1.Analysis of Nuclear Mitochondrial DNA Segments of Nine Plant Species: Size, Distribution, and Insertion Loci.
Genomics & Informatics 2016;14(3):90-95
Nuclear mitochondrial DNA segment (Numt) insertion describes a well-known phenomenon of mitochondrial DNA transfer into a eukaryotic nuclear genome. However, it has not been well understood, especially in plants. Numt insertion patterns vary from species to species in different kingdoms. In this study, the patterns were surveyed in nine plant species, and we found some tip-offs. First, when the mitochondrial genome size is relatively large, the portion of the longer Numt is also larger than the short one. Second, the whole genome duplication event increases the ratio of the shorter Numt portion in the size distribution. Third, Numt insertions are enriched in exon regions. This analysis may be helpful for understanding plant evolution.
DNA, Mitochondrial*
;
Exons
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Genome
;
Genome, Mitochondrial
;
Plants*
2.Defining the component of Fasciola hepatica species on the Vietnamese from eggs collected from human tool by moleurlar method of mitochondria genome
Journal of Practical Medicine 2004;483(7):42-46
A 21 -year -old woman patient, from middle of February 2003, she had got fatigue, weight loss 5-6 kg within 3 weeks, bad appetite, indigestion. Then she had pain in right lower rib, 390C fever, cough, dry vomitting. She had got diagnosis of hepatic abscess and unsuccessfully treated by 10 days antibiotics. She had got cecal abscess and abscess block was removed. Stool examination found Fasciola hepatica eggs and ELISA serum test was (+) with F.gigantica antigen (collected from buffaloes and cows) by title of 1/12800, acidophil white blood cell 12%. Triclabendazole 10mg/kg gave good results.
Fasciola
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Vietnam
;
Eggs
;
Genome, Mitochondrial
3.Complete Mitochondrial Genome of Anoplocephala magna Solidifying the Species.
The Korean Journal of Parasitology 2016;54(3):369-373
The 2 species of the genus Anoplocephala (Anoplocephalidae), A. perfoliata and A. magna, are among the most important equine cestode parasites. However, there is little information about their differences at the molecular level. The present study revealed that the mitochondrial (mt) genome of A. magna was 13,759 bp in size and 700 bp shorter than that of A. perfoliata. The 2 species includes 2 rRNA, 22 tRNA, and 12 protein-coding genes each. The size of each of the 36 genes was the same as that of A. perfoliata, except for cox1, rrnL, trnC, trnS2(UCN), trnG, trnH, trnQ, and trnP. In the full mitochondrial genome, the sequence similarity was 87.1%. The divergence in the nucleotide and amino acid sequences of individual protein-coding genes ranged from 11.1% to 16% and 6.8% to 16.4%, respectively. The 2 noncoding regions of the mt genome of A. magna were 199 bp and 271 bp in length, while the equivalent regions in A. perfoliata were 875 bp and 276 bp, respectively. The results of this study support the proposal that A. magna and A. perfoliata are separate species, consistent with previous morphological analyses.
Amino Acid Sequence
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Cestoda
;
Genome
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Genome, Mitochondrial*
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Parasites
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RNA, Transfer
4.Molecular identification of Paragonimus heterotremus from different hosts in Vietnam using mitochondrial genetic markers
Journal of Vietnamese Medicine 2004;296(3):1-9
By molecular identification and using mitochondrial genetic markers, the results showed that different forms of lung fluke in Vietnam, including adult fluke from human, dogs, cats and Potamicus sp. rock crab, have been identified as Paragonimus heteotremus. Molecular-based analysis on 390 nucleotides of the cytochrome oxidase gene revealed that Paragonimus heterotremus of Vietnam from all forms showed high identity to the Chinese and Thai strains. (99.0 -99.2% nucleotide and 97-100% amino acid). Phylogenetic analysis uniquely placed the Vietnamese Paragonimus sp to the group of P.heterotremus of Chinese and Thai origin. Thus, P.heterotremus is offically identified from most of the natural and experimental hosts in Vietnam
Molecular Diagnostic Techniques
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Paragonimus
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Genome, Mitochondrial
5.Complete Sequence of the Mitochondrial Genome of Spirometra ranarum: Comparison with S. erinaceieuropaei and S. decipiens
Hyeong Kyu JEON ; Hansol PARK ; Dongmin LEE ; Seongjun CHOE ; Yeseul KANG ; Mohammed Mebarek BIA ; Sang Hwa LEE ; Keeseon S EOM
The Korean Journal of Parasitology 2019;57(1):55-60
This study was undertaken to determine the complete mitochondrial DNA sequence and structure of the mitochondrial genome of Spirometra ranarum, and to compare it with those of S. erinaceieuropaei and S. decipiens. The aim of this study was to provide information of the species level taxonomy of Spirometra spp. using the mitochondrial genomes of 3 Spirometra tapeworms. The S. ranarum isolate originated from Myanmar. The mitochondrial genome sequence of S. ranarum was compared with that of S. erinaceieuropaei (GenBank no. KJ599680) and S. decipiens (Gen-Bank no. KJ599679). The complete mtDNA sequence of S. ranarum comprised 13,644 bp. The S. ranarum mt genome contained 36 genes comprising 12 protein-coding genes, 22 tRNAs and 2 rRNAs. The mt genome lacked the atp8 gene, as found for other cestodes. All genes in the S. ranarum mitochondrial genome are transcribed in the same direction and arranged in the same relative position with respect to gene loci as found for S. erinaceieuropaei and S. decipiens mt genomes. The overall nucleotide sequence divergence of 12 protein-coding genes between S. ranarum and S. decipiens differed by 1.5%, and 100% sequence similarity was found in the cox2 and nad6 genes, while the DNA sequence divergence of the cox1, nad1, and nad4 genes of S. ranarum and S. decipiens was 2.2%, 2.1%, and 2.6%, respectively.
Base Sequence
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Cestoda
;
Classification
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DNA, Mitochondrial
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Genes, vif
;
Genome
;
Genome, Mitochondrial
;
Myanmar
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RNA, Transfer
;
Spirometra
6.Genetics of Mitochondrial Myopathies.
Journal of Genetic Medicine 2013;10(1):20-26
Mitochondrion is an intracellular organelle with its own genome. Its function in cellular metabolism is indispensable that mitochondrial dysfunction gives rise to multisystemic failure. The manifestation is most prominent with tissues of high energy demand such as muscle and nerve. Mitochondrial myopathies occur not only by mutations in mitochondrial genome, but also by defects in nuclear genes or secondarily by toxic insult on mitochondrial replication. Currently curative treatment modality does not exist and symptomatic treatment remains mainstay. Administration of L-arginine holds great promise according to the recent reports. Advances in mitochondrial RNA import might enable a new therapeutic strategy.
Arginine
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Genome
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Genome, Mitochondrial
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MELAS Syndrome
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MERRF Syndrome
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Mitochondria
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Mitochondrial Myopathies
;
Muscles
;
Ophthalmoplegia, Chronic Progressive External
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Organelles
;
RNA
7.Spectrum of mitochondrial genome instability and implication of mitochondrial haplogroups in Korean patients with acute myeloid leukemia.
Hye Ran KIM ; Min Gu KANG ; Young Eun LEE ; Bo Ram NA ; Min Seo NOH ; Seung Hyun YANG ; Jong Hee SHIN ; Myun Geun SHIN
Blood Research 2018;53(3):240-249
BACKGROUND: Mitochondrial DNA (mtDNA) mutations may regulate the progression and chemosensitivity of leukemia. Few studies regarding mitochondrial aberrations and haplogroups in acute myeloid leukemia (AML) and their clinical impacts have been reported. Therefore, we focused on the mtDNA length heteroplasmies minisatellite instability (MSI), copy number alterations, and distribution of mitochondrial haplogroups in Korean patients with AML. METHODS: This study investigated 74 adult patients with AML and 70 controls to evaluate mtDNA sequence alterations, MSI, mtDNA copy number, haplogroups, and their clinical implications. The hypervariable (HV) control regions (HV1 and HV2), tRNA(leu1)gene, and cytochrome b gene of mtDNA were analyzed. Two mtDNA minisatellite markers, 16189 poly-C (¹⁶¹⁸⁴CCCCCTCCCC¹⁶¹⁹³, 5CT4C) and 303 poly-C (³⁰³CCCCCCCTCCCCC³¹⁵, 7CT5C), were used to examine the mtDNA MSI. RESULTS: In AML, most mtDNA sequence variants were single nucleotide substitutions, but there were no significant differences compared to those in controls. The number of mtMSI patterns increased in AML. The mean mtDNA copy number of AML patients increased approximately 9-fold compared to that of controls (P < 0.0001). Haplogroup D4 was found in AML with a higher frequency compared to that in controls (31.0% vs. 15.7%, P=0.046). None of the aforementioned factors showed significant impacts on the outcomes. CONCLUSION: AML cells disclosed more heterogeneous patterns with the mtMSI markers and had increased mtDNA copy numbers. These findings implicate mitochondrial genome instability in primary AML cells. Therefore, mtDNA haplogroup D4 might be associated with AML risk among Koreans.
Adult
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Cytochromes b
;
DNA, Mitochondrial
;
Genome, Mitochondrial*
;
Humans
;
Leukemia
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Leukemia, Myeloid, Acute*
;
Minisatellite Repeats
8.Progress of research on the genetic diseases caused by variants of mitochondrial aminoacyl-tRNA synthase gene.
Xiangyue ZHAO ; Tingting YU ; Jian WANG
Chinese Journal of Medical Genetics 2022;39(12):1424-1428
As conserved enzymes with important functions, aminoacyl-tRNA synthetase are expressed ubiquitously in cells. These include cytoplasmic aminoacyl-tRNA synthetase, mitochondrial aminoacyl-tRNA synthetase and bifunctional aminoacyl-tRNA synthetase. Mitochondrial aminoacyl-tRNA synthetases catalyze the binding of amino acids with its corresponding tRNA in the mitochondria and participate in the translation of 13 subunits of oxidative phosphorylation enzyme complexes encoded by the mitochondrial genome. Mutations in genes encoding mitochondrial aminoacyl-tRNA synthase may cause a variety of genetic disorders. This review has summarized the clinical characteristics, molecular pathogenesis and treatment of genetic diseases caused by mutations of such genes.
Humans
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RNA, Transfer, Amino Acyl
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Genes, Mitochondrial
;
Amino Acyl-tRNA Synthetases/genetics*
;
Genome, Mitochondrial
;
Mitochondria/genetics*
9.Mitochondrial DNA Heteroplasmy of Hair Shaft Using HID Ion GeneStudioTM S5 Sequencing System.
Feng CHENG ; Qing Xia ZHANG ; Cheng Jian CHEN ; Wan Ting LI ; Jia Rong ZHANG ; Geng Qian ZHANG ; Jiang Wei YAN
Journal of Forensic Medicine 2021;37(1):21-25
Objective To study the heteroplasmy of the whole mitochondrial genome genotyping result of hair shaft samples using HID Ion GeneStudioTM S5 Sequencing System. Methods The buccal swabs and blood of 8 unrelated individuals, and hair shaft samples from different parts of the same individual were collected. Amplification of whole mitochondrial genome was performed using Precision ID mtDNA Whole Genome Panel. Analysis and detection of whole mitochondrial genome were carried out using the HID Ion GeneStudioTM S5 Sequencing System. Results The mitochondrial DNA sequences in temporal hair shaft samples from 2 individuals showed heteroplasmy, while whole mitochondrial genome genotyping results of buccal swabs, blood, and hair samples from the other 6 unrelated individuals were consistent. A total of 119 base variations were observed from the 8 unrelated individuals. The numbers of variable sites of the individuals were 29, 40, 38, 35, 13, 36, 40 and 35, respectively. Conclusion Sequence polymorphism can be fully understood using HID Ion GeneStudioTM S5 Sequencing system.
DNA, Mitochondrial/genetics*
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Genome, Mitochondrial/genetics*
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Heteroplasmy
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High-Throughput Nucleotide Sequencing
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Humans
;
Sequence Analysis, DNA
10.A Case of Leigh Syndrome with Typical MRI and MRS Findings.
Jung Woo KANG ; Jung Chan KIM ; Phil Za CHO ; Jeong Hee CHO ; Seung Min KIM ; Il Nam SUNWOO
Journal of the Korean Neurological Association 2004;22(5):545-547
Leigh syndrome (LS) is a genetically and clinically heterogeneous disorder caused by metabolic defects affecting lactate/pyruvate metabolism. The consequence of the metabolic defects are decreased amounts of APT and basic cell energy productions of the nervous system. In LS, several mutations have been reported in both the nuclear and the mitochondrial genome. Here, we report a 26-year-old woman clinically diagnosed with LS having characteristic brain MR and MRS abnormalities but without known definite pathogenetic mitochondrial DNA mutations.
Adult
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Brain
;
DNA, Mitochondrial
;
Female
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Genome, Mitochondrial
;
Humans
;
Leigh Disease*
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Magnetic Resonance Imaging*
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Metabolism
;
Mitochondrial Diseases
;
Nervous System