Higher tRNA gene duplication in mitogenomes of praying mantises (Dictyoptera, Mantodea) and the phylogeny within Mantodea

Zhang, Leping; Yu, Dan‐Na; Storey, Kenneth B.; Cheng, Han; Zhang, Jia‐Yong

doi:10.1016/j.ijbiomac.2018.01.016

Cited by 44 publications

(99 citation statements)

References 56 publications

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“…The AT-skew and GC-skew of this genome were 0.049 and À0.223, respectively. The gene organization of A. yunnanensis is similar to that observed in other praying mantises (Ye et al 2016;Zhang et al 2018). Twenty-one genes were encoded on the major strand (J-strand), whereas the others were encoded on the minor strand (N-strand).…”

supporting

confidence: 61%

Characterization of the complete mitochondrial genome sequence ofAsiadodis yunnanensis (Mantidae: Choeradodinae) and phylogenetic analysis

Shi

Liu

Luo

et al. 2019

Mitochondrial DNA Part B

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The complete mitochondrial genome of the praying mantises Asiadodis yunnanensis was characterized in this study. The circular molecule is 15,416 bp in length (GenBank accession no. MN037794), containing 13 protein-coding genes (PCGs), two ribosomal RNA (rRNA) genes, 22 transfer RNA (tRNA) genes. The nucleotide composition is asymmetric (39.5% A, 15.1% C, 9.6% G, 35.8% T), with an overall A þ T content of 75.3%. The gene arrangement of A. yunnanensis is identical to that observed in other praying mantises. Seven PCGs are initiated with typical ATN start codons, Four genes (cox1, nad3, nad4L, and nad6) begin with TTN, nad1 begin with GTT, and nad5 use CTT, as initiation codon. Twelve PCGs stop with complete termination codon TAA and TAG, whereas nad5 uses incomplete termination codon (T--). Twenty reading frame overlaps and seven intergenic regions are found in the mitogenome of A. yunnanensis. The phylogenetic relationships based on 13 PCGs show that A. yunnanensis clusters closest to the species of Mantidae. ARTICLE HISTORY

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supporting

confidence: 61%

Characterization of the complete mitochondrial genome sequence ofAsiadodis yunnanensis (Mantidae: Choeradodinae) and phylogenetic analysis

Shi

Liu

Luo

et al. 2019

Mitochondrial DNA Part B

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“…Total genomic DNA was extracted from leg muscle using an Ezup Column Animal Genomic DNA Purification Kit (Sangon Biotech Company, Shanghai, China) and stored in the Zhang laboratory. A set of modified universal primers (Zhang et al 2008;Zhang, Yu, et al 2018) were designed for polymerase chain reaction (PCR) amplification. All PCR products were sequenced in both directions by the Sangon Biotech Company (Shanghai, China).…”

mentioning

confidence: 99%

“…To select conserved regions of the putative nucleotide sequences, each alignment was analyzed with Gblocks 0.91 b (Castresana 2000) using default settings. BI and ML trees were constructed using the 13 protein-coding genes of 21 species, which included 18 Mantidae species (Cameron et al 2006;Song et al 2016;Ye et al 2016;Tian et al 2017;Zhang and Ye 2017;Zhang, Yu et al 2018;Zhang et al 2018aZhang et al , 2018b and three Blattaria species as the outgroups (Cameron and Whiting 2007;Dietrich and Brune 2016).…”

mentioning

confidence: 99%

The complete mitochondrial genome of Mantis religiosa (Mantodea: Mantidae) from Canada and its phylogeny

Jia

Zhang

et al. 2019

Mitochondrial DNA Part B

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The complete mitochondrial genome of Mantis religiosa (Mantodea: Mantidae) from Canada was successfully sequenced. The mitochondrial genome was a circular molecule of 15,521 bp in length, containing 13 protein-coding genes, two rRNA genes, 23 tRNA genes (including an extra tRNA Arg gene), and the control region. The AT content of the whole genome was 76.9% and the length of the control region was 636 bp with 81.9% AT content. The structure of the M. religiosa mitochondrial genome from Canada was almost identical to M. religiosa from China and their genetic distance was just 0.017. In Bayesian inference (BI) and maximum likelihood (ML) analyses, we found that M. religiosa was a sister clade to Statilia sp. and the monophyly of the genera Hierodula and Rhombodera was not supported.

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“…We downloaded the data from previously sequenced species of Neuroptera as ingroups including S. longialata (Beckenbach & Stewart, 2008;Cameron et al, 2009;Cheng et al, 2014;Cheng et al, 2015;Haruyama et al, 2011;He et al, 2012;Jiang et al, 2017;Lan et al, 2016;Negrisolo, Babbucci & Patarnello, 2011;Wang et al, 2012;Wang et al, 2013;Wang et al, 2017;Yan et al, 2014;Zhao et al, 2016;Zhang & Wang, 2016;Zhang & Yang, 2017;Zhao et al, 2013) Manuscript to be reviewed genomes are listed in Table S2. Nucleotide sequences of the 13 PCGs were employed for construction of BI and ML phylogenetic trees according to Cheng et al 2016and Zhang et al (2018). DNA alignment was acquired from the amino acid alignment of the PCGs using Clustal W in Mega 7.0 (Kumar, Stecher & Tamura, 2016), and the conserved regions were found by Gblock 0.91b (Castresana, 2000).…”

Section: Phylogenetic Analysesmentioning

confidence: 99%

“…Additionally, we also analyzed evolutionary relationships within Neuroptera using Megaloptera as outgroups to discuss the relationship between Ascalaphidae and Myrmeleontidae, and the relationships of inter-families of Neuroptera. Manuscript to be reviewed PCR amplification and sequencing of S. longialata mtDNA Twelve universal primers for polymerase chain reaction (PCR) amplification were modified according to Simon et al (2006), and Zhang et al (2018) (Table S1 and Fig.1) based on the mitogenome sequences of the three known species of Ascalaphidae (L. macaronius, Ascaloptynx appendiculatus and Ascalohybris subjacens). Then five specific primers (Table S1 and Fig.1…”

Section: Introductionmentioning

confidence: 99%

Peer Review #1 of "Characteristics of the complete mitochondrial genome of Suhpalacsa longialata (Neuroptera, Ascalaphidae) and its phylogenetic implications (v0.1)"

2018

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The owlflies (Family Ascalaphidae) belong to the Neuroptera but are often mistaken as dragonflies because of morphological characters. To date, only three mitochondrial genomes of Ascalaphidae, namely Libelloides macaronius; Ascaloptynx appendiculatus; Ascalohybris subjacens, are published in GenBank, meaning that they are greatly underrepresented in comparison with the 430 described species reported in this family. In this study, we sequenced and described the complete mitochondrial genome of Suhpalacsa longialata (Neuroptera, Ascalaphidae). The total length of the S. longialata mitogenome was 15,911 bp, which is the longest known to date among the available family members of Ascalaphidae. However, the size of each gene was similar to the other three Ascalaphidae species. The S. longialata mitogenome included a transposition of tRNACys and tRNATrp genes and formed an unusual gene arrangement tRNA Cys-tRNA Trp-tRNA Tyr (CWY). It is likely that the transposition occurred by a duplication of both genes followed by random loss of partial duplicated genes. The nucleotide composition of the S. longialata mitogenome was as follows: A=41.0%, T=33.8%, C=15.5%, G=9.7%. Both BI and ML analyses strongly supported S. longialata as a sister clade to (Ascalohybris subjacens + L. macaronius), and indicated that Ascalaphidae is not monophyletic.

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Higher tRNA gene duplication in mitogenomes of praying mantises (Dictyoptera, Mantodea) and the phylogeny within Mantodea

Cited by 44 publications

References 56 publications

Characterization of the complete mitochondrial genome sequence ofAsiadodis yunnanensis (Mantidae: Choeradodinae) and phylogenetic analysis

Characterization of the complete mitochondrial genome sequence ofAsiadodis yunnanensis (Mantidae: Choeradodinae) and phylogenetic analysis

The complete mitochondrial genome of Mantis religiosa (Mantodea: Mantidae) from Canada and its phylogeny

Peer Review #1 of "Characteristics of the complete mitochondrial genome of Suhpalacsa longialata (Neuroptera, Ascalaphidae) and its phylogenetic implications (v0.1)"

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