• Title/Summary/Keyword: Mitochondrial DNA mutation

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A Case of Leber's Hereditary Optic Neuropathy Showing 11778 Point Mutation of Mitochondrial DNA (사렵체 DNA의 11778 점돌연변이가 확인된 Leber씨 유전성 시신경병증 1례)

  • Jung, Yun-Seok;Park, Seung-Kwon;Lee, Seung-Yeop;Hah, Jung-Sang;Park, Mee-Yeoung;Lee, Se-Jin;Lee, Jun
    • Journal of Yeungnam Medical Science
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    • v.16 no.1
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    • pp.114-118
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    • 1999
  • Leber's hereditary optic neuropathy(LHON) is an optic nerve disease that causes blindness and is associated with maternally inherited mitochondrial DNA(mt DNA) mutations. The most common mitochondrial DNA mutation among LHON patients is a point mutation at the nucleotide 11778 in the subunit 4 of complex I. In one 45-year old male LHON patient with bilateral optic neuropathy. we investigated the presence of a point mutation of mitochondrial DNA and identified a single guanine to adenine transition mutation in the mitochondrial DNA at nucleotide point 11778.

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Identification of a Mitochondrial DNA Mutation in Paraffin-Embedded Muscle Tissues (파라핀조직을 이용한 미토콘드리아 DNA 돌연변이 확인)

  • 김상호;유석호
    • Journal of Life Science
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    • v.14 no.2
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    • pp.296-300
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    • 2004
  • We investigated feasibility of using the formalin-fixed and paraffin-embedded tissue to study mitochondrial mutations in the case that fresh or frozen tissue, or blood samples are not available. Four paraffin blocks of muscle biopsies in Korean MELAS (mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes) patients were chosen. Total DNA was extracted from these blocks for PCR/RFLP analysis, and sequencing was performed to study the most common mutation, A to G transition at nucleotide position 3243 underlying MELAS in the mitochondrial tRN $A^{Leu(UUR)}$ gene. We could identify the A to G mutation at nt.3243 in three MELAS patients. Our results show that the mitochondrial genome of our paraffin blocks is presumably in good condition. Our results are in accordance with the previous findings by other investigators that PCR allows molecular genetic analysis of paraffin-embedded tissues stored in most histopathology laboratories.s.

Mitochondrial DNA Mutation and Oxidative Stress

  • Kim, Tae-Ho;Kim, Hans-H.;Joo, Hyun
    • Interdisciplinary Bio Central
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    • v.3 no.4
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    • pp.16.1-16.8
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    • 2011
  • Defects in mitochondrial DNA (mtDNA) cause many human diseases and are critical factors that contribute to aging. The mechanisms of maternally-inherited mtDNA mutations are well studied. However, the role of acquired mutations during the aging process is still poorly understood. The most plausible mechanism is that increased reactive oxygen species (ROS) may affect the opening of mitochondrial voltage dependent anion channel (VDAC) and thus results in damage to mtDNA. This review focuses on recent trends in mtDNA research and the mutations that appear to be associated with increased ROS.

Mitochondrial DNA Somatic Mutation in Cancer

  • Kim, Aekyong
    • Toxicological Research
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    • v.30 no.4
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    • pp.235-242
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    • 2014
  • Cancer cells are known to drastically alter cellular energy metabolism. The Warburg effect has been known for over 80 years as pertaining cancer-specific aerobic glycolysis. As underlying molecular mechanisms are elucidated so that cancer cells alter the cellular energy metabolism for their advantage, the significance of the modulation of metabolic profiles is gaining attention. Now, metabolic reprogramming is becoming an emerging hallmark of cancer. Therapeutic agents that target cancer energy metabolism are under intensive investigation, but these investigations are mostly focused on the cytosolic glycolytic processes. Although mitochondrial oxidative phosphorylation is an integral part of cellular energy metabolism, until recently, it has been regarded as an auxiliary to cytosolic glycolytic processes in cancer energy metabolism. In this review, we will discuss the importance of mitochondrial respiration in the metabolic reprogramming of cancer, in addition to discussing the justification for using mitochondrial DNA somatic mutation as metabolic determinants for cancer sensitivity in glucose limitation.

A Case Report of MELAS Syndrom (MELAS Syndrome 환아(患兒) 1예(例)에 대한 고찰(考察))

  • Jeong Hwan-Su;Lee Jin-Yong;Kim Deok-Gon
    • The Journal of Pediatrics of Korean Medicine
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    • v.13 no.2
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    • pp.225-235
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    • 1999
  • MELAS is the condition associated with mutant mtDNA that most closely mimics thrombotic cerebrovascular disease. Characteristic abnormalities are two. first, 'ragged-red fibers' in muscle biopsy. second, point mutation in the mitochondrial DNA analyses. The characteristic clinical presentations of MELAS are short stature, recurrent stroke like episodes, migraine-like headache, sensorineural hearng loss, glucose intolerance and neuropathy. We now report a case of MELAS syndrome having mitochondrial DNA mutation with an A to G transition at the 3,243rd position diagnosed in Chung-ang Hospital.

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Mitochondrial DNA Mutation (3243A→G,1555A→4G,7445A→G) in Noise-Induced (소음성 난청에서의 Mitochondrial DNA A3243G, A1555G, A7445G 돌연변이)

  • Hong Young-Seoub;Nishio Hisahide;Lee Myeong-Jin;Kwak Ki-Young;Hwang Chan-Ho;Shin Dong-Hoon;Kwak Jong-Young;Lee Yong-Hwan;Kim Jong-Min;Kim Joon-Youn
    • Journal of Life Science
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    • v.14 no.6 s.67
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    • pp.913-919
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    • 2004
  • Mitochondrial DNA mutations have been reported in recent years in association with sensorineural hering loss. The purpose of this study is to identify the association between the noise-induced sensorineural hearing loss and the A to G mutation at nucleotide 3243, 1555, 7445 of mitochondrial DNA. Study subjects were established by history and chart review, and audiological and clinical data were obtained. Blood was sampled from 214 normal controls, 102 noise-induced hearing loss, and 28 sensorineural hearing loss. The DNA of these individuals were extracted, and mitochondrial DNA fragments were analyzed by polymerase chain reaction. Subsequently, the coding sequence of mitochondrial DNA 3243, 1555, 7445 were sequenced, and compared to the normal sequence, and all sequence variations were analyzed by restriction enzymes. Mitochondrial DNA mutations $(3243A{\rightarrow}G,\;1555A{\rightarrow}4G,\;7445A{\rightarrow}G)$ were not detected by polymerase chain reactions in any patients with noise-induced hearing loss, sensorineural hearing loss, and normal controls. The DNA sequencing of PCR products did not revealed an A to G substitution at nucleotide 3243, 1555, 7445 of mitochondrial DNA. The noise-induced sensorineural hearing loss was not associated with mitochondrial DNA mutation $(3243A{\rightarrow}G,\;1555A{\rightarrow}4G,\;7445A{\rightarrow}G)$.

Plasma Amino Acid and Urine Organic Acid Analyses in Leigh Syndrome (리증후군에서의 혈장 아미노산 및 소변 유기산 분석)

  • Na, Ji-Hoon;Lee, Hyunjoo;Lee, Hae-in;Huh, Euira;Lee, Young-Mock
    • Journal of The Korean Society of Inherited Metabolic disease
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    • v.22 no.1
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    • pp.28-36
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    • 2022
  • Purpose: Detection of abnormal metabolites in plasma amino acid (PAA) and urine organic acid (UOA) analyses has been used to diagnose clinical mitochondrial diseases, such as Leigh syndrome. In this study, the diagnostic values and effectiveness of PAA and UOA analyses were reviewed. Methods: This was a retrospective study of patients with Leigh syndrome who were diagnosed between 2003 and 2018 in a single tertiary care center. Through a whole mitochondrial sequencing and nuclear DNA associated mitochondrial gene panel analysis, 19 patients were found to be positive for mitochondrial DNA (mtDNA) mutation-associated Leigh syndrome, and 57 patients were negative. Their PAA and UOA analyses results were then compared. Results: In the comparison of the PAA and UOA analyses results between the two groups, no abnormal metabolites showed obvious differences between the mtDNA mutation-positive Leigh syndrome and mtDNA mutation-negative Leigh syndrome groups. Conclusion: PAA and UOA analyses are inappropriate test methods for diagnosing Leigh syndrome or screening of mtDNA mutation-associated Leigh syndrome. However, UOA analysis might still be a suitable screening test for Leigh syndrome.

Identification of causative mutations in patients with Leigh syndrome and MERRF by mitochondrial DNA-targeted next-generation sequencing

  • Hong, Hyun Dae;Kim, Eunja;Nam, Soo Hyun;Yoo, Da Hye;Suh, Bum Chun;Choi, Byung-Ok;Chung, Ki Wha
    • Journal of Genetic Medicine
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    • v.12 no.2
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    • pp.109-117
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    • 2015
  • Purpose: Mitochondrial diseases are clinically and genetically heterogeneous disorders, which make their exact diagnosis and classification difficult. The purpose of this study was to identify pathogenic mitochondrial DNA (mtDNA) mutations in 2 Korean families with myoclonic epilepsy with ragged-red fibers (MERRF) and Leigh syndrome, respectively. Materials and Methods: Whole mtDNAs were sequenced by the method of mtDNA-targeted next-generation sequencing (NGS). Results: Two causative mtDNA mutations were identified from the NGS data. An m.8344A>G mutation in the tRNA-Lys gene (MT-TK) was detected in a MERRF patient (family ID: MT132), and an m.9176T>C (p.Leu217Pro) mutation in the mitochondrial ATP6 gene (MT-ATP6) was detected in a Leigh syndrome patient (family ID: MT130). Both mutations, which have been reported several times before in affected individuals, were not found in the control samples. Conclusion: This study suggests that mtDNA-targeted NGS will be helpful for the molecular diagnosis of genetically heterogeneous mitochondrial diseases with complex phenotypes.

Analysis of Mitochondrial DNA Mutation in hepatoma

  • Chung, Ku-Sun;Lee, Kyo-Young;Shim, Sang-In;Kim, Jin-Sun;Song, Eun-Sook
    • BMB Reports
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    • v.33 no.5
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    • pp.417-421
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    • 2000
  • Mitochondrial DNA (mtDNA) mutation was investigated in a hepatoma patient using a polymerase chain reaction (PCR) and an in situ hybridization technique. Biotin-labeled probes for the subunit m of cytochrome c oxidase revealed differences in the in situ hybridization. A PCR assay using biopsied and microdissected tissues showed that common deletion (4,977 bp) was more pronounced in the cancer region than in the normal parts of the same patient. These results suggest that mtDNA deletion might be associated with tumorigenesis in hepatoma.

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