Novel Gene Rearrangement in the Mitochondrial Genome of Anastatus Fulloi (Hymenoptera Chalcidoidea) and Phylogenetic Implications for Chalcidoidea

Abstract The genus Anastatus comprises a large group of parasitoids, including several biological control agents in agricultural and forest systems. The taxonomy and phylogeny of these species remain controversial. In this study, the mitogenome of A. fulloi Sheng and Wang was sequenced and characterized. The nearly full-length mitogenome of A. fulloi was 15,692 bp, compromising 13 protein-coding genes (PCGs), 2 rRNA genes, and 22 tRNA genes and a control region (CR). The total A + T contents were 83.83%, 82.18%, 87.58%, 87.27%, and 82.13% in the whole mitogenome, 13 PCGs, 22 tRNA genes, 2 rRNA genes, and CR, respectively. The mitogenome presented negative AT skews and positive GC skews, except for the CR. Most PCGs were encoded on the majority strand, started with ATN codons, and ended with TAA codons. Among the 3736 amino acid-encoding codons, TTA (Leu1), CGA (Arg), TCA (Ser2), and TCT (Ser2) were predominant. Most tRNAs had cloverleaf secondary structures, except trnS1, with the absence of a dihydrouridine (DHU) arm. Compared with mitogenomes of the ancestral insect and another parasitoid within Eupelmidae, large-scale rearrangements were found in the mitogenome of A. fulloi, especially inversions and inverse transpositions of tRNA genes. The gene arrangements of parasitoid mitogenomes within Chalcidoidea were variable. A novel gene arrangement was presented in the mitogenome of A. fulloi. Phylogenetic analyses based on the 13 protein-coding genes of 20 parasitoids indicated that the phylogenetic relationship of 6 superfamilies could be presented as Mymaridae + (Eupelmidae + (Encyrtidae + (Trichogrammatidae + (Pteromalidae + Eulophidae)))). This study presents the first complete mitogenome of the Anastatus genus and offers insights into the identification, taxonomy, and phylogeny of these parasitoids.

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Characterization of the complete mitochondrial DNA of Theretra japonica and its phylogenetic position within the Sphingidae (Lepidoptera: Sphingidae)

ZooKeys ◽

10.3897/zookeys.754.23404 ◽

2018 ◽

Vol 754 ◽

pp. 127-139 ◽

Cited By ~ 1

Author(s):

Jun Li ◽

Rui-Rui Lin ◽

Yao-Yao Zhang ◽

Kun-Jie Hu ◽

Ya-Qi Zhao ◽

...

Keyword(s):

Tandem Repeats ◽

Phylogenetic Analyses ◽

Rrna Genes ◽

Phylogenetic Position ◽

Trna Genes ◽

Rich Region ◽

Protein Coding ◽

Protein Coding Genes ◽

Oxidase Subunit ◽

Relationship Of

In the present study, the complete mitogenome of Theretrajaponica was sequenced and compared with other sequenced mitogenomes of Sphingidae species. The mitogenome of T.japonica, containing 37 genes (13 protein-coding genes, 22 tRNA genes, and two rRNA genes) and a region rich in adenine and thymine (AT-rich region), is a circular molecule with 15,399 base pairs (bp) in length. The order and orientation of the genes in the mitogenome are similar to those of other sequenced mitogenomes of Sphingidae species. All 13 protein-coding genes (PCGs) are initiated by ATN codons except for the cytochrome C oxidase subunit 1 gene (cox1) which is initiated by the codon CGA as observed in other lepidopteran insects. Cytochrome C oxidase subunit 2 gene (cox2) has the incomplete termination codon T and NADH dehydrogenase subunit 1 gene (nad1) terminates with TAG while the remainder terminates with TAA. Additionally, the codon distributions of the 13 PCGs revealed that Ile and Leu2 are the most frequently used codon families and codons CGG, CGC, CCG, CAG, and AGG are absent. The 431 bp AT-rich region includes the motif ATAGA followed by a 23 bp poly-T stretch, short tandem repeats (STRs) of TC and TA, two copies of a 28 bp repeat ‘ATTAAATTAATAAATTAA TATATTAATA’ and a poly-A element. Phylogenetic analyses within Sphingidae confirmed that T.japonica belongs to the Macroglossinae and showed that the phylogenetic relationship of T.japonica is closer to Ampelophagarubiginosa than Daphnisnerii. Phylogenetic analyses within Theretra demonstrate that T.japonica, T.jugurtha, T.suffusa, and T.capensis are clustered into one clade.

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Phylogenomic and Comparative Analyses of Complete Plastomes of Croomia and Stemona (Stemonaceae)

International Journal of Molecular Sciences ◽

10.3390/ijms19082383 ◽

2018 ◽

Vol 19 (8) ◽

pp. 2383 ◽

Cited By ~ 8

Author(s):

Qixiang Lu ◽

Wenqing Ye ◽

Ruisen Lu ◽

Wuqin Xu ◽

Yingxiong Qiu

Keyword(s):

Gene Order ◽

Phylogenetic Analyses ◽

Sequence Divergence ◽

Early Pleistocene ◽

Disjunct Distribution ◽

Rrna Genes ◽

Trna Genes ◽

Protein Coding ◽

Intergenic Spacers ◽

Protein Coding Genes

The monocot genus Croomia (Stemonaceae) comprises three herbaceous perennial species that exhibit EA (Eastern Asian)–ENA (Eastern North American) disjunct distribution. However, due to the lack of effective genomic resources, its evolutionary history is still weakly resolved. In the present study, we conducted comparative analysis of the complete chloroplast (cp) genomes of three Croomia species and two Stemona species. These five cp genomes proved highly similar in overall size (154,407–155,261 bp), structure, gene order and content. All five cp genomes contained the same 114 unique genes consisting of 80 protein-coding genes, 30 tRNA genes and 4 rRNA genes. Gene content, gene order, AT content and IR/SC boundary structures were almost the same among the five Stemonaceae cp genomes, except that the Stemona cp genome was found to contain an inversion in cemA and petA. The lengths of five genomes varied due to contraction/expansion of the IR/SC borders. A/T mononucleotides were the richest Simple Sequence Repeats (SSRs). A total of 46, 48, 47, 61 and 60 repeats were identified in C. japonica, C. heterosepala, C. pauciflora, S. japonica and S. mairei, respectively. A comparison of pairwise sequence divergence values across all introns and intergenic spacers revealed that the ndhF–rpl32, psbM–trnD and trnS–trnG regions are the fastest-evolving regions. These regions are therefore likely to be the best choices for molecular evolutionary and systematic studies at low taxonomic levels in Stemonaceae. Phylogenetic analyses of the complete cp genomes and 78 protein-coding genes strongly supported the monophyly of Croomia. Two Asian species were identified as sisters that likely diverged in the Early Pleistocene (1.62 Mya, 95% HPD: 1.125–2.251 Mya), whereas the divergence of C. pauciflora dated back to the Late Miocene (4.77 Mya, 95% HPD: 3.626–6.162 Mya). The availability of these cp genomes will provide valuable genetic resources for further population genetics and phylogeographic studies on Croomia.

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Characterization of the mitochondrial genome of Diphyllobothrium latum (Cestoda: Pseudophyllidea) – implications for the phylogeny of eucestodes

Parasitology ◽

10.1017/s003118200600206x ◽

2006 ◽

Vol 134 (5) ◽

pp. 749-759 ◽

Cited By ~ 19

Author(s):

J.-K. PARK ◽

K.-H. KIM ◽

S. KANG ◽

H. K. JEON ◽

J.-H. KIM ◽

...

Keyword(s):

Mitochondrial Genome ◽

Phylogenetic Analyses ◽

Complete Mitochondrial Genome ◽

Amino Acid Sequences ◽

Hymenolepis Diminuta ◽

Rrna Genes ◽

Gene Arrangement ◽

Protein Coding ◽

Protein Coding Genes ◽

Diphyllobothrium Latum

SUMMARYThe complete nucleotide sequence of the mitochondrial genome was determined for the fish tapeworm Diphyllobothrium latum. This genome is 13 608 bp in length and encodes 12 protein-coding genes (but lacks the atp8), 22 transfer RNA (tRNA) and 2 ribosomal RNA (rRNA) genes, corresponding to the gene complement found thus far in other flatworm mitochondrial (mt) DNAs. The gene arrangement of this pseudophyllidean cestode is the same as the 6 cyclophyllidean cestodes characterized to date, with only minor variation in structure among these other genomes; the relative position of trnS2 and trnL1 is switched in Hymenolepis diminuta. Phylogenetic analyses of the concatenated amino acid sequences for 12 protein-coding genes of all complete cestode mtDNAs confirmed taxonomic and previous phylogenetic assessments, with D. latum being a sister taxon to the cyclophyllideans. High nodal support and phylogenetic congruence between different methods suggest that mt genomes may be of utility in resolving ordinal relationships within the cestodes. All species of Diphyllobothrium infect fish-eating vertebrates, and D. latum commonly infects humans through the ingestion of raw, poorly cooked or pickled fish. The complete mitochondrial genome provides a wealth of genetic markers which could be useful for identifying different life-cycle stages and for investigating their population genetics, ecology and epidemiology.

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Comparative Genomics and Phylogenetic Analyses of Christia vespertilionis and Urariopsis brevissima in the Tribe Desmodieae (Fabaceae: Papilionoideae) Based on Complete Chloroplast Genomes

Plants ◽

10.3390/plants9091116 ◽

2020 ◽

Vol 9 (9) ◽

pp. 1116 ◽

Cited By ~ 1

Author(s):

Xue-Li Zhao ◽

Zhang-Ming Zhu

Keyword(s):

Phylogenetic Analyses ◽

Evolutionary Process ◽

Rrna Genes ◽

Trna Genes ◽

Sister Relationship ◽

Protein Coding ◽

Variable Regions ◽

Chloroplast Genomes ◽

Distinct Genus ◽

Relationship Of

Taxonomic and phylogenetic relationships of Christia, Urariopsis, Uraria and related genera within the tribe Desmodieae (Fabaceae: Papilionoideae) have long been controversial. Here, we report the complete chloroplast (cp) genomes of Christia vespertilionis and Urariopsis brevissima and perform comparative and phylogenetic analyses with Uraria lagopodioides and other relatives in the Desmodieae. The cp genomes of C. vespertilionis and U. brevissima are 149,656 and 149,930 bp long, with 128 unique genes (83 protein-coding genes, 37 tRNA genes and 8 rRNA genes), respectively. Comparative analyses revealed 95-129 simple sequence repeats (SSRs) and eleven highly variable regions (trnK-rbcL, rbcL-atpB, ndhJ-trnF, trnL-trnT, psbD-rpoB, accD-cemA, petA-psbL, psbE-petL, rps11-rps19, ndhF-ccsA, and rps15-ycf1) among six Desmodieae species. Phylogenetic analyses clearly resolved two subtribes (Desmodiinae and Lespedezinae) of Desmodieae as monophyletic, and the newly reported C. vespertilionis and U. brevissima clustered in subtribe Desmodiinae. A sister relationship of C. vespertilionis to U. lagopodioides was supported. Evidence was presented to support the treatment of Urariopsis as a distinct genus rather than in synonymy with Uraria. The results provide valuable information for further studies on species delimitation, phylogenetics, population genetics, and the evolutionary process of speciation in the Desmodieae.

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A novel mitogenomic rearrangement for Odorrana schmackeri (Anura: Ranidae) and phylogeny of Ranidae inferred from thirteen mitochondrial protein-coding genes

Amphibia-Reptilia ◽

10.1163/15685381-00002958 ◽

2014 ◽

Vol 35 (3) ◽

pp. 331-343 ◽

Cited By ~ 5

Author(s):

Yongmin Li ◽

Huabin Zhang ◽

Xiaoyou Wu ◽

Hui Xue ◽

Peng Yan ◽

...

Keyword(s):

Nucleotide Sequence ◽

Phylogenetic Relationships ◽

Sequence Data ◽

Phylogenetic Analyses ◽

Mitochondrial Protein ◽

Rrna Genes ◽

Mitochondrial Genomes ◽

Trna Genes ◽

Protein Coding ◽

Protein Coding Genes

We determined the complete nucleotide sequence of the mitochondrial genome of Odorrana schmackeri (family Ranidae). The O. schmackeri mitogenome (18 302 bp) contained 13 protein-coding genes, 2 rRNA genes, 21 tRNA genes and a single control region (CR). In the new mitogenome, the distinctive feature is the loss of tRNA-His, which could be explained by a hypothesis of gene substitution. The new sequence data was used to assess the phylogenetic relationships among 23 ranid species mostly from China using maximum likelihood (ML) and Bayesian inference (BI). The phylogenetic analyses support two families (Ranidae, Dicroglossidae) for Chinese ranids. In Ranidae, we support the genus Amolops should be retained in the subfamily Raninae rather than in a distinct subfamily Amolopinae of its own. Meanwhile, the monophyly of the genus Odorrana was supported. Within Dicroglossidae, four tribes were well supported including Occidozygini, Dicroglossini, Limnonectini and Paini. More mitochondrial genomes and nuclear genes are required to decisively evaluate phylogenetic relationships of ranids.

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The 287,403 bp Mitochondrial Genome of Ectomycorrhizal Fungus Tuber calosporum Reveals Intron Expansion, tRNA Loss, and Gene Rearrangement

Frontiers in Microbiology ◽

10.3389/fmicb.2020.591453 ◽

2020 ◽

Vol 11 ◽

Author(s):

Xiaolin Li ◽

Lijiao Li ◽

Zhijie Bao ◽

Wenying Tu ◽

Xiaohui He ◽

...

Keyword(s):

Large Scale ◽

Phylogenetic Analyses ◽

Mitochondrial Gene ◽

Fungal Species ◽

Ectomycorrhizal Fungus ◽

Open Reading Frames ◽

Rrna Genes ◽

Trna Genes ◽

Total Size ◽

Protein Coding

In the present study, the mitogenome of Tuber calosporum was assembled and analyzed. The mitogenome of T. calosporum comprises 15 conserved protein-coding genes, two rRNA genes, and 14 tRNAs, with a total size of 287,403 bp. Fifty-eight introns with 170 intronic open reading frames were detected in the T. calosporum mitogenome. The intronic region occupied 69.41% of the T. calosporum mitogenome, which contributed to the T. calosporum mitogenome significantly expand relative to most fungal species. Comparative mitogenomic analysis revealed large-scale gene rearrangements occurred in the mitogenome of T. calosporum, involving gene relocations and position exchanges. The mitogenome of T. calosporum was found to have lost several tRNA genes encoding for cysteine, aspartate, histidine, etc. In addition, a pair of fragments with a total length of 32.91 kb in both the nuclear and mitochondrial genomes of T. calosporum was detected, indicating possible gene transfer events. A total of 12.83% intragenomic duplications were detected in the T. calosporum mitogenome. Phylogenetic analysis based on mitochondrial gene datasets obtained well-supported tree topologies, indicating that mitochondrial genes could be reliable molecular markers for phylogenetic analyses of Ascomycota. This study served as the first report on mitogenome in the family Tuberaceae, thereby laying the groundwork for our understanding of the evolution, phylogeny, and population genetics of these important ectomycorrhizal fungi.

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The mitochondrial genome ofAncylostoma tubaeformefrom cats in China

Journal of Helminthology ◽

10.1017/s0022149x17000116 ◽

2017 ◽

Vol 92 (1) ◽

pp. 22-33 ◽

Cited By ~ 4

Author(s):

X.L. Shi ◽

Y.Q. Fu ◽

A.Y. Abdullahi ◽

M.W. Wang ◽

F. Yang ◽

...

Keyword(s):

Genome Sequence ◽

Phylogenetic Analyses ◽

Rrna Genes ◽

Trna Genes ◽

Its1 Sequence ◽

Genome Database ◽

Protein Coding ◽

Protein Coding Genes ◽

Close Phylogenetic Relationship ◽

Mt Genome

AbstractAncylostoma tubaeformemay infect canids, felids and humans, and pose a potential risk to public health. Polymerase chain reaction (PCR) techniques were used to amplify the complete mitochondrial (mt) genome sequence ofA. tubaeformefrom cats and to analyse its sequence characteristics after molecular identification based on the internal transcribed spacer ITS1+ sequence. The results show that the complete mt genome sequence (GenBank accession number KY070315) ofA. tubaeformefrom cats was 13,730 bp in length, including 12 protein-coding genes, 22 transfer RNA (tRNA) genes, two ribosomal RNA (rRNA) genes, two non-coding regions and an AT-rich region. The nucleotide content of A and T was 77.93%, biased toward A and T. Twelve protein-coding genes used ATT, TTG and GTG as initiation codons, and TAA, TAG, TA and T as termination codons. The length of the 22 tRNA genes ranged from 52 to 62 bp, their predicted secondary structures were D loops and V loops. The lengths of the two rRNAs were 958 and 697 bp. Phylogenetic analyses showed thatA. tubaeformefrom cats was in the lineage ofAncylostoma, having a close phylogenetic relationship withA. caninum. This study reports for the first time the mt genome ofA. tubaeformefrom cats in China, which could enhance the mt genome database of Ancylostomatidae nematodes, and it offers the scientific basis for further studies in the genetic diversity of hookworms among different hosts.

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Complete Mitochondrial Genome Sequence of Bos Frontalis (Gayal) of Bangladesh

10.21203/rs.3.rs-754578/v1 ◽

2021 ◽

Author(s):

Gautam Kumar Deb ◽

Razia Khatun ◽

Shakh Mohammed Jahangir Hossain ◽

Shamsur Rahaman ◽

Md. Anamul Bahar Bhuiyan ◽

...

Keyword(s):

Mitochondrial Genome ◽

Control Region ◽

Related Species ◽

Complete Mitochondrial Genome ◽

Rrna Genes ◽

Gene Arrangement ◽

Trna Genes ◽

Closely Related Species ◽

Protein Coding ◽

Protein Coding Genes

Abstract Background: Complete mitochondrial genome of Bos frontalis will aid in the investigation of evolutionary links between closely related species. Bos frontalis mitogenome contains 37 genes and a control region. We discover the first complete mitogenome of Bos frontalis found in Bangladesh which was obtained from whole-genome sequencing of Bos frontalis.Results: Bos frontalis mitogenome is 16,347 bp long, with an AT-based nucleotide composition (60.21%). It contains 37 genes, including 13 protein-coding genes, 22 tRNA genes, 2 rRNA genes and a control region (D-loop). This circular genome starts with ND6(negative strand) and ends at ND5(positive strand). Protein coding genes lost 24 bases and tRNA genes gained 27 bases compared to closely related species. Phylogenetic analysis of the mitochondrial genome of 26 closely related species from 8 congeneric species was conducted by the maximum likelihood method with 1000 bootstrap iteration.Conclusion: Our studied Bos frontalis mitochondrial genome has a similar gene arrangement compared with other Bos species. It has almost the same amount of AT and GC content, but notably the ND6 gene lacks AT skew and GC skew than that of the other two comparing species. PCG’s loss in size might be a continuous process of evolution. The mitochondrial genome is regarded as a critical tool for species identification and monitoring populations of conservation concern.

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Sequence and organisation of the mitochondrial genome of Japanese Grosbeak (Eophona personata), and the phylogenetic relationships of Fringillidae

ZooKeys ◽

10.3897/zookeys.995.34432 ◽

2020 ◽

Vol 995 ◽

pp. 67-80

Author(s):

Guolei Sun ◽

Chao Zhao ◽

Tian Xia ◽

Qinguo Wei ◽

Xiufeng Yang ◽

...

Keyword(s):

Mitochondrial Genome ◽

Phylogenetic Relationships ◽

Mitochondrial Gene ◽

Rrna Genes ◽

Gene Arrangement ◽

Trna Genes ◽

Evolutionary Analysis ◽

Protein Coding ◽

Ml Estimation ◽

Protein Coding Genes

Mitochondrial DNA is a useful molecular marker for phylogenetic and evolutionary analysis. In the current study, we determined the complete mitochondrial genome of Eophona personata, the Japanese Grosbeak, and the phylogenetic relationships of E. personata and 16 other species of the family Fringillidae based on the sequences of 12 mitochondrial protein-coding genes. The mitochondrial genome of E. personata consists of 16,771 base pairs, and contains 13 protein-coding genes, 22 transfer RNA (tRNA) genes, 2 ribosomal RNA (rRNA) genes, and one control region. Analysis of the base composition revealed an A+T bias, a positive AT skew and a negative GC skew. The mitochondrial gene order and arrangement in E. personata was similar to the typical avian mitochondrial gene arrangement. Phylogenetic analysis of 17 species of Fringillidae, based on Bayesian inference and Maximum Likelihood (ML) estimation, showed that the genera Coccothraustes and Hesperiphona are closely related to the genus Eophona, and further showed a sister-group relationship of E. personata and E. migratoria.

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Characterization of the complete chloroplast genomes of five Populus species from the western Sichuan plateau, southwest China: comparative and phylogenetic analyses

PeerJ ◽

10.7717/peerj.6386 ◽

2019 ◽

Vol 7 ◽

pp. e6386 ◽

Cited By ~ 6

Author(s):

Dan Zong ◽

Anpei Zhou ◽

Yao Zhang ◽

Xinlian Zou ◽

Dan Li ◽

...

Keyword(s):

Phylogenetic Analyses ◽

Molecular Genetic ◽

Gc Content ◽

Rrna Genes ◽

Trna Genes ◽

Nucleotide Substitutions ◽

Protein Coding ◽

Western Sichuan ◽

Protein Coding Genes ◽

Chloroplast Genomes

Species of the genus Populus, which is widely distributed in the northern hemisphere from subtropical to boreal forests, are among the most commercially exploited groups of forest trees. In this study, the complete chloroplast genomes of five Populus species (Populus cathayana, P. kangdingensis, P. pseudoglauca, P. schneideri, and P. xiangchengensis) were compared. The chloroplast genomes of the five Populus species are very similar. The total chloroplast genome sequence lengths for the five plastomes were 156,789, 156,523, 156,512, 156,513, and 156,465 bp, respectively. A total of 130 genes were identified in each genome, including 85 protein-coding genes, 37 tRNA genes and eight rRNA genes. Seven genes were duplicated in the protein-coding genes, whereas 11 genes were duplicated in the RNA genes. The GC content was 36.7% for all plastomes. We analyzed nucleotide substitutions, small inversions, simple sequence repeats and long repeats in the chloroplast genomes and found nine divergence hotspots (ccsA+ccsA-ndhD, ndhC-trnV, psbZ-trnfM, trnG-atpA, trnL-ndhJ, trnR-trnN, ycf4-cemA, ycf1, and trnR-trnN), which could be useful molecular genetic markers for future population genetic and phylogenetic studies. We also observed that two genes (rpoC2 and rbcL) were subject to positive selection. Phylogenetic analysis based on whole cp genomes showed that P. schneideri had a close relationship with P. kangdingensis and P. pseudoglauca, while P. xiangchengensis was a sister to P. cathayana.

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