Keywords: ژنوم میتوکندریابی; Mitochondrial genome; Human; Livestock; Phylogenetic analysis;
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Keywords: ژنوم میتوکندریابی; Horse; Mitochondrial genome; Phylogenetic; Haplotype; Haplogroup;
Keywords: ژنوم میتوکندریابی; Mitochondrial genome; Strand bias; Mollusca; Phylogenetic analyses;
Keywords: ژنوم میتوکندریابی; Khawia sinensis; Mitochondrial genome; Phylogenetic analysis;
Keywords: ژنوم میتوکندریابی; ML, maximum likelihood; BI, Bayesian inference; Mya, million years ago; PRRs, pattern recognition receptorsHydra; Mitochondrial genome; Endosymbiotic potential; Chlorococcum
Keywords: ژنوم میتوکندریابی; Schyzocotyle acheilognathi; Asian fish tapeworm; Bothriocephalus acheilognathi; Invasive parasite; Mitochondrial genome; Ribosomal RNA; Illumina sequencing; Phylogeny;
Keywords: ژنوم میتوکندریابی; Peripheral arterial disease; Venous thromboembolism; Mitochondrial genome; Genetic association study;
Keywords: ژنوم میتوکندریابی; Mitochondrial genome; Control region duplication; Evolutionary rate; Base composition; Nucleotide skew; Body size effect;
Keywords: ژنوم میتوکندریابی; Mitochondrial genome; Positive selection; Cryptolaemus montrouzieri; Biological control;
Keywords: ژنوم میتوکندریابی; Forensic genetics; Mitochondrial genome (mtGenome); Monozygotic twins; Massively parallel sequencing (MPS; STR; short tandem repeat; MZ; monozygotic; SNP; single nucleotide polymorphism; mtDNA; mitochondrial DNA; mtGenome; mitochondrial genome; STS; Sange
Keywords: ژنوم میتوکندریابی; Transcriptomics; DNA array; genome-wide association study; mitochondrial genome; telomeres
Keywords: ژنوم میتوکندریابی; Mitochondrial genome; Apocrita; Phylogeny; Gene rearrangement; Inverted duplicated AÂ +Â T rich regions;
Keywords: ژنوم میتوکندریابی; Papilio glaucus; Mitochondrial genome; Illumina sequencing; Phylogeny
Keywords: ژنوم میتوکندریابی; bp; basepairs; Cyt b; cytochrome b; HVR1; Hypervariability Region 1; IgE; Immunoglobulin E; mtSNP; mitochondrial single nucleotide polymorphism; NADH; nicotinamide adenine dinucleotide; ND2; NADH dehydrogenase subunit 2; OXPHOS; oxidative phosphorylation;
Keywords: ژنوم میتوکندریابی; dS; rate of synonymous substitutions; dN; rate of non-synonymous substitutions; dN/dS; ratio between rate of synonymous and non-synonymous substitutions; mtDNA; mitochondrial genome; OXPHOS; oxidative phosphorylation; COX; cytochrome c oxidase; COX1; cyto
Keywords: ژنوم میتوکندریابی; Sciaenidae; Mitochondrial genome; Phylogeny; Divergence time; Origin;
Keywords: ژنوم میتوکندریابی; Gymnophiona; Larval re-evolution; Maternal dermatophagy; Mitochondrial genome; Reproduction; Viviparity;
Keywords: ژنوم میتوکندریابی; mt; mitochondria; SNP; single nucleotide polymorphism; θS; the standardized number of polymorphic sites per site; θÏ; the average number of pair-wise nucleotide differences; dS; the mean number of synonymous substitutions per synonymous site; dN; the m
Keywords: ژنوم میتوکندریابی; Candida albicans; Mitochondrial genome; Molecular evolution;
Keywords: ژنوم میتوکندریابی; Avian RNA structure; Dataset partitioning; Mitochondrial genome; Phylogenetic analysis;
Characterization and comparison of the mitochondrial genomes from two Lyophyllum fungal species and insights into phylogeny of Agaricomycetes
Keywords: ژنوم میتوکندریابی; Lyophyllum; Mitochondrial genome; Protein coding gene; Repeat sequence; Gene rearrangement; Phylogenetic analysis;
Characterization and comparative analysis of six complete mitochondrial genomes from ectomycorrhizal fungi of the Lactarius genus and phylogenetic analysis of the Agaricomycetes
Keywords: ژنوم میتوکندریابی; Lactarius; Mitochondrial genome; Protein coding gene; Repeat sequence; Gene rearrangement; Phylogenetic analysis;
Characterization of the complete mitochondrial genome of Simulium (Byssodon) maculatum (Diptera: Simuliidae) and its phylogenetic implications
Keywords: ژنوم میتوکندریابی; Simulium (Byssodon) maculatum; Mitochondrial genome; Phylogenetic analysis;
Mitochondrial gene order evolution in Mollusca: Inference of the ancestral state from the mtDNA of Chaetopleura apiculata (Polyplacophora, Chaetopleuridae)
Keywords: ژنوم میتوکندریابی; Chaetopleura apiculata; Polyplacophora; Mollusca; Mitochondrial genome; Gene order evolution; Phylogeny; 12S and 16S; genes encoding respectively the small and large mitochondrial ribosomal RNA subunits; A; adenine; A, C, D, E, F, G, H, I, K, L1, L2, M, N
Evolutionary progression of mitochondrial gene rearrangements and phylogenetic relationships in Strigidae (Strigiformes)
Keywords: ژنوم میتوکندریابی; BI; Bayesian inference; BIC; Bayesian information criterion; BP; bootstrap percentages; BSB; bird similarity box; CR; control region; COX; cytochrome c oxidase subunit; Cyt b; cytochrome b; G; gamma distribution substitution rates; GTR; general time-rever
Mitogenomics supports an unexpected taxonomic relationship for the extinct diving duck Chendytes lawi and definitively places the extinct Labrador Duck
Keywords: ژنوم میتوکندریابی; Biodiversity; Anatidae; Ancient DNA; Labrador duck; Mitochondrial genome; California paleontology; Duck evolution;
Characterization of four new mitogenomes from Ocypodoidea & Grapsoidea, and phylomitogenomic insights into thoracotreme evolution
Keywords: ژنوم میتوکندریابی; mt; mitochondrial; O & G; Ocypodoidea and Grapsoidea; IGNs; non-coding intergenic nucleotides; mNCR; main non-coding region; AA(or aa); amino acid(s); PCG; protein-coding gene(s); rRNA; ribosomal RNA; M & V; Macrophthalmidae and Varunidae; LBA; long-branc
Complete mitochondrial genome of Saturnia jonasii (Lepidoptera: Saturniidae): Genomic comparisons and phylogenetic inference among Bombycoidea
Keywords: ژنوم میتوکندریابی; Saturnia jonasii; Mitochondrial genome; Bombycoidea; Phylogeny;
Mitochondrial phylogenomics and genome rearrangements in the barklice (Insecta: Psocodea)
Keywords: ژنوم میتوکندریابی; Mitochondrial genome; Gene rearrangements; Psocodea; Psocoptera; Prionoglarididae; Phylogeny;
Employing hypothesis testing and data from multiple genomic compartments to resolve recalcitrant backbone nodes in Goodenia s.l. (Goodeniaceae)
Keywords: ژنوم میتوکندریابی; Chloroplast genome; Conserved ortholog set (COS); Genome skimming; Goodeniaceae; Mitochondrial genome; Phylogeny; Rapid radiation; Topology testing;
A simple strategy for recovering ultraconserved elements, exons, and introns from low coverage shotgun sequencing of museum specimens: Placement of the partridge genus Tropicoperdix within the galliformes
Keywords: ژنوم میتوکندریابی; Sequence capture; Reduced complexity assembly; Read mapping; Mitochondrial genome; Phasianidae;
The complete mitochondrial genome of the Caulerpa lentillifera (Ulvophyceae, Chlorophyta): Sequence, genome content, organization structure and phylogenetic consideration
Keywords: ژنوم میتوکندریابی; C. lentillifera; Caulerpa lentillifera; PCGs; protein-coding genes; tRNA; transfer RNA; rRNA; ribosomal RNA; ORFs; open reading frames; mtDNAs; mitochondrial genomes; ML; Maximum Likelihood; AIC; Akaike Information Criterion; rrn5; 5S rRNA; rns; 16S rRNA;
The complete mitochondrial genome of Huananpotamon lichuanense (Decapoda: Brachyura) with phylogenetic implications for freshwater crabs
Keywords: ژنوم میتوکندریابی; PCG; protein-coding gene; ND1-ND6 and ND4L; NADH dehydrogenase subunit 1-6 and 4Â L; Cytb; cytochrome b dehydrogenase; COX1-3; cytochrome c oxidase subunit 1-3; ATP6 and ATP8; ATP synthase subunit 6 and 8; PCR; polymerase chain reaction; AIC; Akai
Comparative mitochondrial genome analysis of Spilarctia subcarnea and other noctuid insects
Keywords: ژنوم میتوکندریابی; Spilarctia subcarnea; Mitochondrial genome; Gene arrangement; Phylogenetic analysis;
Complete mitochondrial genome of the tea looper caterpillar, Ectropis obliqua (Lepidoptera: Geometridae) with a phylogenetic analysis of Geometridae
Keywords: ژنوم میتوکندریابی; Ectropis obliqua; Mitochondrial genome; Phylogeny;
Mitochondrial genome characteristics of two Sphingidae insects (Psilogramma increta and Macroglossum stellatarum) and implications for their phylogeny
Keywords: ژنوم میتوکندریابی; Psilogramma increta; Macroglossum stellatarum; Lepidoptera; Mitochondrial genome; Sphingidae;
The first two mitochondrial genomes of the family Aphelinidae with novel gene orders and phylogenetic implications
Keywords: ژنوم میتوکندریابی; Mitochondrial genome; Phylogeny; Chalcidoidea;
The complete mitochondrial genome of Vannella simplex (Amoebozoa, Discosea, Vannellida)
Keywords: ژنوم میتوکندریابی; cox1-3; cytochrome oxidase subunit I-III genes; cob; cytochrome b gene; atp9; ATP synthase subunit 9 gene; nad1-6, 11; NADH dehydrogenase subunit 1-6, 11 and 4L genes; tRNA; transfer RNA genes; rrnL, rrnS; ribosomal RNA genes; ORF; open reading fr
Characterization of the complete mitochondrial genome of Phymatostetha huangshanensis (Hemiptera: Cercopidae) and phylogenetic analysis
Keywords: ژنوم میتوکندریابی; Cercopoidea; Mitochondrial genome; Phylogeny;
Higher tRNA gene duplication in mitogenomes of praying mantises (Dictyoptera, Mantodea) and the phylogeny within Mantodea
Keywords: ژنوم میتوکندریابی; ATP8; ATP synthase F0 subunit 8; BI; Bayesian inference; COI; cytochrome c oxidase subunit I; COII; cytochrome c oxidase subunit II; COIII; cytochrome c oxidase subunit III; CR; control region; Fig; figure; mitogenome/mt genome; mitochondrial genome; ML;
Comparative analysis of Ancylostoma ceylanicum mitochondrial genome with other Ancylostoma species
Keywords: ژنوم میتوکندریابی; Ancylostoma ceylanicum; Mitochondrial genome; Dog; Comparative genomics; Phylogenetic tree;
Comparative mitogenomic analysis reveals cryptic species in Reticunassa festiva (Neogastropoda: Nassariidae)
Keywords: ژنوم میتوکندریابی; atp6 and atp8; ATPase subunit 6 and 8 genes; cob; cytochrome b gene; cox1-3; cytochrome coxidase subunits I-III genes; NCR; non-coding region; nad1-6 and nad4L; NADH dehydrogenase subunits 1-6 and 4â¯L genes; ML; maximum likelihood; BI; Bayesian in
The complete mitochondrial genome of Clostera anastomosis (Lepidoptera: Notodontidae) and implication for the phylogenetic relationships of Noctuoidea species
Keywords: ژنوم میتوکندریابی; Clostera anastomosis; Mitochondrial genome; Phylogeny;
Gene arrangement and sequence of mitochondrial genomes yield insights into the phylogeny and evolution of bees and sphecid wasps (Hymenoptera: Apoidea)
Keywords: ژنوم میتوکندریابی; Apoidea; Bee; Sphecid wasp; Mitochondrial genome; Gene rearrangement; Phylogeny;
The mitochondrial genomes of the barklice, Lepinotus reticulatus and Dorypteryx domestica (Psocodea: Trogiomorpha): Insight into phylogeny of the order Psocodea
Keywords: ژنوم میتوکندریابی; Psocodea; Mitochondrial genome; Phylogeny;
A mitochondrial genome of Micronectidae and implications for its phylogenetic position
Keywords: ژنوم میتوکندریابی; Nepomorpha; Mitochondrial genome; Phylogenetic analysis;
Characterization and comparative mitogenomic analysis of six newly sequenced mitochondrial genomes from ectomycorrhizal fungi (Russula) and phylogenetic analysis of the Agaricomycetes
Keywords: ژنوم میتوکندریابی; Russula; Mitochondrial genome; Evolution; Phylogeny; Molecular marker; Ectomycorrhizal fungi;
Characterization of the mitochondrial genomes of three species in the ectomycorrhizal genus Cantharellus and phylogeny of Agaricomycetes
Keywords: ژنوم میتوکندریابی; Cantharellus; Mitochondrial genome; Evolution; Phylogeny; Molecular marker;
Phylogeny, evolution and mitochondrial gene order rearrangement in scale worms (Aphroditiformia, Annelida)
Keywords: ژنوم میتوکندریابی; Deep-sea; Gene order; Mitochondrial genome; Molecular phylogeny; Polychaete; Polynoidae;
ORDER within the chaos: Insights into phylogenetic relationships within the Anomura (Crustacea: Decapoda) from mitochondrial sequences and gene order rearrangements
Keywords: ژنوم میتوکندریابی; Anomura; Decapoda; Mitochondrial genome; Phylogenetics; Gene order;