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Leber hereditary optic neuropathy (LHON) is a blinding disease caused by mutations in mitochondrial DNA. It is a classic disease model for studying mitochondrial abnormalities. Its main mutation sites are m11778G.A, m.3460G.A and m.14484T.C. LHON cell models are mainly produced by lymphoblasts, fibroblasts, cell hybrids and induced pluripotent stem cells, while LHON animal models are mainly mice, which are produced by rotenone and ND4 mutants. Although the research on the LHON model has achieved good results, there are still many difficulties in constructing an ideal experimental model, which severely limit the exploring to the pathogenesis and therapeutic drugs of LHON. A detailed understanding of the application and characteristics of existing models in LHON will help improve experimental design and construct new models.
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Abstract Introduction: Mitochondrial DNA has proven its utility for the study of insect evolution. Genes such as cytochrome b (Cytb) and the transfer gene for serine (SertRNA) can be used to compare closely related organisms. Objective: The phylogenetic utility of Cytb-SertRNA-IG1-ND1 was tested for polymorphisms, and secondary structure modeling in SertRNA was done to detect possible cryptic species in Anopheles neivai. Materials and methods: Specimens from Colombia, Guatemala, and the type locality in Panamá were collected and sequenced for specimen comparison based on DNA polymorphisms, and secondary structure modeling for the SertRNA gene. Results: Thirty-six sequences for A. neivai and A. pholidotus were obtained. Conclusions: Polymorphic variants were detected in A. neivai for Cytb-SertRNA-IG1- ND1. Despite this variation in A. neivai, cryptic species could not be detected.
Resumen Introducción. El ADN mitocondrial ha demostrado su utilidad para el estudio de la evolución en los insectos. Existen algunos genes mitocondriales como el citocromo b (Cytb) y el gen de transferencia para el aminoácido serina (SertRNA) que pueden usarse en el diagnóstico de especies estrechamente relacionadas. Objetivo. Explorar la utilidad filogenética de la región Cytb-SertRNA-IG1-ND1 para detectar posibles especies crípticas en Anopheles neivai. Materiales y métodos. Se recolectaron especímenes en Colombia, Guatemala y en la localidad tipo en Panamá, los cuales se secuenciaron y se compararon mediante el polimorfismo de ADN en toda la región y mediante la simulación de estructuras secundarias del gen SertRNA. Resultados. Se obtuvieron las secuencias de especímenes de A. neivai (34) y A. pholidotus (2). Conclusiones. Se detectaron algunos polimorfismos para la regiónCytb-SertRNA-IG1-ND1 en A. neivai, pero no así especies crípticas.
Subject(s)
Animals , DNA, Mitochondrial/genetics , Anopheles/genetics , Panama , Phylogeny , Polymorphism, Genetic , Species Specificity , DNA/analysis , DNA/genetics , RNA, Transfer, Ser/genetics , Genes, Insect , Colombia , Insect Proteins/genetics , Cytochromes b/genetics , Guatemala , Anopheles/classification , Nucleic Acid ConformationABSTRACT
Objective To explore the relationship between the embryo with the different morphological types in the third day and its mitochondrial copy number,the membrane potential.Methods Totally 117 embryos with poor development after normal fertilization and were not suitable transferred in the fresh cycle and 106 frozen embryos that were discarded voluntarily by infertility patients with in vitro fertilization-embryo transfer after successful pregnancy were selected.According to evaluation of international standard in embryos,all cleavage stage embryos were divided into class Ⅰ frozen embryo group (n=64),class Ⅱ frozen embryo group (n=42) and class Ⅲ fresh embryonic group (not transplanted embryos;n=117).Real-time PCR and confocal microscopy methods were used to detect mitochondrial DNA (mtDNA) copy number and the mitochondrial membrane potential of a single embryo.The differences between embryo quality and mtDNA copy number and membrane potential of each group were compared.Results The copy number of mtDNA and the mitochondrial membrane potential in class Ⅲ fresh embryonic group [(1.7± 1.0)× 105 copy/μl,1.56±0.32] were significantly lower than those in class Ⅰ frozen embryo group [(3.4±1.7)×105 copy/μl,2.66±0.21]and class Ⅱ frozen embryo group [(2.6± 1.2)× 105 copy/μl,1.80±0.32;all P<0.05].The copy number of mtDNA and the mitochondrial membrane potential in class Ⅰ frozen embryo group were significantly higher than those in class Ⅱ frozen embryo group (both P<0.05).Conclusion The mtDNA copy number and the mitochondrial membrane potential of embryos of the better quality embryo are higher.
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Objective To analyze and detect the whole genome sequence of human mitochondrial DNA (mtDNA) by Ion Torrent PGMTM platform and to study the differences of mtDNA sequence in different tissues.Methods Samples were collected from 6 unrelated individuals by forensic postmortem examination,including chest blood,hair,costicartilage,nail,skeletal muscle and oral epithelium.Amplification of whole genome sequence of mtDNA was performed by 4 pairs of primer.Libraries were constructed with Ion ShearTM Plus Reagents kit and Ion Plus Fragment Library kit.Whole genome sequencing of mtDNA was performed using Ion Torrent PGMTM platform.Sanger sequencing was used to determine the heteroplasmy positions and the mutation positions on HV Ⅰ region.Results The whole genome sequence of mtDNA from all samples were amplified successfully.Six unrelated individuals belonged to 6 different haplotypes.Different tissues in one individual had heteroplasmy difference.The heteroplasmy positions and the mutation positions on HV I region were verified by Sanger sequencing.After a consistency check by the Kappa method,it was found that the results of mtDNA sequence had a high consistency in different tissues.Conclusion The testing method used in present study for sequencing the whole genome sequence of human mtDNA can detect the heteroplasmy difference in different tissues,which have good consistency.The results provide guidance for the further applications of mtDNA in forensic science.
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Objective To report the clinical, myopathological and genetic features of a patient with mitochondrial encephalomyopathy, lactic acidosis and stroke-like episodes (MELAS)/Leigh syndrome (LS) overlap syndrome who carried m.10158 T>C mutation. Methods The patient′s clinical and imaging materials were collected. An open biopsy of right biceps brachii was performed. DNA samples were prepared from the patient and her mother′s blood. Direct sequencing of the complete mitochondrial genome was performed to detect the mtDNA mutation.Western blotting was used to estimate the content of respiratory complexes in the patient′s muscle. Results The patient was a 40-year-old female. She had seizures and lost consciousness for 9 months. Brain MRI findings consisted of asymmetrical lesions in the cerebral cortex of the frontal and temporal lobes, as well as symmetrical lesions bilaterally in the basal ganglia. Muscle biopsy showed typical ragged red fibers. Direct sequencing of the complete mitochondrial genome from blood and muscle of the patient revealed the T-to-C transition at nucleotide position 10158 in the MT-ND3 gene.The mutation rate was 9.31% and 70.0%, respectively.Western blotting demonstrated that the contents of complexes Ⅰ and Ⅳ were significantly lower in the patient′s muscle mitochondria compared with the normal controls (53.1%±1.2% vs 88.6%±1.7%, t=4.08, PC mutation in MT-ND3 gene and DNA test is very important for the diagnosis of the disease.
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Objectives To explore the correlation between the heteroplasmy level of mt5178C>A mutation in ND2 gene of mitochondria DNA and essential hypertension(EH)in middle-aged and elderly adults.Methods EH patients and normotensive controls were recruited consecutively from 2014-2015 from general population.Demographics,clinical characteristics and blood leukocytes were collected.The mt5178C>A mutation heteroplasmy level was quantified by the rapid and sensitive realtime polymerase chain reaction(PCR) method for each participant.Results A total of 108 EH patients and 109 controls were recruited.The mt5178C>A mutation heteroplasmy level was(42 ± 11%)in EH patients and (54± 13)% in control subjects,with statistically significant difference between the two groups(P<0.01).Using a two-step cluster analysis,the mt5178C>A heteroplasmy level exceeding 44% was associated with a decreased risk of EH(OR=0.18,95%,CI:0.10-0.31,P<0.01).Correlation analysis showed mt5178C> A heteroplasmy level was significantly negatively correlated with both systolic blood pressure (r =-0.38,P< 0.001) and diastolic blood pressure (r =-0.49,P< 0.01)in 109 controls.Logistic regression analysis demonstrated that in single-factor analysis,mt5178C > A heteroplasmy level (OR =0.82,95 % CI:0.77 0.87,P < 0.01) was protective factor for EH,however,BMI(OR=1.30,95%CI:1.12-1.45,P<0.01),total cholesterol(OR=2.13,95%CI:1.39-3.28,P=0.00),triglyceride(OR=7.62,95%CI:3.45-16.84,P<0.01)and blood urea nitrogen(OR =1.35,95 % CI,P =0.03) were risk factors for EH.And a multiple logistic regression analysis showed that mt5178C> A heteroplasmy level (OR =0.83,95 % CI:0.78-0.89,P< 0.01) was independent protective factor for E H,however,only total cholesterol (OR =2.17,95 % CI:1.58-2.98,P =0.02) and low density lipoprotein cholesterol (OR =0.06,95% CI:0.01-0.83,P =0.04) were independent risk factors for EH,and the P at critical 0.05 value.Conclusions Mitochondrial ND2 gene 5178C> A mutation heteroplasmy level exerts protective role against EH in middle-aged and elderly adults in Chinese population.
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ABSTRACT Genetic mitochondrial disorders are responsible for the most common inborn errors of metabolism, caused by mutations in either nuclear genes or in mitochondrial DNA. This article presents the prokaryotic origin of the organelle and the relation between nuclear and mitochondrial genomes, as well as current evolutionary models for such mechanisms. It also addresses the structure of mitochondrial genes, their expression pattern, clinical features of gene defects, risk of transmission and current techniques to avoid these events in assisted human reproduction. Finally, it discusses the ethical implications of these possibilities.
RESUMO As doenças genéticas mitocondriais são responsáveis pelos erros inatos do metabolismo mais comuns, causados por mutações tanto em genes nucleares como no DNA mitocondrial. Este artigo apresenta a origem procariótica dessa organela, e a relação entre os genomas nuclear e mitocondrial, bem como modelos evolutivos correntes para esses mecanismos. Também trata da estrutura dos genes mitocondriais, seu padrão de expressão, características clínicas de defeitos genéticos, riscos de transmissão e técnicas atualmente utilizadas para evitar esses eventos em reprodução humana assistida. Finalmente, discute as implicações éticas dessas possibilidades.
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Humans , Mitochondrial Diseases , Mitochondrial Replacement Therapy , Preimplantation Diagnosis , Mitochondrial Diseases/diagnosis , Mitochondrial Diseases/genetics , Mitochondrial Diseases/prevention & control , Mitochondrial Replacement Therapy/ethics , Mitochondria/physiology , Mitochondria/geneticsABSTRACT
Objective To study the effect of inflammatory markers on the level of reactive oxygen species (ROS) and mitochondrial DNA (mtDNA) copy numbers in granulosa cells of patients without polycystic ovary syndrome (PCOS). Methods Fifty patients without PCOS treated with in vitro fertilization and embryo transfer (IVF-ET) were selected in this study. The granulosa cells were extracted and cultured in vitro. Cells were randomly divided into treatment group and control group. The 5 nmol/L interleukin (IL)-1, IL-6 and tumor necrosis factor (TNF)-αwere given to treatment group, and same amount of inflammatory diluted solution was added to control group. The levels of ROS and copy numbers of mtDNA were compared between two groups. Results The ROS levels and mtDNA copy number of granulosa cells were significantly higher in IL-1, IL-6 and TNF-αtreatment groups than those of control group (P<0.05). Conclusion Inflammatory markers of IL-1, IL-6 and TNF-αincrease the level of ROS and damage mtDNA in granulosa cells.
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Mitochondrial DNA (mtDNA) is more susceptible to oxidative damage and has a higher mutation rate compared with nuclear DNA due to the absence of protective histone proteins and imperfect repair system.Somatic alterations in mtDNA have been proposed to contribute to initiation and progression of human cancer in previous researches.However,the role of these mtDNA alterations in gastric cancer progression remains unclear.Point mutations and mtDNA content alterations are the two most common mtDNA alterations that result in mitochondrial dysfunction in gastric cancers.Identifing somatic mtDNA alterations in gastric cancers as well as their association with the clinicopathological parameters of gastric cancer,and exploring the causative factors of the somatic mtDNA alterations in cancer progression have been a new direction of gastric cancer research in recent years.
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Objective To identify the species of Biomphalaria snails collected in Shenzhen reservoir,based on the mitochondrial 16S rDNA sequences.Methods The 16S rDNA fragments were amplified by PCR from the genome DNA of Biomphalaria snails,and inserted in plasmid pMD-18T for sequencing.The sequence of 16S rDNA fragment and its phylogenetic relationships with those of other species of Biomphalaria snails were analyzed with BLAST and MEGA4 software.Results The amplified 16S rDNA fragment of the Biomphalaria snails was about 466 bp in length.As aligned with the corresponding sequences of the related Biomphalaria species,the identity of nucleotides was 99% with 1 isolate of Biomphaltria straminea (B.straminea),98% with 3 isolates of B.kuhniana,95% with 1 isolate of B.intermedia,and 94% with 1 isolate of B.edisoni.Based on the 16S rDNA sequence,the results of phylogenetic analysis with neighbor-joining (NJ) and unweighted pair-group method with arithmetic means (UPGMA) indicated that the snails had close genetic relationships with the B.straminea isolate (Genbank accession NO.AY030213.1) Conclusion The Biomphalaria snails collected in Shenzhen reservoir could be classified as B.straminea based on the characteristics of 16S rDNA sequence.
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Abstract The red piranha, Pygocentrus nattereri, is an important resource for artisanal and commercial fisheries. The present study determines the genetic differentiation among P. nattereri populations from the northeastern Brazilian state of Maranhão. The DNA was isolated using a standard phenol-chloroform protocol and the Control Region was amplified by PCR. The PCR products were sequenced using the didesoxyterminal method. A sequence of 1039 bps was obtained from the Control Region of 60 specimens, which presented 33 polymorphic sites, 41 haplotypes, һ =0.978 and π =0.009. The neutrality tests (D and Fs) were significant (P < 0.05) for most of the populations analyzed. The AMOVA indicated that most of the molecular variation (72%) arises between groups. The fixation index was highly significant (FST = 0.707, P < 0.00001). The phylogenetic analyses indicated that the specimens represented a monophyletic group. Genetic distances between populations varied from 0.8% to 1.9%, and were <0.5% within populations. The degree of genetic differentiation found among the stocks of P. nattereri indicates the need for the development of independent management plans for the different river basins in order to preserve the genetic variability of their populations.
Resumo A piranha vermelha, Pygocentrus nattereri, é um recurso importante para pesca artesanal e comercial. O presente estudo determinou a diferenciação genética entre populações de P. nattereri no nordeste do estado brasileiro do Maranhão. O DNA foi isolado utilizando o protocolo de Fenol-clorofórmio e a Região Controle foi amplificada por PCR. Os produtos da PCR foram sequenciados usando o método didesoxiterminal. Uma sequência de 1039 pbs foi obtida da Região Controle de 60 espécimes, que apresentaram 33 sítios polimórficos, 41 haplótipos, һ= 0.978 e π= 0.009. Os testes de neutralidade (D and Fs) foram significativos (P < 0.05) para a maioria das populações analisadas. A AMOVA indicou que a maior parte da variação molecular (72%) surge entre os grupos. O índice de fixação foi altamente significativo (FST = 0.707, P = < 0.00001). As análises filogenéticas indicaram que os espécimes representam um grupo monofilético. Distâncias genéticas entre as populações variaram de 0.8% a 1.9%, e de <0.5% dentro das populações. O grau de diferenciação genética encontrada entre os estoques de P. nattereri indicam a necessidade para o desenvolvimento de planos de manejo independentes para as diferentes bacias hidrográficas, a fim de preservar a variabilidade genética dessas populações.
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Animals , Characiformes/genetics , Haplotypes , Polymorphism, Genetic , Brazil , Molecular Sequence Data , Phylogeny , Rivers , Sequence Analysis, DNAABSTRACT
Las mitocondrias son las organelas intracelulares encargadas de suministrar la mayor parte de la energía necesaria para la actividad celular. Actúan, por lo tanto, como centrales energéticas de la célula y sintetizan ATP a expensas de los sustratos metabólicos. La intoxicación con ácido cianhídrico inhibe estos mecanismos y las alteraciones en el funcionamiento del metabolismo mitocondrial de origen genético o congénito producen innumerables patologías. El conocimiento de las patologías y disfunción de las mitocondrias es de importancia para realizar correctamente el diagnóstico de las causas de muerte. El ADN mitocondrial es de suma importancia en la medicina legal y forense para la identificación de las personas.
Mitochondria are organelles in the cell cytoplasm which supply most of the energy needed for cellular activity. They behave as cells power plants and synthesize ATP using metabolic substrates. Intoxication with Hydrocyanic Acid inhibits the synthesis of ATP, generating alterations in the mitochondrial metabolism, either genetic or congenital. The consequences of those alterations are innumerables pathologies. Understanding the pathologies and malfunctions of mitochondria help us to make the right diagnostic about the cause of death. In forensic medicine, mitochondrial DNA is of paramount relevance to people identification.
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Humans , DNA, Mitochondrial/analysis , Forensic Anthropology , Forensic Medicine , Mitochondrial Diseases/diagnosis , Mitochondrial Diseases/geneticsABSTRACT
Mitochondrial DNA (mtDNA) is a genetic effect DNA molecule of double closed loop, and is crucial for cells and their functions. Mitochondria take an active part in physiological activities of retinal pigment epithelium (RPE) cells. The oxidative stress is usually occurred in RPE for its active metabolism, which can lead to mitochondria and mtDNA dam?age. Once mitochondria and mtDNA lesions have not been repaired timely, the lesions can be accumulated, which can cause dysfunctions and damaged-structures of RPE and mitochondria, and can motivate the progression of cell apoptosis. In the end it can result in some ocular related diseases such as aged-related macular degeneration (AMD). This study reviewed the functional relationship between mtDNA and RPE, and repair and detection methods of mtDNA damage.
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Objective To establish acute peritonitis induced by monosodium urate (MSU) of in mice and observe the significance of mitochondrial deoxyribonucleic acid (mtDNA) expression in the inflammatory processes.Methods The mouse models of acute peritonitis were made by intraperitoneal injection of MSU.Sixty-four male C57BL16 mice were randomly divided into the MSU group which were treated with 0.2 ml of 15 mg/ml MSU solution by i.p.injection and the control group which were treated with 0.2 ml of PBS.Respectively four mice from MSU group and four mice from control group were killed 2 hours, 4 hours, 6 hours, 8 hours 12 hour, 16 hours, 20 hours and 24 hours later and whole blood, peritoneal lavage and peritoneum were collected respectively.Four the mice from the MSU group and four mice from the control group were killed and whole blood, peritoneal lavage and peritoneum were collected.Immunoflourescence study of peritoneum tissues was performed.The levels of interleukin (IL)-1β, IL-18 in plasma and peritoneal lavage were examined by enzyme linked immunosorbent assay (ELISA).DNA was extracted from blood and peritoneal lavage, and mtDNA level was detected by using real-time polymerase chain reaction (PCR).The data was analyszied by multivariate analysis of variance.Results As compared with those killed at other time points from the MSU groups and the control group, the levels of IL-1β [(27.0±2.0) pg/ml vs (26.8±2.1) pg/ml], IL-18 [(673±454) pg/ml vs(752±495) pg/ml] in plasma and peritoneal lavage were increased progressively in those which were killed after i.p.injection of 2 hours and 4 hours from in the MSU group (F=22.778, P<0.05;F=6.660, P<0.05).The mtDNA in plasma and peritoneal lavage of the mice began to be expressed 4 hours after i.p.injection 4 hours from in the MSU group.The peak level was detected in those i.p.injected MSU 6 hours later [(9.85±4.59)×106 copies, (7.81±3.43)×106 copies].Then 8 hours later the mtDNA began to slowly decreased.At these three time points, the mtDNA were all increased progressively than those at the other time points of the MSN group or at all time points of the control group (F=6.719, P<0.05;F=11.181, P<0.05).By immunoflourescence study, there were neutrophil extracellular traps (NETs) were formed 12 hours later in the MSU group and aggregated NETs were found 24 hours later.Conclusion In the inflammatory processes of acute peritonitis induced by MSU of in mice, with the expression of mtDNA increasing, the inflammation is relieved, and aggregated NETs are formed in the end.Expression of mtDNA may be one for the protective factors of the inflammation induced by MSU.
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Dysfunction of the human 8-oxoguanine DNA glycosylase (hOGG1) is closely related to development of lung neoplasms and other cancers.Polymorphisms in hOGG1 gene may alter glycosylase activity,thereby affect its repair capacity to the damaged DNA,contributing to carcinogenesis.Joint effects of hOGG1 and other DNA repair gene SNPs have showed complex gene-gene interactions may significantly contribute to people's lung cancer susceptibility.HOGG1 plays an important role in maintaining mitochondrial respiration thus affects tumor cell growth.
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Objective To explore whether the mitochondrial toxicity markers of peripheral blood mononuclear cells (PBMC)are of significance in monitoring mitochondrial toxicity during highly active antiretroviral therapy (HAART)in patients with acquired immune deficiency syndrome (AIDS).Methods Mitochondrial DNA (mtDNA),mitochondrial thymidine kinase (TK2 )and p53-inducible ribonucleotide reductase small subunit 2 (p53R2 )were selected as mitochondrial toxicity markers.The expression changes of theses markers of PBMC in 22 AIDS patients were detected by real time quantitative polymerase chain reaction (q-PCR)at baseline,48 weeks and 96 weeks after initiation of the treatment. All the patients received stavudine/zidovudine and lamivudine as the mainstay of the HAART regimen. Independent-samples t test was used.Results The relative expression level of mtDNA in patients before HAART was 3.27 ± 0.94,and decreased to 2.16±0.85 at week 48 and 1 .66±0.66 at week 96, respectively.The differences were both significant compared with the level prior to the treatment (t =-3.90,P <0.01 and t =-6.29,P <0.01 ,respectively).The relative expression level of TK2 before HAART was 0.37 ±0.13,and increased to 1 .01 ±0.25 at week 48 and 2.13 ±0.61 at week 96 of the treatment.After pairwise comparisons of the three pairs of data (pre-HAART vs week 48 of the treatment,pre-HAART vs week 96 of the treatment and week 48 vs week 96 of the treatment),the differences were all significant (t = 10.77,8.00 and 3.56,respectively;all P < 0.01 ).The relative expression level of p53R2 was 0.86±0.39 before HAART,but gradually increased to 2.36 ±1 .14 and 7.73±0.65 ,respectively,at week 48 and week 96 of the treatment.The differences in p53R2 levels among three groups after pairwise comparison were all significant (t=3.27,12.26 and 13.25,respectively;all P < 0.01 ).Conclusions The expression levels of mtDNA,TK2 and p53R2 in PBMC could change significantly during HAART in AIDS patients,which might be used as indexes for monitoring mitochondrial toxicity.
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Background Leber hereditary optic neuropathy (LHON) is mitochondrial DNA (mtDNA) disease and mainly leads to optical nerve degeneration.Its primary mechanism is synthesis disorder of DN4 protein due to variation of mtDNA 11778 locus.So to construct a vector with exogenous normal ND4 and transfect into mitochondria is a key of gene therapy for LHON.Objective This study was to investigate the in vitro transfection of adeno-associated virus (AAV)-ND4 gene into mitochondria.Methods Human renal epithelial cell lines transfected adenovirus E1A (293 cells) were regularly cultured and divided into two groups.Framework plasmids of recombinant AAV-ND4 or simple AAV2 were added to the cell medium respectively.The expression of ND4 in cells were located 12,24,36 and 48 hours after transfected by Y03 dual fluorescent quantum dots staining.The positive response for ND4 showed the green fluorescence.Results Cultured 293 cells grew well with 80% confluence.Abundant green fluorescence particles were seen in cytoplasm in the AAV-ND4 transfected group,but only red fluorescence from mitochondrial protein was seen in the simple AAV transfected group under the fluorescence microscope.Conclusions Exogenous ND4 protein can been successfully transfected into mitochondria using the ND4 gene constructed AAV.This result provides experimental evidence for the further study on gene therapy of LHON.
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Con el objetivo de establecer la variabilidad genética de Aedes aegypti determinada por el análisis del gen mitocondrial ND4, se analizaron 51 especímenes de Ae. aegypti en once regiones endémicas para dengue en el Perú. La variabilidad genética se determinó mediante la amplificación y secuenciación de un fragmento de 336 pares de bases del gen mitocondrial ND4. El análisis de filogenia intraespecífica se realizó con el programa Network Ver. 4.6.10; y el análisis filogenético, con el método de distancia Neighbor Joining. Se identificó la presencia de cinco haplotipos de Ae. aegypti agrupados en dos linajes: el primero agrupa a los haplotipos 1, 3 y 5 y el segundo agrupa los haplotipos 2 y 4, se muestra además la distribución geográfica de cada uno de los haplotipos encontrados. Se concluye que esta variabilidad se debe tanto a la migración activa de este vector como a la migración pasiva mediada por la actividad humana.
In order to establish the genetic variability of Aedes aegypti determined by the analysis of the MT-ND4 gene, in eleven endemic regions for dengue in Peru, 51 samples of Ae. Aegypti were tested. The genetic variability was determined through the amplification and sequencing of a fragment of 336 base-pairs of MT ND4, the analysis of intra-specific phylogeny was conducted with the Network Ver. 4.6.10 program; and the phylogenetic analysis, with the Neighbor Joining distance method. The presence of five haplotypes of Ae. Aegypti grouped in two lineages was identified: the first one includes haplotypes 1, 3 and 5, and the second one comprises haplotypes 2 and 4. The geographic distribution of each of the haplotypes found is also shown. It is concluded that this variability is caused by the active migration of this vector and the human activity-mediated passive migration.
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Animals , Humans , Aedes/genetics , Genes, Mitochondrial/genetics , Genetic Variation , Cross-Sectional Studies , Dengue/epidemiology , Endemic Diseases , Peru/epidemiologyABSTRACT
Objective To investigate the changes in the expression of mitochondrial transcription factor A (mtTFA) during one-lung ventilation (OLV)-induced lung injury in rabbits.Methods Sixty healthy male New Zealand white rabbits,weighing 2.5-3.0 kg,were randomized into 2 groups (n =8 each):two-lung ventilation (TLV) group and OLV group.The animals were anesthetized with iv 3% pentobarbital sodium 30 mg/kg and tracheostomized.A self-made double lumen catheter was then intubated.Bilateral lungs were ventilated for 3 h in group TLN.In group OLV the left lung was ventilated for 2 h followed by 1 h TLV.Arterial blood samples were taken for blood gas analysis immediately after the beginning of ventilation,at 1 and 2 h of ventilation,and immediately after the end of ventilation.The oxygenation index was calculated.The animals were sacrificed after the end of ventilation and the apex of the left lung was removed and then cut and stained with HE for microscopic examination.The pathological changes of the lung were scored.The expression of mtTFA in lung tissues was measured by Western blot.Results Oxygenation index was significantly decreased,lung injury score was increased,the expression of mtTFA was down-regulated in group OLV compared with group TLV (P < 0.05).The pathological changes of the lung were aggravated in group OLV.Conclusion OLV induces lung injury by down-regulation of mtTFA expression in rabbit lung tissues.
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Objective To assess the relationship between mitochondrial DNA (mtDNA) ND2 gene C5178A polymorphism and complications of cardio-cerebral-vascular in patients with type 2 diabetes mellitus (T2DM).Methods This is a case-control study.448 unrelated patients with T2DM were collected from Zhejiang Provincial People's Hospital from 2010 to 2011,including 274 males and 174 females.Direct nucleotide sequencing analysis was used to screen mtDNA ND2 gene C5178A genotyping in )patients.Meanwhile,detailed clinical and laboratory information for all of study subjects were collected.Body mass index (BMI),blood pressure,blood lipid,blood glucose and incidence rate of cerebral infarction were compared between 5178C patients and 5178A patients.Furthermore,according to the genotyping results,we 2analyzed whether these differences exist in patients with different gender by using t test or x2 test.Results 348 out of 448 patients with T2DM were C carriers and the remaining patients were A carriers.There're significant differences between T2DM patients with 5178A and T2DM patients with 5178C on systolic pressure (124.6 mm Hg ± 9.0 mm Hg vs 127.8 mm Hg ± 10.7 mm Hg,t =2.700,P =0.007)and HDL (1.3 mmol/L ± 0.2 mmol/L vs 1.2 mmol/L ± 0.3 mmol/L,t =2.968,P =0.003).Moreover,the incidence of cerebral infarction in T2DM patients with 5178A (8.0%,8/100) was much lower than that with 5178C (21.0%,73/348 ; x2 =8.832,P =0.003).No statistical gender difference was found in the distribution of C5178A (P > 0.05).Our results also revealed that the female T2DM patients with 5178A had a lower serum triglyceride (1.5 mmol/L ±0.8 mmol/L; t =2.601,P =0.011) and lower systolic pressure (123.6 mm Hg±6.6 mm Hg; t =2.887,P =0.004) than that with 5178C (1.8 mmol/L ± 1.0 mmol/L and 128.0 mm Hg ± 9.0 mm Hg,respectively).Furthermore,cerebral infarction was more common in female T2DM patients with 5178C (21.3%,29/136; x2 =5.232,P =0.022) than that with 5178A (5.3%,2/38).Similarly,male T2DM patients with 5178A had a much lower incidence rate of cerebral infarction (9.7%,6/62; x2 =3.946,P =0.047) than that with 5178C (20.7%,44/212).In contrary,the serum concentration of HDL was higher in male T2DM patients with 5178A (1.4 mmol/L ±0.2 mmol/L;t=3.511,P =0.001) than that with 5178C (1.2 mmol/L±0.3 mmol/L).Conclusions The polymorphism site mtDNA C5178A correlates with cerebral-cardiovascular complications in patients with type 2 diabetes mellitus.mtDNA 5178A allele may protect T2DM patients from developing cerebral-cardiovascular diseases through regulation of blood pressure and lipid metabolism.