA-Thr were found located downstream of tRNA-Pro. Considering the high biodiversity of Heteroptera, more mitogenomic studies are needed to improve our knowledge about mitogenome rearrangements and the potential synapomorphies.展开更多
The first complete mitogenome of Cyclommatus stag beetles, Cyclommatus vitalisi(Coleoptera: Lucanidae) is sequenced using the next generation sequening. The genomic structure is a closed circular molecule with 17,8...The first complete mitogenome of Cyclommatus stag beetles, Cyclommatus vitalisi(Coleoptera: Lucanidae) is sequenced using the next generation sequening. The genomic structure is a closed circular molecule with 17,853 bp in length, comprising 13 protein-coding genes, 22 transfer RNA genes(t RNAs), 2 ribosomal RNAs(r RNAs) and a control region. The sequence has neither a gene rearrangement nor a non-coding region. The nucleotide composition is A(36. 31%), C(21. 48%), T(31. 20%) and G(11. 01%), with overall AT content of 73. 61%. The phylogenetic analysis of 13 stag beetles and another three scarab beetles show that Cyclommatus vitalisi shares a close ancestry with Lucanus mazama and Lucanus fortunei.展开更多
Solemyidae is an ancient group of protobranch bivalves,and most solemyids are symbiotic with chemoautotrophic and gill-hosted bacteria,enabling them to survive in unusual habitats such as deepsea chemosynthetic enviro...Solemyidae is an ancient group of protobranch bivalves,and most solemyids are symbiotic with chemoautotrophic and gill-hosted bacteria,enabling them to survive in unusual habitats such as deepsea chemosynthetic environments.However,evolution of the mitogenomes in this family and their phylogenetic relationships remain poorly understood.The complete mitogenome of Acharax sp.was determined and compared with other available mitogenomes of solemyids.The mitogenome of Acharax sp.is 18970 bp in length and consists of 13 protein-coding genes,2 ribosomal RNA genes,and 22 transfer RNA genes.The gene arrangement was identical to those of other sequenced solemyids.For the present five mitogenomes of Solemyidae species,all protein-coding genes were initiated with the typical ATD(ATA,ATG,and ATT)codon and terminated with the TAA/TAG codon.Furthermore,the incomplete termination codon was detected.The Ka/Ks ratio analyses indicated that 13 protein-coding genes of five Solemyidae mitogenomes suffered strong purifying selection.Compared to 45 existing shallow water equivalents,the 18 available mitogenomes from the deep-sea,including the Acharax sp.in this study,show significantly more nonpolar amino acids in the 13 protein-coding genes,which indicates the adaptation to the deep-sea environment.The phylogenetic tree based on 48 Bivalvia complete mitogenomes provided further information to support the scientific classification of protobranchs.The relationships among Solemyidae were assessed based on 2 mitochondrial(16S rRNA and COX1)and 3 nuclear(18S rRNA,28S rRNA,and histone H3)gene sequences from 17 in-group species.The two genera Acharax and Solemya formed a monophyletic clade each,and Acharax sp.clustered with previously reported Acharax bivalves with high support values.展开更多
The species within Xenarthra(sloths,anteaters,and armadillos)are quintessential South American mammals.Of the three groups,Vermilingua(anteaters)contains the fewest extant and paleontological species.Here,we sampled a...The species within Xenarthra(sloths,anteaters,and armadillos)are quintessential South American mammals.Of the three groups,Vermilingua(anteaters)contains the fewest extant and paleontological species.Here,we sampled and sequenced the entire mitochondrial genomes(mitogenomes)of two Tamandua species(Tamandua tetradactyla and T.mexicana)(n=74)from Central and South America,as well as Myrmecophaga tridactyla(n=41)from South America.Within Tamandua,we detected three different haplogroups.The oldest(THI)contained many specimens with the T.tetradactyla morphotype(but also several with the T.mexicana morphotype)and originated in southeastern South America(currently Uruguay)before moving towards northern South America,where the THII haplogroup originated.THII primarily contained specimens with the T.mexicana morphotype(but also several with the T.tetradactyla morphotype)and was distributed in Central America,Colombia,and Ecuador.THI and THII yielded a genetic distance of 4%.THII originated in either northern South America or“in situ”in Central America with haplogroup THIII,which consisted of~50%T.mexicana and 50%T.tetradactyla phenotypes.THIII was mostly located in the same areas as THII,i.e.,Central America,Ecuador,and Colombia,though mainly in the latter.The three haplogroups overlapped in Colombia and Ecuador.Thus,T.tetradactyla and T.mexicana were not reciprocally monophyletic.For this reason,we considered that a unique species of Tamandua likely exists,i.e.,T.tetradactyla.In contrast to Tamandua,M.tridactyla did not show different morphotypes throughout its geographical range in the Neotropics.However,two very divergent genetic haplogroups(MHI and MHII),with a genetic distance of~10%,were detected.The basal haplogroup,MHI,originated in northwestern South America,whereas the more geographically derived haplogroup,MHII,overlapped with MHI,but also expanded into central and southern South America.Thus,Tamandua migrated from south to north whereas Myrmecophaga migrated from north to south.Our results also showed that temporal mitochondrial diversification for Tamandua began during the Late Pliocene and Upper Pleistocene,but for Myrmecophaga began during the Late Miocene.Furthermore,both taxa showed elevated levels of mitochondrial genetic diversity.Tamandua showed more evidence of female population expansion than Myrmecophaga.Tamandua experienced population expansion~0.6–0.17 million years ago(Mya),whereas Myrmecophaga showed possible population expansion~0.3–0.2 Mya.However,both taxa experienced a conspicuous female decline in the last 10000–20000 years.Our results also showed little spatial genetic structure for both taxa.However,several analyses revealed higher spatial structure in Tamandua than in Myrmecophaga.Therefore,Tamandua and Myrmecophaga were not subjected to the same biogeographical,geological,or climatological events in shaping their genetic structures.展开更多
Black carp(Mylopharyngodon piceus)is an important freshwater fish species in China,and fishery resources have been severely depleted for decades.Understanding the population genetic background is a prerequisite for co...Black carp(Mylopharyngodon piceus)is an important freshwater fish species in China,and fishery resources have been severely depleted for decades.Understanding the population genetic background is a prerequisite for conservation of black carp genetic resources.Complete mitogenome was analyzed for the first time to study the population genetic diversity and structure of black carp across China.The complete mitochondrial genomes obtained from six wild and three farmed populations ranged from 16,598 to 16,614 base pairs.Black carp populations across China are characterized by moderate to high genetic differentiation(0.08≤FST≤0.55,P<0.05),with a low overall degree of gene flow(0.34≤Nm≤2.61)individuals per generation.The nucleotide diversity(Pi)ranged from 0.0010 to 0.0024 and the average number of pairwise nucleotide differences(K)ranged from 17.4 to 40.2,with the minimum Pi and K values(0.0010 and 17.4)observed in the Foshan population.Compared to farmed populations,wild populations exhibited high average genetic diversity.Neighbor-joining phylogenetic reconstructions revealed two main genetic lineages,one represented by wild populations from the middle reaches of the Yangtze River and the other by populations from the lower reaches of the Yangtze River and farmed populations.The results of Tajima's D and Fu's F neutrality tests and the nucleotide mismatch distribution indicated that wild populations expanded rapidly after undergoing a historic genetic bottleneck.Demographic decline over recent generations has resulted in a bottleneck effect upon black carp populations and genetic connectivity across its distribution has become limited.Poorly designed artificial propagation,long-term inbreeding and random genetic drift probably were the main causes of low genetic diversity in cultured populations.Our results provide baseline information crucial for conservation of black carp genetic resources in China.展开更多
Complete mitochondrial genomes(mitogenomes)can provide useful information for phylogenetic relationships,gene rearrangement,and molecular evolution.In the present study,two newly sequenced mitogenomes of Ocypodoidea(C...Complete mitochondrial genomes(mitogenomes)can provide useful information for phylogenetic relationships,gene rearrangement,and molecular evolution.In the present study,two newly sequenced mitogenomes of Ocypodoidea(Cleistostoma dilatatum and Euplax sp.)were reported for the first time,which are 15444 bp and16129 bp in length,respectively.Cleistostoma dilatatum is the first species in the family Camptandriidae whose complete mitogenome was sequenced.Each mitogenome contains an entire set of 37 genes and a putative control region,but their gene arrangements are largely different.Tandem duplication and random loss model is proposed to account for their gene arrangements.Comparative genomic analyses of 19 mitogenomes clustering in one branch reveal that 18 of them shared the same gene rearrangement,while that of C.dilatatum mitogenome was consistent with the ancestral gene arrangement of Brachyura.The dN/dS ratio analysis shows that all PCGs are evolving under purifying selection.Phylogenetic analyses show that all Macrophalmidae species cluster together as a group,and then form a sister clade with Camptandriidae.Moreover,the polyphyly of three superfamilies(Ocypodoidea,Eriphioidea,and Grapsoidea)is reconfirmed.These findings help to confirm the phylogenetic position of Camptandriidae,as well as provide new insights into the phylogeny of Brachyura.展开更多
Mosquitoes are of great medical significance as vectors of many deadly diseases.Mitogenomes have been widely used in phylogenetic studies,but mitogenome knowledge within the family Culicidae is limited,and Culicidae p...Mosquitoes are of great medical significance as vectors of many deadly diseases.Mitogenomes have been widely used in phylogenetic studies,but mitogenome knowledge within the family Culicidae is limited,and Culicidae phylogeny is far from resolved.In this study,we surveyed the mitogenomes of 149 Culicidae species,including 7 newly sequenced species.Comparative analysis of 149 mosquito mitogenomes shows gene composition and order to be identical to that of an ancestral insect,and the AT bias,length variation,and codon usage are all consistent with that of other reported Dipteran mitogenomes.Phylogenetic analyses based on the DNA sequences of the 13 protein-coding genes from the 149 species robustly support the monophyly of the subfamily Anophelinae and the tribes Aedini,Culicini,Mansonini,Sabethini,and Toxorhynchitini.To resolve ambiguous relationships between clades within the subfamily Culicinae,we performed topological tests and show that Aedini is a sister to Culicini and that Uranotaenini is a sister to(Mansonini)+(Toxorhynchitini+Sabethini).In addition,we estimated divergence times using a Bayesian relaxation clock based on the sequence data and 3 fossil calibration points.The results show mosquitoes diverged during the Early Jurassic with massive Culicinae radiations during the Cretaceous,coincident with the emergence of angiosperms and the burst of mammals and birds.Overall,this study,which uses the largest number of Culicidae mitogenomes sequenced to date,comprehensively reveals the mitogenome characteristics and mitogenome-based phylogeny and divergence times of Culicidae,providing information for further studies on the mitogenome,phylogeny,evolution,and taxonomic revision of Culicidae.展开更多
Rorippa indica is a wild oilseed crop of Brassicaceae with good environmental adaptability and strong stress resistance.This plant has become an important wild relative species for rapeseed(Brassica napus L.)and is us...Rorippa indica is a wild oilseed crop of Brassicaceae with good environmental adaptability and strong stress resistance.This plant has become an important wild relative species for rapeseed(Brassica napus L.)and is used to improve its agronomic traits,with important development and utilization value.However,the research of R.indica genetics is still lacking.And no mitochondrial genome(mitogenome)in the genus Rorippa has been expounded.To analyze the structural characteristics of the R.indica mitogenome,second-generation and third-generation sequencing techniques were made to assemble its mitogenome.The results showed that its mitogenome is composed of a single master circle DNA molecule,with 59 genes(33 protein-coding,23 tRNA,and 3 ribosomal RNA genes)annotated.The length of the circular genome is 219,775 bp,with aGCcontent of 45.24%.Themitochondrial genome contains 55 SSRs,17 tandem repeats,and 252 scattered repeat sequences,with scattered repeat sequences accounting for 77.78%.The top two codons with the highest expression levels are TTT and AUU.Moreover,377 RNA editing sites were forecasted in the R.indica mitogenome.And 22 collinear gene fragments were discriminated in the R.indica chloroplast andmitogenomes,with a total 13,153 bp length,accounting for 4.08%of the mitogenome sequence.The longest gene migration fragment is 2186 bp,and the shortest fragment is 42 bp.Furthermore,12 genes undergo complete migration between the two genomes,and 10 genes undergo partial migration.Systematic evolutionary analysis shows that R.indica and Brassica napus are grouped,indicating a close genetic relationship between the two.Herein,the R.indica mitogenome was sequenced and annotated,and it was compared with other Brassicaceae mitogenomes.A genomic data foundation was supplied for elucidating the R.indica origin and evolution.展开更多
Mitochondria play a crucial role in plant growth,fertility,and adaptation.Sugarcane(Saccharum hybrids)represents the world’s primary sugar and energy crop,while S.spontaneum and S.arundinaceum serve as valuable paren...Mitochondria play a crucial role in plant growth,fertility,and adaptation.Sugarcane(Saccharum hybrids)represents the world’s primary sugar and energy crop,while S.spontaneum and S.arundinaceum serve as valuable parental germplasm.Despite their importance,limited research exists regarding the mitochondrial genomes of sugarcane and related species.This study presents the assembly of mitogenomes from one S.arundinaceum,one S.spontaneum,and five sugarcane cultivars.Analysis revealed that these mitogenomes,encoding 33 protein-coding genes(PCGs),ranged from 445,578 to 533,662 bp,with GC content between 43.43-43.82%.The primary structures of S.arundinaceum consisted of three small rings,while S.spontaneum exhibited one ring and one linear structure,and sugarcane displayed two rings;multiple potential conformations emerged due to repeat-mediated recombination.Additionally,this research developed an intron marker SAnad4i3 capable of species differentiation.The analysis identified between 540 and 581 C to U RNA editing sites in the PCGs,with six RNA editing sites linked to start or stop codon creation in S.arundinaceum,and five sites each in S.spontaneum and sugarcane hybrids.Significantly,30-37 fragments homologous to chloroplast DNA were identified,with S.spontaneum containing the highest number.These mitogenomes appear to have undergone substantial genomic reorganization and gene transfer events throughout evolution,including the loss of eight PCGs.This comprehensive study illuminates the genetic diversity and complexity of the Saccharum complex,establishing a foundation for future germplasm identification and evolutionary research.展开更多
The taxonomic status of Episoriculus umbrinus has been contentious.This study aims to clarify its taxonomic position through mitochondrial genome analysis.Specimens of E.umbrinus were obtained from Liupanshui City,Gui...The taxonomic status of Episoriculus umbrinus has been contentious.This study aims to clarify its taxonomic position through mitochondrial genome analysis.Specimens of E.umbrinus were obtained from Liupanshui City,Guizhou Province,China.Genomic DNA was extracted,and 15 primer pairs were designed to amplify and sequence the complete mitochondrial genome of E.umbrinus.The results revealed that the mitochondrial genome of E.umbrinus is a circular double-stranded structure with a length of 17,073 bp,comprising 13 protein-coding genes,1 control region,22 tRNA genes,2 rRNA genes,and 1 origin of L-strand replication.Compared with E.caudatus,differences were observed between the two species in terms of replication origins,gene overlap regions,base lengths,and termination codons.Genetic distance analysis of mitochondrial protein-coding genes showed that the genetic distance between E.umbrinus and E.caudatus ranged from 0.069 to 0.125.A phylogenetic tree constructed based on the concatenated sequences of the 13 protein-coding genes indicated that E.umbrinus clustered as a distinct branch with the other three species within the genus Episoriculus.This study confirmed at the molecular level that E.umbrinus is an independent species rather than a subspecies of E.caudatus.The mitochondrial genome sequence of E.umbrinus provides an important supplementary information for the genetic research of this species and offers new evidence for the phylogenetic study of the tribe Nectogalini.展开更多
Each species within the order Thysanoptera has a distinct mitochondrial gene order displaying a high level of gene rearrangement,particularly massive in Phlaeothripidae.To understand the evolutionary patterns of rearr...Each species within the order Thysanoptera has a distinct mitochondrial gene order displaying a high level of gene rearrangement,particularly massive in Phlaeothripidae.To understand the evolutionary patterns of rearrangement in this family,we sequenced the complete mitochondrial genome of Psephenothrips eriobotryae,a notable potential pest of loquat trees.Its mitogenome is a circular DNA molecule(15,413 bp in size)composed of 37 genes:13 PCGs,22 tRNAs,two rRNAs,and two putative control regions(CRs).By comparing with the ancestral mitogenome of arthropods,P.eriobotryae exhibits notable gene rearrangement variations.However,it shares four conserved gene blocks with three closely related species in Phlaeothripinae.In the phylogenetic tree,P.eriobotryae was clustered with these three leaffeeding Phlaeothripinae species.The presence of more similar conserved gene blocks probably indicates a strong correlation between gene rearrangements and the phylogeny within Phlaeothripidae.Furthermore,the mitogenome of P.eriobotryae shows some characteristics:(a)two putative CRs in which CR2 is the copy of partial CR1 with 99.62%sequence similarity,and CR1 consists of two 237 bp repeat unites;(b)high A+T content of 82.6%in overall base composition;(c)trn S1 lacking a complete dihydrouridine(DHU)arm;(d)the protein coding gene,atp8 started with TTG instead of the more common ATN,while nad3 terminated by TAG rather than TAA;(e)translocations and inversions observed in fifteen of the 37 genes.展开更多
The genus Silurus,an important group of catfish,exhibits heterogeneous distribution in Eurasian freshwater systems.This group includes economically important and endangered species,thereby attracting considerable scie...The genus Silurus,an important group of catfish,exhibits heterogeneous distribution in Eurasian freshwater systems.This group includes economically important and endangered species,thereby attracting considerable scientific interest.Despite this interest,the lack of a comprehensive phylogenetic framework impedes our understanding of the mechanisms underlying the extensive diversity found within this genus.Herein,we analyzed 89 newly sequenced and 20 previously published mitochondrial genomes(mitogenomes)from 13 morphological species to reconstruct the phylogenetic relationships,biogeographic history,and species diversity of Silurus.Our phylogenetic reconstructions identified eight clades,supported by both maximum-likelihood and Bayesian inference.Sequence-based species delimitation analyses yielded multiple molecular operational taxonomic units(MOTUs)in several taxa,including the Silurus asotus complex(four MOTUs)and Silurus microdorsalis(two MOTUs),suggesting that species diversity is underestimated in the genus.A reconstructed time-calibrated tree of Silurus species provided an age estimate of the most recent common ancestor of approximately 37.61 million years ago(Ma),with divergences among clades within the genus occurring between 11.56 Ma and 29.44 Ma,and divergences among MOTUs within species occurring between 3.71 Ma and 11.56 Ma.Biogeographic reconstructions suggested that the ancestral area for the genus likely encompassed China and the Korean Peninsula,with multiple inferred dispersal events to Europe and Central and Western Asia between 21.78 Ma and 26.67 Ma and to Japan between 2.51 Ma and 18.42 Ma.Key factors such as the Eocene-Oligocene extinction event,onset and intensification of the monsoon system,and glacial cycles associated with sea-level fluctuations have likely played significant roles in shaping the evolutionary history of the genus Silurus.展开更多
Blarinellini is a tribe of soricine shrews comprised of nine fossil genera and one extant genus. Blarinelline shrews were once widely distributed throughout Eurasia and North America, though only members of the Asiati...Blarinellini is a tribe of soricine shrews comprised of nine fossil genera and one extant genus. Blarinelline shrews were once widely distributed throughout Eurasia and North America, though only members of the Asiatic short-tailed shrew genus Blarinella currently persist (mostly in southwestern China and adjacent areas). Only three forms of Blarinella have been recognized as either species or subspecies However, recent molecular studies indicated a strikingly deep divergence within the genus, implying the existence of a distinct genus-level lineage. We sequenced the complete mitochondrial genomes and one nuclear gene of three Asiatic short-tailed and two North American shrews and analyzed them morphometrically and morphologically. Our molecular analyses revealed that specimens ascribed to B. griselda formed two deeply diverged lineages, one a close relative to B. quadraticauda, whereas the other--comprised of topotype specimens from southern Gansu-iverged from other Blarinella in the middle Miocene (ca. 18.2 million years ago (Ma), 95% confidence interval=13.4-23.6 Ma). Although the skulls were similarly shaped in both lineages, we observed several diagnostic characteristics, including the shape of the upper p4. In consideration of the molecular and morphological evidence, we recognize B. griselda as the sole species of a new genus, namely, Pantherina gen. nov. Interestingly, some characteristics of Pantherina griselda are more similar to fossil genera, suggesting it represents an evolutionarily more primitive form than Blarinella.Recognition of this new genus sheds light on the systematics and evolutionary history of the tribe Blarinellini throughout Eurasia and North America.展开更多
The yellow meal worm (Tenebrio molitor L.) is an important resource insect typically used as animal feed additive. It is also widely used for biological research. The first complete mitochondrial genome of T. rnolit...The yellow meal worm (Tenebrio molitor L.) is an important resource insect typically used as animal feed additive. It is also widely used for biological research. The first complete mitochondrial genome of T. rnolitor was determined for the first time by long PCR and conserved primer walking approaches. The results showed that the entire mitogenome of T. molitor was 15 785 bp long, with 72.35% A+T content [deposited in GenBank with accession number KF418153]. The gene order and orientation were the same as the most common type suggested as ancestral for insects. Two protein-coding genes used atypical start codons (CTA in ND2 and AAT in COX1), and the remaining 11 protein-coding genes started with a typical insect initiation codon ATN. All tRNAs showed standard clover-leaf structure, except for tRNASer (AGN), which lacked a dihydrouridine (DHU) arm. The newly added T. molitor mitogenome could provide information for future studies on yellow meal worm.展开更多
Complete mitochondrial genomes(mitogenomes)can indicate phylogenetic relationships,as well as useful information for gene rearrangement mechanisms and molecular evolution.Currently,the phylogenetic location of the gen...Complete mitochondrial genomes(mitogenomes)can indicate phylogenetic relationships,as well as useful information for gene rearrangement mechanisms and molecular evolution.Currently,the phylogenetic location of the genus Varuna(Brachyura:Varunidae)has not been well resolved mainly because of limited representatives(only two extant species).Here,we determined a new mitogenome of this genus(Varuna litterata)and added the published mitogenomes to reconstruct the phylogeny of Varunidae.The 16368-bp mitogenome contains the entire set of 37 genes and a putative control region.The characteristics of this newly sequenced mitogenome were described and compared with the other 15 Varunidae mitogenomes.All 16 analyzed mitogenomes have identical gene order and similar molecular features.The sliding window and genetic distance analyses demonstrate highly variable nucleotide diversity,with comparatively low variability of COI and COII,and high variability of ND6.The nonsynonymous/synonymous substitution rates(dN/dS ratio)analysis shows that all 13 PCGs are under purifying selection and ATP8 gene evolves under the least selective pressure.Twelve tRNA genes,two rRNAs,one PCG,and the putative control region are found to be rearranged with respect to the pancrustacean ground pattern gene order.Tandem duplication/random loss model is adopted to explain the large-scale gene rearrangement events occurring in Varunidae mitogenomes.Phylogenetic analyses show that all Varunidae species are placed into one group,and form a sister clade with Macrophthalmidae.Nevertheless,the phylogenetic relationships within Varunidae are not completely consistent based on the two different datasets used in this study.These findings will contribute to a better understanding of gene rearrangement and molecular evolution in Varunidae mitogenomes,as well as provide insights into the phylogenetic studies of Brachyura.展开更多
Knowledge of complete mitochondrial genomes(mitogenomes)can help understand the molecular evolution and phylogenetic relationships of various species.To date,the phylogenetic status of Leucosiidae within Brachyura rem...Knowledge of complete mitochondrial genomes(mitogenomes)can help understand the molecular evolution and phylogenetic relationships of various species.To date,the phylogenetic status of Leucosiidae within Brachyura remains unresolved because of the limited number of mitogenomes available.In the present study,the complete mitogenome of Myra affinis was sequenced using next-generation sequencing to supplement the limited mitogenome information of Leucosiidae.The 15349 bp-long mitogenome includes 13 protein-coding genes(PCGs),22 transfer RNAs(tRNAs),2 ribosomal RNAs(rRNAs),and a putative control region.The overall base composition is 34.5%A,36.1%T,11.5%G,and 17.9%C,with a high AT bias(70.6%).All 13 PCGs start with the standard ATN codon and stop with the TAN codon or incomplete T.Except for tRNA-Ser,all other tRNAs have a typical cloverleaf-like secondary structure.Phylogenetic analyses based on the maximum likelihood and Bayesian inference methods are employed to generate identical phylogenetic topologies,thereby supporting the sister relationship between Leucosiidae and Matutidae for the first time.The monophyly of Eubrachyura is well established,and its sister relationship with Raninoida is strongly supported.The results of this work will not only help achieve a better understanding of the characteristics of the M.affinis mitogenome and the phylogenetic position of Leucosiidae,but also provide relevant information for further studies on the phylogeny of Brachyura.展开更多
基金the National Natural Science Foundation of China(NSFC)to Zhuo CHEN(Grant Nos.32270440 and 31601848)and Xiaohong CHEN(Grant No.U21A20192).
文摘Mitogenomes have been widely used in phylogenetic and taxonomic research,due to their maternal inheritance,accelerated evolutionary rates,compact circular structure,and the absence of introns.Although their utility is well-established,efficient mitogenome sequencing still poses a challenge for evolutionary studies.Here,we presented a novel hybridization capture protocol that enables high-fidelity sequencing of the complete mitogenome(16535 bp)of Odorrana nasuta.This genome exhibits typical anuran characteristics,including an A+T nucleotide bias(56.37%)and conserved gene composition.Notably,we identified a lineage-specific trnH transposition event that reorganizes the typical gene order into a unique trnH-trnL1-trnT-trnP-trnF cluster,which may be a potential synapomorphic trait for the genus Odorrana.Phylogenetic reconstruction using 13 protein-coding genes from 59 anuran species strongly supported the monophyly of Ranidae and its constituent genera(Odorrana,Rana,Lithobates,Amolops,Pelophylax,Glandirana),yet reveals the incongruence in the placement of Hylarana.The conflicting topologies observed for Hylarana and Glandirana across different studies highlight critical methodological limitations,including taxonomic sampling biases and data type dependency,which collectively compromise phylogenetic resolution.By integrating mitogenomic structure signatures with sequence-based phylogenies,this work advances our understanding of the systematics within Odorrana and highlights the need of multi-locus genomic datasets for resolving deep phylogenetic conflicts within Ranidae.
基金supported by the Strategic Priority Research Program of the Chinese Academy of Sciences(XDB31000000)Science and Technology Basic Resources Investigation Program of China(2021FY100200)+1 种基金Yunnan Revitalization Talent Support Program“Young Talent”and"Innovation Team"Projectsthe 14th Five-Year Plan of Xishuangbanna Tropical Botanical Garden,Chinese Academy of Science(XTBG-1450101)。
文摘The insect mitogenome is typically a compact circular molecule with highly conserved gene contents.Nonetheless,mitogenome structural variations have been reported in specific taxa,and gene rearrangements,usually the tRNAs,occur in different lineages.Because synapomorphies of mitogenome organizations can provide information for phylogenetic inferences,comparative analyses of mitogenomes have been given increasing attention.However,most studies use a very few species to represent the whole genus,tribe,family,or even order,overlooking potential variations at lower taxonomic levels,which might lead to some incorrect inferences.To provide new insights into mitogenome organizations and their implications for phylogenetic inference,this study conducted comparative analyses for mitogenomes of three social bee tribes(Meliponini,Bombini,and Apini)based on the phylogenetic framework with denser taxonomic sampling at the species and population levels.Comparative analyses revealed that mitogenomes of Apini and Bombini are the typical type,while those of Meliponini show diverse variations in mitogenome sizes and organizations.Large inverted repeats(IRs)cause significant gene rearrangements of protein coding genes(PCGs)and rRNAs in Indo-Malay/Australian stingless bee species.Molecular evolution analyses showed that the lineage with IRs have lower dN/dS ratios for PCGs than lineages without IRs,indicating potential effects of IRs on the evolution of mitochondrial genes.The finding of IRs and different patterns of gene rearrangements suggested that Meliponini is a hotspot in mitogenome evolution.Unlike conserved PCGs and rRNAs whose rearrangements were found only in the mentioned lineages within Meliponini,tRNA rearrangements are common across all three tribes of social bees,and are significant even at the species level,indicating that comprehensive sampling is needed to fully understand the patterns of tRNA rearrangements,and their implications for phylogenetic inference.
基金supported by the National Natural Science Foundation of China(No.30670279 and 30670252)Talent Foundation of Hebei University(No.2008-138)
文摘The complete 15,831 bp nucleotide sequence of the mitochondrial genome from Elimaea cheni (Phaneropterinae) was determined. The putative initiation codon for cox1 was TTA. The phylogeny of Orthoptera based on different mtDNA datasets were analyzed with maximum likelihood (ML) and Bayesian inference (BI). When all 37 genes (mtDNA) were analyzed simultaneously, the monophyly of Caelifera and Ensifera were recovered in the context of our taxon sampling. The phylogeny of Orthoptera was largely consistent with previous phylogenetic hypotheses. Rhaphidophoridae to be a sister group of Tettigoniidae, and the relationships among four subfamilies of Tettigoniidae were (Phaneropterinae + (Conocephalinae + (Bradyporinae + Tettigoniinae))). Pyrgomorphidae was the most basal group of Caelifera. The relationships among six acridid subfamilies were (Oedipodinae + (Acridinae + (Gomphocerinae + (Oxyinae + (Callip- taminae + Cyrtacanthacridinae))))). However, we did not recover a monophyletic Grylloidea. Myrmecophilidae clustered into one clade with Gryllotalpidae instead of with Gryllidae. ML and BI analyses of all protein coding genes (using all nucleotide sequence data or excluding the third codon position, and amino acid sequences) revealed a topology identical to that of the entire mtDNA genome dataset. However, 22 tRNAs genes excluding the DHU loop and TψC loop (TRNA), and two rRNA genes (RRNA) perform poorly when analyzed as single dataset. Our results suggest that the best phylogenetic inferences were ML and BI methods based on total mtDNA. Excluding tRNA genes, rRNA genes and the third codon position of protein coding genes from dataset and converting nucleotide sequences to amino acid sequences do not positively affect phylogenetic reconstruction.
基金supported by the National Natural Science Foundation of China(No.30470238 and 30670279)Innovation Foundation of the Graduate Student Cultivation of the Shaanxi Normal University(No.2006CXB003).
文摘The complete mitochondrial genome (mitogenome) of Gampsocleis gratiosa was determined. The 15,929 bp in the size of G. gratiosa mitogenome contains a typical gene content, base composition, and codon usage found in metazoan. All 13 protein coding genes (PCGs) of the G gratiosa mitogenome start with a typical ATN codon. The usual termination codons (TAA and TAG) were found from 10 PCGs. However, the atp6, had4, and had5 had incomplete termination codon (T). The anticodons of all tRNAs are identical to those observed in Drosophila yakuba and Locusta migratoria, and can be folded in the form of a typical clover leaf structure except for trnS (AGN). The secondary structure of trnS (AGN) was drawn according with the Steinberg-Cedergren tertiary structure. The A+T content (67.4%) of the A+T-rich region is relatively lower among the mitogenome regions, in contrast, it usually contains the highest A+T content for most insects. Two isolated sequence repeat regions (202 bp) were found in the A+T-rich region with mapping and secondary structure information.
基金financially supported by the Ministry of Culture of the Czech Republic(DKRVO 2019/5.I.a,National Museum,00023272)
文摘Sequencing technology has developed rapidly in recent years. Complete or nearly complete mitochondrial genomes(mitogenomes) of 155 species from 47 families in Heteroptera have been sequenced. However, the amounts of mitogenomes between those families are unbalanced, which makes it difficult to correctly discern the patterns of mitogenome rearrangement in Heteroptera. Among 21 species from ten families, ten variations in mitogenome rearrangement had been previously reported, among which the translocation between tRNA-Thr and tRNA-Pro was considered as a synapomorphy of Pyrrhocoroidea based on two mitogenomes. As only one mitogenome in each of Largidae and Pyrrhocoridae had been sequenced to conclude the synapomorphy, more mitogenomes of Pyrrhocoroidea need to be explored. In this study, additional two mitogenomes of Pyrrhocoroidea(Macrocheraia grandis grandis(Gray, 1832) and Myrmoplasta mira Gerst-cker, 1892) were sequenced. Both of them also possess the same translocation between tRNA-Thr and tRNA-Pro, which reaffirms that this kind of rearrangement is a molecular synapomorphy of Pyrrhocoroidea. Moreover, we discovered a more complex rearrangement in Myrmoplasta mira, in which six nearly identical duplications of tRNA-Thr were found located downstream of tRNA-Pro. Considering the high biodiversity of Heteroptera, more mitogenomic studies are needed to improve our knowledge about mitogenome rearrangements and the potential synapomorphies.
基金supported by the National Natural Science Foundation of China(31201745,31071954 and 31572311)
文摘The first complete mitogenome of Cyclommatus stag beetles, Cyclommatus vitalisi(Coleoptera: Lucanidae) is sequenced using the next generation sequening. The genomic structure is a closed circular molecule with 17,853 bp in length, comprising 13 protein-coding genes, 22 transfer RNA genes(t RNAs), 2 ribosomal RNAs(r RNAs) and a control region. The sequence has neither a gene rearrangement nor a non-coding region. The nucleotide composition is A(36. 31%), C(21. 48%), T(31. 20%) and G(11. 01%), with overall AT content of 73. 61%. The phylogenetic analysis of 13 stag beetles and another three scarab beetles show that Cyclommatus vitalisi shares a close ancestry with Lucanus mazama and Lucanus fortunei.
基金Supported by the Senior User Project of R/V Kexue(No.KEXUE2020GZ01)the National Natural Science Foundation of China(No.42176114)。
文摘Solemyidae is an ancient group of protobranch bivalves,and most solemyids are symbiotic with chemoautotrophic and gill-hosted bacteria,enabling them to survive in unusual habitats such as deepsea chemosynthetic environments.However,evolution of the mitogenomes in this family and their phylogenetic relationships remain poorly understood.The complete mitogenome of Acharax sp.was determined and compared with other available mitogenomes of solemyids.The mitogenome of Acharax sp.is 18970 bp in length and consists of 13 protein-coding genes,2 ribosomal RNA genes,and 22 transfer RNA genes.The gene arrangement was identical to those of other sequenced solemyids.For the present five mitogenomes of Solemyidae species,all protein-coding genes were initiated with the typical ATD(ATA,ATG,and ATT)codon and terminated with the TAA/TAG codon.Furthermore,the incomplete termination codon was detected.The Ka/Ks ratio analyses indicated that 13 protein-coding genes of five Solemyidae mitogenomes suffered strong purifying selection.Compared to 45 existing shallow water equivalents,the 18 available mitogenomes from the deep-sea,including the Acharax sp.in this study,show significantly more nonpolar amino acids in the 13 protein-coding genes,which indicates the adaptation to the deep-sea environment.The phylogenetic tree based on 48 Bivalvia complete mitogenomes provided further information to support the scientific classification of protobranchs.The relationships among Solemyidae were assessed based on 2 mitochondrial(16S rRNA and COX1)and 3 nuclear(18S rRNA,28S rRNA,and histone H3)gene sequences from 17 in-group species.The two genera Acharax and Solemya formed a monophyletic clade each,and Acharax sp.clustered with previously reported Acharax bivalves with high support values.
文摘The species within Xenarthra(sloths,anteaters,and armadillos)are quintessential South American mammals.Of the three groups,Vermilingua(anteaters)contains the fewest extant and paleontological species.Here,we sampled and sequenced the entire mitochondrial genomes(mitogenomes)of two Tamandua species(Tamandua tetradactyla and T.mexicana)(n=74)from Central and South America,as well as Myrmecophaga tridactyla(n=41)from South America.Within Tamandua,we detected three different haplogroups.The oldest(THI)contained many specimens with the T.tetradactyla morphotype(but also several with the T.mexicana morphotype)and originated in southeastern South America(currently Uruguay)before moving towards northern South America,where the THII haplogroup originated.THII primarily contained specimens with the T.mexicana morphotype(but also several with the T.tetradactyla morphotype)and was distributed in Central America,Colombia,and Ecuador.THI and THII yielded a genetic distance of 4%.THII originated in either northern South America or“in situ”in Central America with haplogroup THIII,which consisted of~50%T.mexicana and 50%T.tetradactyla phenotypes.THIII was mostly located in the same areas as THII,i.e.,Central America,Ecuador,and Colombia,though mainly in the latter.The three haplogroups overlapped in Colombia and Ecuador.Thus,T.tetradactyla and T.mexicana were not reciprocally monophyletic.For this reason,we considered that a unique species of Tamandua likely exists,i.e.,T.tetradactyla.In contrast to Tamandua,M.tridactyla did not show different morphotypes throughout its geographical range in the Neotropics.However,two very divergent genetic haplogroups(MHI and MHII),with a genetic distance of~10%,were detected.The basal haplogroup,MHI,originated in northwestern South America,whereas the more geographically derived haplogroup,MHII,overlapped with MHI,but also expanded into central and southern South America.Thus,Tamandua migrated from south to north whereas Myrmecophaga migrated from north to south.Our results also showed that temporal mitochondrial diversification for Tamandua began during the Late Pliocene and Upper Pleistocene,but for Myrmecophaga began during the Late Miocene.Furthermore,both taxa showed elevated levels of mitochondrial genetic diversity.Tamandua showed more evidence of female population expansion than Myrmecophaga.Tamandua experienced population expansion~0.6–0.17 million years ago(Mya),whereas Myrmecophaga showed possible population expansion~0.3–0.2 Mya.However,both taxa experienced a conspicuous female decline in the last 10000–20000 years.Our results also showed little spatial genetic structure for both taxa.However,several analyses revealed higher spatial structure in Tamandua than in Myrmecophaga.Therefore,Tamandua and Myrmecophaga were not subjected to the same biogeographical,geological,or climatological events in shaping their genetic structures.
基金the Earmarked Fund for the Agriculture Research System of China(CARS-45-04).
文摘Black carp(Mylopharyngodon piceus)is an important freshwater fish species in China,and fishery resources have been severely depleted for decades.Understanding the population genetic background is a prerequisite for conservation of black carp genetic resources.Complete mitogenome was analyzed for the first time to study the population genetic diversity and structure of black carp across China.The complete mitochondrial genomes obtained from six wild and three farmed populations ranged from 16,598 to 16,614 base pairs.Black carp populations across China are characterized by moderate to high genetic differentiation(0.08≤FST≤0.55,P<0.05),with a low overall degree of gene flow(0.34≤Nm≤2.61)individuals per generation.The nucleotide diversity(Pi)ranged from 0.0010 to 0.0024 and the average number of pairwise nucleotide differences(K)ranged from 17.4 to 40.2,with the minimum Pi and K values(0.0010 and 17.4)observed in the Foshan population.Compared to farmed populations,wild populations exhibited high average genetic diversity.Neighbor-joining phylogenetic reconstructions revealed two main genetic lineages,one represented by wild populations from the middle reaches of the Yangtze River and the other by populations from the lower reaches of the Yangtze River and farmed populations.The results of Tajima's D and Fu's F neutrality tests and the nucleotide mismatch distribution indicated that wild populations expanded rapidly after undergoing a historic genetic bottleneck.Demographic decline over recent generations has resulted in a bottleneck effect upon black carp populations and genetic connectivity across its distribution has become limited.Poorly designed artificial propagation,long-term inbreeding and random genetic drift probably were the main causes of low genetic diversity in cultured populations.Our results provide baseline information crucial for conservation of black carp genetic resources in China.
文摘Complete mitochondrial genomes(mitogenomes)can provide useful information for phylogenetic relationships,gene rearrangement,and molecular evolution.In the present study,two newly sequenced mitogenomes of Ocypodoidea(Cleistostoma dilatatum and Euplax sp.)were reported for the first time,which are 15444 bp and16129 bp in length,respectively.Cleistostoma dilatatum is the first species in the family Camptandriidae whose complete mitogenome was sequenced.Each mitogenome contains an entire set of 37 genes and a putative control region,but their gene arrangements are largely different.Tandem duplication and random loss model is proposed to account for their gene arrangements.Comparative genomic analyses of 19 mitogenomes clustering in one branch reveal that 18 of them shared the same gene rearrangement,while that of C.dilatatum mitogenome was consistent with the ancestral gene arrangement of Brachyura.The dN/dS ratio analysis shows that all PCGs are evolving under purifying selection.Phylogenetic analyses show that all Macrophalmidae species cluster together as a group,and then form a sister clade with Camptandriidae.Moreover,the polyphyly of three superfamilies(Ocypodoidea,Eriphioidea,and Grapsoidea)is reconfirmed.These findings help to confirm the phylogenetic position of Camptandriidae,as well as provide new insights into the phylogeny of Brachyura.
基金supported by the following:The National Natural Science Foundation of China(31872262,31672363)National Key Program of Science and Technology Foundation Work of China(2015FY210300)Science and Technology Research Program of Chongqing Education Commission of China(KJQN202000504,KJQN202200566).
文摘Mosquitoes are of great medical significance as vectors of many deadly diseases.Mitogenomes have been widely used in phylogenetic studies,but mitogenome knowledge within the family Culicidae is limited,and Culicidae phylogeny is far from resolved.In this study,we surveyed the mitogenomes of 149 Culicidae species,including 7 newly sequenced species.Comparative analysis of 149 mosquito mitogenomes shows gene composition and order to be identical to that of an ancestral insect,and the AT bias,length variation,and codon usage are all consistent with that of other reported Dipteran mitogenomes.Phylogenetic analyses based on the DNA sequences of the 13 protein-coding genes from the 149 species robustly support the monophyly of the subfamily Anophelinae and the tribes Aedini,Culicini,Mansonini,Sabethini,and Toxorhynchitini.To resolve ambiguous relationships between clades within the subfamily Culicinae,we performed topological tests and show that Aedini is a sister to Culicini and that Uranotaenini is a sister to(Mansonini)+(Toxorhynchitini+Sabethini).In addition,we estimated divergence times using a Bayesian relaxation clock based on the sequence data and 3 fossil calibration points.The results show mosquitoes diverged during the Early Jurassic with massive Culicinae radiations during the Cretaceous,coincident with the emergence of angiosperms and the burst of mammals and birds.Overall,this study,which uses the largest number of Culicidae mitogenomes sequenced to date,comprehensively reveals the mitogenome characteristics and mitogenome-based phylogeny and divergence times of Culicidae,providing information for further studies on the mitogenome,phylogeny,evolution,and taxonomic revision of Culicidae.
基金supported by the Jiangxi Province Higher Education Teaching Research Project(JXJG-22-23-3,NSJG-21-25)Jiangxi Province Key Laboratory of Oil Crops Biology(YLKFKT202203).
文摘Rorippa indica is a wild oilseed crop of Brassicaceae with good environmental adaptability and strong stress resistance.This plant has become an important wild relative species for rapeseed(Brassica napus L.)and is used to improve its agronomic traits,with important development and utilization value.However,the research of R.indica genetics is still lacking.And no mitochondrial genome(mitogenome)in the genus Rorippa has been expounded.To analyze the structural characteristics of the R.indica mitogenome,second-generation and third-generation sequencing techniques were made to assemble its mitogenome.The results showed that its mitogenome is composed of a single master circle DNA molecule,with 59 genes(33 protein-coding,23 tRNA,and 3 ribosomal RNA genes)annotated.The length of the circular genome is 219,775 bp,with aGCcontent of 45.24%.Themitochondrial genome contains 55 SSRs,17 tandem repeats,and 252 scattered repeat sequences,with scattered repeat sequences accounting for 77.78%.The top two codons with the highest expression levels are TTT and AUU.Moreover,377 RNA editing sites were forecasted in the R.indica mitogenome.And 22 collinear gene fragments were discriminated in the R.indica chloroplast andmitogenomes,with a total 13,153 bp length,accounting for 4.08%of the mitogenome sequence.The longest gene migration fragment is 2186 bp,and the shortest fragment is 42 bp.Furthermore,12 genes undergo complete migration between the two genomes,and 10 genes undergo partial migration.Systematic evolutionary analysis shows that R.indica and Brassica napus are grouped,indicating a close genetic relationship between the two.Herein,the R.indica mitogenome was sequenced and annotated,and it was compared with other Brassicaceae mitogenomes.A genomic data foundation was supplied for elucidating the R.indica origin and evolution.
基金supported by the Chinese Academy of Tropical Agricultural Sciences for Science and Technology Innovation Team of National Tropical Agricultural Science Center(CATASCXTD202402)the Science and Technology Major Project of Guangxi,China(Guike AA23073001)+3 种基金the National Key Research and Development Program of China(2022YFD2301100)the Project of State Key Laboratory of Tropical Crop Breeding,China(NKLTCBCXTD24,NKLTCBHZ04,NKLTCB-RC202401 and SKLTCBYWF202504)the China Agriculture Research System of MOF and MARA(CARS-17)the Scientific Research Start-up Fund for High-level Introduced Talents of Henan Institute of Science and Technology,China(103020224001/073)。
文摘Mitochondria play a crucial role in plant growth,fertility,and adaptation.Sugarcane(Saccharum hybrids)represents the world’s primary sugar and energy crop,while S.spontaneum and S.arundinaceum serve as valuable parental germplasm.Despite their importance,limited research exists regarding the mitochondrial genomes of sugarcane and related species.This study presents the assembly of mitogenomes from one S.arundinaceum,one S.spontaneum,and five sugarcane cultivars.Analysis revealed that these mitogenomes,encoding 33 protein-coding genes(PCGs),ranged from 445,578 to 533,662 bp,with GC content between 43.43-43.82%.The primary structures of S.arundinaceum consisted of three small rings,while S.spontaneum exhibited one ring and one linear structure,and sugarcane displayed two rings;multiple potential conformations emerged due to repeat-mediated recombination.Additionally,this research developed an intron marker SAnad4i3 capable of species differentiation.The analysis identified between 540 and 581 C to U RNA editing sites in the PCGs,with six RNA editing sites linked to start or stop codon creation in S.arundinaceum,and five sites each in S.spontaneum and sugarcane hybrids.Significantly,30-37 fragments homologous to chloroplast DNA were identified,with S.spontaneum containing the highest number.These mitogenomes appear to have undergone substantial genomic reorganization and gene transfer events throughout evolution,including the loss of eight PCGs.This comprehensive study illuminates the genetic diversity and complexity of the Saccharum complex,establishing a foundation for future germplasm identification and evolutionary research.
基金supported by the Research Project of Mudanjiang Normal University(GP2022009,HX2023004)the Heilongjiang Provincial Natural Funds(LH2021C095).
文摘The taxonomic status of Episoriculus umbrinus has been contentious.This study aims to clarify its taxonomic position through mitochondrial genome analysis.Specimens of E.umbrinus were obtained from Liupanshui City,Guizhou Province,China.Genomic DNA was extracted,and 15 primer pairs were designed to amplify and sequence the complete mitochondrial genome of E.umbrinus.The results revealed that the mitochondrial genome of E.umbrinus is a circular double-stranded structure with a length of 17,073 bp,comprising 13 protein-coding genes,1 control region,22 tRNA genes,2 rRNA genes,and 1 origin of L-strand replication.Compared with E.caudatus,differences were observed between the two species in terms of replication origins,gene overlap regions,base lengths,and termination codons.Genetic distance analysis of mitochondrial protein-coding genes showed that the genetic distance between E.umbrinus and E.caudatus ranged from 0.069 to 0.125.A phylogenetic tree constructed based on the concatenated sequences of the 13 protein-coding genes indicated that E.umbrinus clustered as a distinct branch with the other three species within the genus Episoriculus.This study confirmed at the molecular level that E.umbrinus is an independent species rather than a subspecies of E.caudatus.The mitochondrial genome sequence of E.umbrinus provides an important supplementary information for the genetic research of this species and offers new evidence for the phylogenetic study of the tribe Nectogalini.
基金supported by the Natural Science Basic Research Program of Shaanxi Province(2023-JC-QN-0178)the National Natural Sciences Foundation of China(31702042,32260122)+2 种基金the Youth Innovation Team of Shaanxi University(2023-77)the Science and Technology Planning Project of Inner Mongolia Autonomous Region(2021GG0112)the Higher School Science and Technology Research Major Projects of the Inner Mongolia Autonomous Region(NJZZ22604)。
文摘Each species within the order Thysanoptera has a distinct mitochondrial gene order displaying a high level of gene rearrangement,particularly massive in Phlaeothripidae.To understand the evolutionary patterns of rearrangement in this family,we sequenced the complete mitochondrial genome of Psephenothrips eriobotryae,a notable potential pest of loquat trees.Its mitogenome is a circular DNA molecule(15,413 bp in size)composed of 37 genes:13 PCGs,22 tRNAs,two rRNAs,and two putative control regions(CRs).By comparing with the ancestral mitogenome of arthropods,P.eriobotryae exhibits notable gene rearrangement variations.However,it shares four conserved gene blocks with three closely related species in Phlaeothripinae.In the phylogenetic tree,P.eriobotryae was clustered with these three leaffeeding Phlaeothripinae species.The presence of more similar conserved gene blocks probably indicates a strong correlation between gene rearrangements and the phylogeny within Phlaeothripidae.Furthermore,the mitogenome of P.eriobotryae shows some characteristics:(a)two putative CRs in which CR2 is the copy of partial CR1 with 99.62%sequence similarity,and CR1 consists of two 237 bp repeat unites;(b)high A+T content of 82.6%in overall base composition;(c)trn S1 lacking a complete dihydrouridine(DHU)arm;(d)the protein coding gene,atp8 started with TTG instead of the more common ATN,while nad3 terminated by TAG rather than TAA;(e)translocations and inversions observed in fifteen of the 37 genes.
基金National Natural Science Foundation of China(32000306)Project of Innovation Team of Survey and Assessment of the Pearl River Fishery Resources(2023TD-10)Natural Science Foundation of Shaanxi Province(2023-JC-YB-325)。
文摘The genus Silurus,an important group of catfish,exhibits heterogeneous distribution in Eurasian freshwater systems.This group includes economically important and endangered species,thereby attracting considerable scientific interest.Despite this interest,the lack of a comprehensive phylogenetic framework impedes our understanding of the mechanisms underlying the extensive diversity found within this genus.Herein,we analyzed 89 newly sequenced and 20 previously published mitochondrial genomes(mitogenomes)from 13 morphological species to reconstruct the phylogenetic relationships,biogeographic history,and species diversity of Silurus.Our phylogenetic reconstructions identified eight clades,supported by both maximum-likelihood and Bayesian inference.Sequence-based species delimitation analyses yielded multiple molecular operational taxonomic units(MOTUs)in several taxa,including the Silurus asotus complex(four MOTUs)and Silurus microdorsalis(two MOTUs),suggesting that species diversity is underestimated in the genus.A reconstructed time-calibrated tree of Silurus species provided an age estimate of the most recent common ancestor of approximately 37.61 million years ago(Ma),with divergences among clades within the genus occurring between 11.56 Ma and 29.44 Ma,and divergences among MOTUs within species occurring between 3.71 Ma and 11.56 Ma.Biogeographic reconstructions suggested that the ancestral area for the genus likely encompassed China and the Korean Peninsula,with multiple inferred dispersal events to Europe and Central and Western Asia between 21.78 Ma and 26.67 Ma and to Japan between 2.51 Ma and 18.42 Ma.Key factors such as the Eocene-Oligocene extinction event,onset and intensification of the monsoon system,and glacial cycles associated with sea-level fluctuations have likely played significant roles in shaping the evolutionary history of the genus Silurus.
基金supported by a Natural Sciences and Engineering Research Council(NSERC)of Canada Discovery Grant(RGPIN/238838-2011)NSERC Discovery Accelerator Supplement(RGPAS/412336-2011)+2 种基金University of Manitoba Research Grants Program Award(#41342)to K.L.C.K.H. was supported by the Youth Innovation Promotion AssociationChinese Academy of Sciencesa JSPS Postdoctoral Fellowship for Overseas Researchers(P16092)
文摘Blarinellini is a tribe of soricine shrews comprised of nine fossil genera and one extant genus. Blarinelline shrews were once widely distributed throughout Eurasia and North America, though only members of the Asiatic short-tailed shrew genus Blarinella currently persist (mostly in southwestern China and adjacent areas). Only three forms of Blarinella have been recognized as either species or subspecies However, recent molecular studies indicated a strikingly deep divergence within the genus, implying the existence of a distinct genus-level lineage. We sequenced the complete mitochondrial genomes and one nuclear gene of three Asiatic short-tailed and two North American shrews and analyzed them morphometrically and morphologically. Our molecular analyses revealed that specimens ascribed to B. griselda formed two deeply diverged lineages, one a close relative to B. quadraticauda, whereas the other--comprised of topotype specimens from southern Gansu-iverged from other Blarinella in the middle Miocene (ca. 18.2 million years ago (Ma), 95% confidence interval=13.4-23.6 Ma). Although the skulls were similarly shaped in both lineages, we observed several diagnostic characteristics, including the shape of the upper p4. In consideration of the molecular and morphological evidence, we recognize B. griselda as the sole species of a new genus, namely, Pantherina gen. nov. Interestingly, some characteristics of Pantherina griselda are more similar to fossil genera, suggesting it represents an evolutionarily more primitive form than Blarinella.Recognition of this new genus sheds light on the systematics and evolutionary history of the tribe Blarinellini throughout Eurasia and North America.
基金This work was supported by grant from the Science and Technology Committee of Yunnan Province (2011 FB141 ) We thank Dr. Zhong-Bao ZHAO for helpful suggestions during manuscript preparation.
文摘The yellow meal worm (Tenebrio molitor L.) is an important resource insect typically used as animal feed additive. It is also widely used for biological research. The first complete mitochondrial genome of T. rnolitor was determined for the first time by long PCR and conserved primer walking approaches. The results showed that the entire mitogenome of T. molitor was 15 785 bp long, with 72.35% A+T content [deposited in GenBank with accession number KF418153]. The gene order and orientation were the same as the most common type suggested as ancestral for insects. Two protein-coding genes used atypical start codons (CTA in ND2 and AAT in COX1), and the remaining 11 protein-coding genes started with a typical insect initiation codon ATN. All tRNAs showed standard clover-leaf structure, except for tRNASer (AGN), which lacked a dihydrouridine (DHU) arm. The newly added T. molitor mitogenome could provide information for future studies on yellow meal worm.
基金The Natural Science Foundation of Zhejiang Province under contract No.LY21C190007。
文摘Complete mitochondrial genomes(mitogenomes)can indicate phylogenetic relationships,as well as useful information for gene rearrangement mechanisms and molecular evolution.Currently,the phylogenetic location of the genus Varuna(Brachyura:Varunidae)has not been well resolved mainly because of limited representatives(only two extant species).Here,we determined a new mitogenome of this genus(Varuna litterata)and added the published mitogenomes to reconstruct the phylogeny of Varunidae.The 16368-bp mitogenome contains the entire set of 37 genes and a putative control region.The characteristics of this newly sequenced mitogenome were described and compared with the other 15 Varunidae mitogenomes.All 16 analyzed mitogenomes have identical gene order and similar molecular features.The sliding window and genetic distance analyses demonstrate highly variable nucleotide diversity,with comparatively low variability of COI and COII,and high variability of ND6.The nonsynonymous/synonymous substitution rates(dN/dS ratio)analysis shows that all 13 PCGs are under purifying selection and ATP8 gene evolves under the least selective pressure.Twelve tRNA genes,two rRNAs,one PCG,and the putative control region are found to be rearranged with respect to the pancrustacean ground pattern gene order.Tandem duplication/random loss model is adopted to explain the large-scale gene rearrangement events occurring in Varunidae mitogenomes.Phylogenetic analyses show that all Varunidae species are placed into one group,and form a sister clade with Macrophthalmidae.Nevertheless,the phylogenetic relationships within Varunidae are not completely consistent based on the two different datasets used in this study.These findings will contribute to a better understanding of gene rearrangement and molecular evolution in Varunidae mitogenomes,as well as provide insights into the phylogenetic studies of Brachyura.
基金supported by the Natural Science Foundation of Zhejiang Province (No. LY21C190007)the Zhoushan Science and Technology Bureau (No. 2021C21 007)
文摘Knowledge of complete mitochondrial genomes(mitogenomes)can help understand the molecular evolution and phylogenetic relationships of various species.To date,the phylogenetic status of Leucosiidae within Brachyura remains unresolved because of the limited number of mitogenomes available.In the present study,the complete mitogenome of Myra affinis was sequenced using next-generation sequencing to supplement the limited mitogenome information of Leucosiidae.The 15349 bp-long mitogenome includes 13 protein-coding genes(PCGs),22 transfer RNAs(tRNAs),2 ribosomal RNAs(rRNAs),and a putative control region.The overall base composition is 34.5%A,36.1%T,11.5%G,and 17.9%C,with a high AT bias(70.6%).All 13 PCGs start with the standard ATN codon and stop with the TAN codon or incomplete T.Except for tRNA-Ser,all other tRNAs have a typical cloverleaf-like secondary structure.Phylogenetic analyses based on the maximum likelihood and Bayesian inference methods are employed to generate identical phylogenetic topologies,thereby supporting the sister relationship between Leucosiidae and Matutidae for the first time.The monophyly of Eubrachyura is well established,and its sister relationship with Raninoida is strongly supported.The results of this work will not only help achieve a better understanding of the characteristics of the M.affinis mitogenome and the phylogenetic position of Leucosiidae,but also provide relevant information for further studies on the phylogeny of Brachyura.
