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3. Origin and spread of human mitochondrial DNA haplogroup U7

Author

Sahakyan, H. Kashani, B.H. Tamang, R. Kushniarevich, A. Francis, A. Costa, M.D. Pathak, A.K. Khachatryan, Z. Sharma, I. Van Oven, M. Parik, J. Hovhannisyan, H. Metspalu, E. Pennarun, E. Karmin, M. Tamm, E. Tambets, K. Bahmanimehr, A. Reisberg, T. Reidla, M. Achilli, A. Olivieri, A. Gandini, F. Perego, U.A. Al-Zahery, N. Houshmand, M. Sanati, M.H. Soares, P. Rai, E. Šarac, J. Šarić, T. Sharma, V. Pereira, L. Fernandes, V. Černý, V. Farjadian, S. Singh, D.P. Azakli, H. Üstek, D. Trofimova, N.E. Kutuev, I. Litvinov, S. Bermisheva, M. Khusnutdinova, E.K. Rai, N. Singh, M. Singh, V.K. Reddy, A.G. Tolk, H.-V. Cvjetan, S. Lauc, L.B. Rudan, P. Michalodimitrakis, E.N. Anagnou, N.P. Pappa, K.I. Golubenko, M.V. Orekhov, V. Borinskaya, S.A. Kaldma, K. Schauer, M.A. Simionescu, M. Gusar, V. Grechanina, E. Govindaraj, P. Voevoda, M. Damba, L. Sharma, S. Singh, L. Semino, O. Behar, D.M. Yepiskoposyan, L. Richards, M.B. Metspalu, M. Kivisild, T. Thangaraj, K. Endicott, P. Chaubey, G. Torroni, A. Villems, R.

Abstract

Human mitochondrial DNA haplogroup U is among the initial maternal founders in Southwest Asia and Europe and one that best indicates matrilineal genetic continuity between late Pleistocene hunter-gatherer groups and present-day populations of Europe. While most haplogroup U subclades are older than 30 thousand years, the comparatively recent coalescence time of the extant variation of haplogroup U7 (∼16-19 thousand years ago) suggests that its current distribution is the consequence of more recent dispersal events, despite its wide geographical range across Europe, the Near East and South Asia. Here we report 267 new U7 mitogenomes that - analysed alongside 100 published ones - enable us to discern at least two distinct temporal phases of dispersal, both of which most likely emanated from the Near East. The earlier one began prior to the Holocene (∼11.5 thousand years ago) towards South Asia, while the later dispersal took place more recently towards Mediterranean Europe during the Neolithic (∼8 thousand years ago). These findings imply that the carriers of haplogroup U7 spread to South Asia and Europe before the suggested Bronze Age expansion of Indo-European languages from the Pontic-Caspian Steppe region. © The Author(s) 2017.

Published
2017

4. Origin and spread of mitochondrial DNA haplogroup U7

Author

Sahakyan, H, Kashani, BH, Tamang, R, Kushniarevich, A, Francis, A, Costa, MD, Pathak, AK, Khachatryan, Z, Sharma, I, van Oven, M, Parik, J, Hovhannisyan, H, Metspalu, E, Pennarun, E, Karmin, M, Tamm, E, Tambets, K, Bahmanimehr, A, Reisberg, T, Reidla, M, Achilli, A, Olivieri, A, Gandini, F, Perego, UA, Al-Zahery, N, Houshmand, M, Sanati, MH, Soares, P, Rai, E, Šarac, J, Šarić, T, Sharma, V, Pereira, L, Fernandes, V, Černý, V, Farjadian, S, Singh, DP, Azakli, H, Üstek, D, Ekomasova, NT, Kutuev, I, Litvinov, S, Bermisheva, M, Khusnutdinova, EK, Rai, N, Singh, M, Singh, VK, Reddy, AG, Tolk, HV, Cvjetan, S, Lauc, LB, Rudan, P, Michalodimitrakis, EN, Anagnou, NP, Pappa, KI, Golubenko, MV, Orekhov, V, Borinskaya, SA, Kaldma, K, Schauer, MA, Simionescu, M, Gusar, V, Grechanina, E, Govindaraj, P, Voevoda, M, Damba, L, Sharma, S, Singh, L, Semino, O, Behar, DM, Yepiskoposyan, L, Richards, MB, Metspalu, M, Kivisild, T, Thangaraj, K, Endicott, P, Chaubey, G, Torroni, A, Villems, R, and Instituto de Investigação e Inovação em Saúde

Subjects
Bronze Age, Europe, Mitochondrial haplogroup, Middle East, Steppe, Holocene, Human experiment, Neolithic, South Asia, Human, Language
Abstract

Human mitochondrial DNA haplogroup U is among the initial maternal founders in Southwest Asia and Europe and one that best indicates matrilineal genetic continuity between late Pleistocene huntergatherer groups and present-day populations of Europe. While most haplogroup U subclades are older than 30 thousand years, the comparatively recent coalescence time of the extant variation of haplogroup U7 (~16–19 thousand years ago) suggests that its current distribution is the consequence of more recent dispersal events, despite its wide geographical range across Europe, the Near East and South Asia. Here we report 267 new U7 mitogenomes that – analysed alongside 100 published ones – enable us to discern at least two distinct temporal phases of dispersal, both of which most likely emanated from the Near East. The earlier one began prior to the Holocene (~11.5 thousand years ago) towards South Asia, while the later dispersal took place more recently towards Mediterranean Europe during the Neolithic (~8 thousand years ago). These findings imply that the carriers of haplogroup U7 spread to South Asia and Europe before the suggested Bronze Age expansion of Indo-European languages from the Pontic-Caspian Steppe region.

Published
2017

7. Proteomic Analysis of m.8296A>G Variation in the Mitochondrial tRNA Lys Gene.

Author

Maraş Genç H, Akpınar G, Kasap M, Uyur Yalçın E, Üstek D, Aslanger AD, and Kara B

Abstract

Variation in the mitochondrial tRNA Lys gene at position 8296 was previously found to be associated with maternally inherited diabetes mellitus and deafness, hypertrophic cardiomyopathy, myoclonic epilepsy with ragged-red fibers and mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes. The pathogenicity of the m.8296A>G variation is unclear. In this study, we aimed to analyze the mitochondrial proteome in a patient with m.8296A>G variation to elucidate the effects of this mutation at the protein level. Whole-exome sequencing and mitochondrial genome analysis were performed in a patient with sensorineural hearing impairment, cognitive impairment, leukodystrophy, migraine-like headaches, and gastrointestinal dysmotility. Mitochondrial genome analysis identified a homoplasmic m.8296A>G variation in the mitochondrial tRNA Lys gene in the proband and unaffected mother. Global mitochondrial proteome analysis was carried out in the muscle mitochondria of the index patient and a control subject. Comparative muscle mitochondrial proteome analysis revealed a total of 13 nuclear-encoded mitochondrial proteins differently expressed with respect to the control. Ten of the 13 proteins were downregulated. Most of the proteins were involved in ATP synthesis and Krebs cycle and have strong interactions with each other. We considered the m.8296A>G variation to be pathogenic with variable penetrance for our patient's phenotype, and this variation led to different expressions of nuclear-encoded proteins involved in energy metabolism., Competing Interests: The authors have no conflicts of interest to declare., (Copyright © 2022 by S. Karger AG, Basel.)

Published
2022
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8. BEND4 as a Candidate Gene for an Infection-Induced Acute Encephalopathy Characterized by a Cyst and Calcification of the Pons and Cerebellar Atrophy.

Author

Kara B, Uyguner O, Maraş Genç H, İşlek EE, Kasap M, Toksoy G, Akpınar G, Uyur Yalçın E, Anık Y, and Üstek D

Abstract

Three siblings born to Turkish parents from the same village had normal brain development until acute neurological deterioration between 12 months and 8 years of age. Consequent loss of all acquired motor, social, and language functions following infections was associated with a pontine cyst, calcification, and cerebellar atrophy. Exome sequencing revealed a homozygous c.1297G>A (p.Gly433Ser) alteration in BEND4 , which was predicted to be deleterious in in silico analysis tools and segregated in multiple affected individuals in the family. BEND4 has not been associated with any existing disease. Immunofluorescence microscopy analysis of wild-type and mutant BEND4 expressing Vero cells showed nuclear and cytoplasmic localization. Wild-type BEND4 displayed a network-like distribution, whereas mutant BEND4 showed a juxtanuclear distribution pattern. Differential proteome analysis of Vero cells expressing BEND4 revealed that mutant BEND4 expression caused selective increase in reticulocalbin-1 and endoplasmic reticulum resident protein-29. Both proteins are associated with the endoplasmic reticulum and are primarily involved in protein processing and folding pathways. Any defect or stress in protein folding creates stress on cells and may cause chronic damage. This is the first study showing that pathogenic BEND4 variants may lead to an infection-induced acute necrotizing encephalopathy as demonstrated in characteristic neuroimaging findings., Competing Interests: The authors have no conflicts of interest to declare., (Copyright © 2021 by S. Karger AG, Basel.)

Published
2022
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9. MEFV mutation frequencies in a Turkish cohort with low prevalence of familial Mediterranean fever

Author

Çakır N, Azaklı H, Üstek D, Uysal Ö, and Gözke E

Subjects
Adult, Familial Mediterranean Fever ethnology, Gene Frequency, Healthy Volunteers, Humans, Middle Aged, Mutation Rate, Predictive Value of Tests, Prevalence, Turkey epidemiology, Familial Mediterranean Fever genetics, Mutation genetics, Pyrin genetics
Abstract

Background/aim: Familial Mediterranean fever (FMF) is a genetically recessive autoinflammatory disease caused by mutations in the Mediterranean fever (MEFV) gene. The aim of this study was to investigate the frequencies of the most common MEFV mutations among a sample of healthy individuals from the Havsa population of European Turkey, where FMF is less prevalent compared to Asian Turkey., Materials and Methods: The study group consisted of 263 unrelated healthy adults. All of the participants were analyzed for the M694V, V726A, M680I, and E148Q mutations in the MEFV gene., Results: In total, 25 of the 263 individuals carried MEFV mutations (9.5%). The observed allele frequencies were 1.5% for M694V (95% confidence interval [CI] 0.5-2.5), 2.6% for E148Q (95% CI 1.6-3.9), 0.5% for M680I (95% CI 0.0-1.1), and 0.0% for V726A. The frequencies of the M694V, M680I, and E148Q mutations were not significantly different from allele frequencies (approximately 20%) determined for other regions of Turkey where FMF is more prevalent., Conclusion: These data suggest that the positivity of the MEFV gene mutation tests have lower predictive value in a population with low FMF prevalence., (This work is licensed under a Creative Commons Attribution 4.0 International License.)

Published
2021
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10. Identification of red blood cell membrane defects in a patient with hereditary spherocytosis using next‑generation sequencing technology and matrix‑assisted laser desorption/ionization time‑of‑flight mass spectrometry.

Author

Şener LT, Aktan M, Albeniz G, Şener A, Üstek D, and Albeniz I

Subjects
Adult, Aged, Case-Control Studies, Child, Erythrocyte Membrane genetics, Erythrocyte Membrane metabolism, Female, Humans, Male, Membrane Proteins metabolism, Middle Aged, Pedigree, Phenotype, Spherocytosis, Hereditary genetics, Spherocytosis, Hereditary metabolism, Biomarkers analysis, Erythrocyte Membrane pathology, High-Throughput Nucleotide Sequencing methods, Membrane Proteins genetics, Mutation, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Spherocytosis, Hereditary pathology
Abstract

Hereditary spherocytosis (HS) is characterized by the morphological transformation of erythrocytes into a spherical shape due to a hereditary defect in cell membrane proteins (ghosts) associated with disruption of erythrocyte skeletal structures. Contrary to the literature, pores were detected in the erythrocytes of a patient with HS. The aim of the present study was to determine the affected proteins and genes that were responsible for the pores. Ghost isolation was performed to determine the proteins responsible for the pores observed on the erythrocytes of the patient. Erythrocyte membrane proteins were visualized using SDS‑PAGE. Exome and matrix‑assisted laser desorption/ionization time‑of‑flight mass spectrometry (MALDI TOF MS) analyses were used to identify the genes and proteins responsible for the observed defect. Quantitative protein assessments were performed using MALDI TOF MS. A difference was detected in the components of the erythrocyte membrane proteins. Band 3 and protein 4.2, which serve a particular role in membrane structure, decreased 4.573 and 4.106 fold, respectively. Through proteomic analyses, a non‑synonymous exonic mutation region was identified in the Golgi membrane protein 1 (GOLM1) gene (Chr9 rs142242230). Sorting Intolerant From Tolerant and Polymorphism Phenotyping Scores, Likelihood Ratio Tests and MutationTaster revealed that the mutation was deleterious. The pores observed in the morphology of the erythrocytes may have developed due to the decrease in these proteins, which reside in the erythrocyte membrane structure. Furthermore, genetic profiling of the patient with HS and her family was conducted in the present study. Next‑generation sequencing was used, and the genetic source of HS was identified as a GOLM1 gene mutation. The assessment of specific molecular defects is often not performed as the majority of mutations are unique to a family. However, molecular analyses should be performed in severe cases where prenatal diagnosis is required, or for unique HS phenotypes to aid scientific investigation.

Published
2019
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11. Investigation of Gene Expressions of Myeloma Cells in the Bone Marrow of Multiple Myeloma Patients by Transcriptome Analysis

Author

Sarıman M, Abacı N, Sırma Ekmekçi S, Çakiris A, Perçin Paçal F, Üstek D, Ayer M, Yenerel MN, Beşışık S, Çefle K, Palandüz Ş, and Öztürk Ş

Subjects
Bone Marrow growth & development, Flow Cytometry methods, Gene Expression genetics, Gene Expression Profiling, Humans, Sequence Analysis, RNA, Turkey, Bone Marrow pathology, Multiple Myeloma genetics
Abstract

Background: Multiple myeloma is a plasma cell dyscrasia characterized by transformation of B cells into malignant cells. Although there are data regarding the molecular pathology of multiple myeloma, the molecular mechanisms of the disease have not been fully elucidated., Aims: To investigate the gene expression profiles in bone marrow myeloma cells via RNA-sequencing technology., Study Design: Cell study., Methods: Myeloma cells from four patients with untreated multiple myeloma and B cells from the bone marrow of four healthy donors were sorted using a FACSAria II flow cytometer. The patient pool of myeloma cells and the control pool of B cells were the two comparative groups. A transcriptome analysis was performed and the results were analyzed using bioinformatics tools., Results: In total, 18.806 transcripts (94.4%) were detected in the pooled multiple myeloma patient cells. A total of 992 regions were detected as new exon candidates or alternative splicing regions. In addition, 490 mutations (deletions or insertions), 1.397 single nucleotide variations, 415 fusion transcripts, 132 frameshift mutations, and 983 fusions, which were reported before in the National Center for Biotechnology Information, were detected with unknown functions in patients. A total of 35.268 transcripts were obtained (71%) (25.355 transcripts were defined previously) in the control pool. In this preliminary study, the first 50 genes were analyzed with the MSigDB, Enrichr, and Panther gene set enrichment analysis programs. The molecular functions, cellular components, pathways, and biological processes of the genes were obtained and statistical values were determined using bioinformatics tools and are presented as a supplemental file., Conclusion: EEF1G, ITM2C, FTL, CLPTM1L , and CYBA are identified as possible candidate genes associated with myelomagenesis.

Published
2019
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12. Myophosphorylase (PYGM) mutations determined by next generation sequencing in a cohort from Turkey with McArdle disease.

Author

Inal-Gültekin G, Toptaş-Hekimoğlu B, Görmez Z, Gelişin Ö, Durmuş H, Ergüner B, Demirci H, Sağıroğlu MŞ, Parman Y, Deymeer F, Yılmaz-Aydoğan H, Pençe S, Bekircan-Kurt CE, Tan E, Erdem-Özdamar S, Üstek D, Giger U, Öztürk O, and Serdaroğlu-Oflazer P

Subjects
Adolescent, Adult, Aged, Child, Cohort Studies, Family, Female, Geography, Medical, Humans, Male, Middle Aged, Pedigree, Turkey, Young Adult, Genetic Testing methods, Glycogen Phosphorylase, Muscle Form genetics, Glycogen Storage Disease Type V genetics, High-Throughput Nucleotide Sequencing methods, Mutation
Abstract

This study aimed to identify PYGM mutations in patients with McArdle disease from Turkey by next generation sequencing (NGS). Genomic DNA was extracted from the blood of the McArdle patients (n = 67) and unrelated healthy volunteers (n = 53). The PYGM gene was sequenced with NGS and the observed mutations were validated by direct Sanger sequencing. A diagnostic algorithm was developed for patients with suspected McArdle disease. A total of 16 deleterious PYGM mutations were identified, of which 5 were novel, including 1 splice-site donor, 1 frame-shift, and 3 non-synonymous variants. The p.Met1Val (27-patients/11-families) was the most common PYGM mutation, followed by p.Arg576* (6/4), c.1827+7A>G (5/4), c.772+2_3delTG (5/3), p.Phe710del (4/2), p.Lys754Asnfs (2/1), and p.Arg50* (1/1). A molecular diagnostic flowchart is proposed for the McArdle patients in Turkey, covering the 6 most common PYGM mutations found in Turkey as well as the most common mutation in Europe. The diagnostic algorithm may alleviate the need for muscle biopsies in 77.6% of future patients. A prevalence of any of the mutations to a geographical region in Turkey was not identified. Furthermore, the NGS approach to sequence the entire PYGM gene was successful in detecting a common missense mutation and discovering novel mutations in this population study., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2017
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13. Origin and spread of human mitochondrial DNA haplogroup U7.

Author

Sahakyan H, Hooshiar Kashani B, Tamang R, Kushniarevich A, Francis A, Costa MD, Pathak AK, Khachatryan Z, Sharma I, van Oven M, Parik J, Hovhannisyan H, Metspalu E, Pennarun E, Karmin M, Tamm E, Tambets K, Bahmanimehr A, Reisberg T, Reidla M, Achilli A, Olivieri A, Gandini F, Perego UA, Al-Zahery N, Houshmand M, Sanati MH, Soares P, Rai E, Šarac J, Šarić T, Sharma V, Pereira L, Fernandes V, Černý V, Farjadian S, Singh DP, Azakli H, Üstek D, Ekomasova Trofimova N, Kutuev I, Litvinov S, Bermisheva M, Khusnutdinova EK, Rai N, Singh M, Singh VK, Reddy AG, Tolk HV, Cvjetan S, Lauc LB, Rudan P, Michalodimitrakis EN, Anagnou NP, Pappa KI, Golubenko MV, Orekhov V, Borinskaya SA, Kaldma K, Schauer MA, Simionescu M, Gusar V, Grechanina E, Govindaraj P, Voevoda M, Damba L, Sharma S, Singh L, Semino O, Behar DM, Yepiskoposyan L, Richards MB, Metspalu M, Kivisild T, Thangaraj K, Endicott P, Chaubey G, Torroni A, and Villems R

Subjects
Bayes Theorem, Geography, Humans, Mutation genetics, Phylogeny, DNA, Mitochondrial genetics, Evolution, Molecular, Haplotypes genetics
Abstract

Human mitochondrial DNA haplogroup U is among the initial maternal founders in Southwest Asia and Europe and one that best indicates matrilineal genetic continuity between late Pleistocene hunter-gatherer groups and present-day populations of Europe. While most haplogroup U subclades are older than 30 thousand years, the comparatively recent coalescence time of the extant variation of haplogroup U7 (~16-19 thousand years ago) suggests that its current distribution is the consequence of more recent dispersal events, despite its wide geographical range across Europe, the Near East and South Asia. Here we report 267 new U7 mitogenomes that - analysed alongside 100 published ones - enable us to discern at least two distinct temporal phases of dispersal, both of which most likely emanated from the Near East. The earlier one began prior to the Holocene (~11.5 thousand years ago) towards South Asia, while the later dispersal took place more recently towards Mediterranean Europe during the Neolithic (~8 thousand years ago). These findings imply that the carriers of haplogroup U7 spread to South Asia and Europe before the suggested Bronze Age expansion of Indo-European languages from the Pontic-Caspian Steppe region.

Published
2017
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14. Association of Enteric Protist Blastocystis spp. and Gut Microbiota with Hepatic Encephalopathy.

Author

Yildiz S, Doğan İ, Doğruman-Al F, Nalbantoğlu U, Üstek D, Sarzhanov F, and Yildirim S

Subjects
Adult, Aged, Aged, 80 and over, Bacteria classification, Bacteria genetics, Blastocystis classification, Blastocystis genetics, Blastocystis Infections diagnosis, Blastocystis Infections epidemiology, Cross-Sectional Studies, Dysbiosis, Feces microbiology, Feces parasitology, Female, Hepatic Encephalopathy diagnosis, Hepatic Encephalopathy epidemiology, Hospitals, University, Host-Pathogen Interactions, Humans, Liver Cirrhosis diagnosis, Liver Cirrhosis epidemiology, Male, Middle Aged, Prevalence, Ribotyping, Turkey epidemiology, Young Adult, Bacteria isolation & purification, Blastocystis isolation & purification, Blastocystis Infections parasitology, Gastrointestinal Microbiome, Gastrointestinal Tract microbiology, Gastrointestinal Tract parasitology, Hepatic Encephalopathy microbiology, Hepatic Encephalopathy parasitology, Liver Cirrhosis microbiology, Liver Cirrhosis parasitology
Abstract

Background and Aims: Hepatic encephalopathy (HE) is a serious neuropsychiatric sequela emerging in the advanced stages of cirrhosis. The gut microbiota plays an important role in the development of HE. The aim of the study was to analyze the dynamic interplay between microbiota and Blastocystis in cirrhotic patients with or without encephalopathy., Methods: The study was designed as cross-sectional study. A total of 37 patients from the Ankara city, admitted to the University Hospital within a 6-month period prior to enrolment into the study were included in the study. After the regular health checks, clinical histories, clinical examinations, and Psychometric HE Score (PHES) points, patients' MELD and CTP scores were recorded. The fecal microbiota configurations were characterized by targeting hypervariable regions V3 and V4 of the 16S rRNA gene using Illumina MiSeq System., Results: Blastocystis spp. were detected in 21.6% (n = 8) of all cirrhotic patients. When those were analyzed by subgroups, four of them were subtype 2, three were subtype 3 and one was subtype 1. Blastocystis spp. were not found in any of the patients with HE; however, they were detected in 38.1% of the patients without HE. Also the increase in the bacterial diversity was observed along with the absence of Blastocystis. It was suggested that there was an inverse relationship between Blastocystis spp. and advanced stages of HE and the structure and composition of gut microbiota., Conclusion: The absence of Blastocystis spp. is associated with the HE severity and dysbiosis in the gut microbiota.

Published
2016
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15. A Homozygous Nonsense Thyroid Peroxidase Mutation (R540X) Consistently Causes Congenital Hypothyroidism in Two Siblings Born to a Consanguineous Family.

Author

Cangül H, Doğan M, and Üstek D

Subjects
Child, Codon, Nonsense, Female, Humans, Male, Pedigree, Siblings, Turkey, Autoantigens genetics, Congenital Hypothyroidism genetics, Congenital Hypothyroidism physiopathology, Consanguinity, Iodide Peroxidase genetics, Iron-Binding Proteins genetics
Abstract

Objective: Congenital hypothyroidism (CH) is the most common neonatal endocrine disorder, and mutations in the thyroid peroxidase (TPO) gene have been reported to cause the disease. Our aim in this study was to determine the genetic basis of CH in two affected children coming from a consanguineous family., Methods: First, we investigated the potential genetic linkage of the family to any known CH locus using microsatellite markers and then screened for mutations in the linked gene by Sanger sequencing. By using next-generation sequencing, we also checked if any other mutation was present in the remaining 10 causative CH genes., Results: The family showed potential linkage to the TPO gene, and we detected a homozygous nonsense mutation (R540X) in both cases. The two patients had total iodide organification defect (TIOD). Both the microsatellite marker haplotypes and the mutation segregated with the disease status in the family, i.e. all healthy subjects were either heterozygous carriers or homozygous wild-type, confirming the pathogenic nature of the mutation. Neither was the mutation present in any of the 400 control chromosomes nor were there any other mutations in the remaining causative CH genes., Conclusion: This study proves the pathogenicity of R540X mutation and demonstrates the strong genotype/phenotype correlation associated with this mutation. It also highlights the power of working with familial cases in revealing the molecular basis of CH and in establishing accurate genotype/phenotype relationships associated with disease causing mutations.

Published
2015
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16. Water as Source of Francisella tularensis Infection in Humans, Turkey.

Author

Kilic S, Birdsell DN, Karagöz A, Çelebi B, Bakkaloglu Z, Arikan M, Sahl JW, Mitchell C, Rivera A, Maltinsky S, Keim P, Üstek D, Durmaz R, and Wagner DM

Subjects
Animals, Disease Outbreaks, Genotype, Humans, Phylogeography methods, Rodentia, Turkey epidemiology, Water, Waterborne Diseases genetics, Francisella tularensis pathogenicity, Tularemia epidemiology, Waterborne Diseases epidemiology
Abstract

Francisella tularensis DNA extractions and isolates from the environment and humans were genetically characterized to elucidate environmental sources that cause human tularemia in Turkey. Extensive genetic diversity consistent with genotypes from human outbreaks was identified in environmental samples and confirmed water as a source of human tularemia in Turkey.

Published
2015
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17. Microfluidics and nanoparticles based amperometric biosensor for the detection of cyanobacteria (Planktothrix agardhii NIVA-CYA 116) DNA.

Author

Ölcer Z, Esen E, Ersoy A, Budak S, Sever Kaya D, Yağmur Gök M, Barut S, Üstek D, and Uludag Y

Subjects
DNA, Bacterial genetics, Equipment Design, Equipment Failure Analysis, Gold chemistry, Lab-On-A-Chip Devices, Metal Nanoparticles ultrastructure, Microelectrodes, Reproducibility of Results, Sensitivity and Specificity, Biosensing Techniques instrumentation, Conductometry instrumentation, Cyanobacteria genetics, Cyanobacteria isolation & purification, DNA, Bacterial analysis, Metal Nanoparticles chemistry
Abstract

Some of the cyanobacteria produce protease inhibitor oligopeptides such as cyanopeptolins and cause drinking water contamination; hence, their detection has great importance to monitor the well-being of water sources that is used for human consumption. In the current study, a fast and sensitive nucleic acid biosensor assay has been described where cyanopeptolin coding region of one of the cyanobacteria (Planktothrix agardhii NIVA-CYA 116) genome has been used as target for monitoring of the fresh water resources. A biochip that has two sets of Au electrode arrays, each consist of shared reference/counter electrodes and 3 working electrodes has been used for the assay. The biochip has been integrated to a microfluidics system and all steps of the assay have been performed during the reagent flow to achieve fast and sensitive DNA detection. On-line hybridization of the target on to the capture probe immobilized surface resulted in a very short assay duration with respect to the conventional static assays. The binding of the avidin and enzyme modified Au nanoparticles to the biotinylated detection probe and the subsequent injection of the substrate enabled a real-time amperometric measurement with a detection limit of 6×10(-12) M target DNA (calibration curve r(2)=0.98). The developed assay enables fast and sensitive detection of cyanopeptolin producing cyanobacteria from freshwater samples and hence shows a promising technology for toxic microorganism detection from environmental samples., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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18. Mitochondrial mutations in patients with congenital heart defects by next generation sequencing technology.

Author

Abaci N, Arıkan M, Tansel T, Sahin N, Cakiris A, Pacal F, Sırma Ekmekci S, Gök E, and Üstek D

Subjects
Cardiomyopathies congenital, Child, Preschool, Female, High-Throughput Nucleotide Sequencing methods, Humans, Infant, Infant, Newborn, Male, Polymerase Chain Reaction, RNA, Ribosomal genetics, RNA, Transfer genetics, Sequence Analysis, DNA methods, Turkey, Cardiomyopathies genetics, DNA, Mitochondrial genetics, Heart Defects, Congenital genetics, Mutation genetics
Abstract

It has been shown that mitochondrial deoxyribo nucleic acid mutations may play an important role in the development of cardiomyopathy, and various types of cardiomyopathy can be attributed to disturbed mitochondrial oxidative energy metabolism. Several studies have described many mutations in mitochondrial genes encoding for subunits of respiratory chain complexes. Thus, recent studies confirm that pathologic mitochondrial deoxyribo nucleic acid mutations are a major reason of diseases and determining them by next-generation sequencing will improve our understanding of dysregulation of heart development. To analyse mitochondrial deoxyribo nucleic acid mutations, the entire mitochondrial deoxyribo nucleic acid was amplified in two overlapping polymerase chain reaction fragments from the cardiac tissue of the 22 patients with congenital heart disease, undergoing cardiac surgery. Mitochondrial deoxyribo nucleic acid was deep sequenced by next-generation sequencing. A total of 13 novel mitochondrial deoxyribo nucleic acid mutations were identified in nine patients. Of the patients, three have novel mutations together with reported cardiomyopathy mutations. In all, 65 mutations were found, and 13 of them were unreported. This study represents the most comprehensive mitochondrial deoxyribo nucleic acid mutational analysis in patients with congenital heart disease.

Published
2015
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19. Determination of a new mutation in MT-ND1 gene of a patient with dextrocardia, ventriculoarterial discordance, and tricuspid atresia.

Author

Hatemi AC, Ceyran H, and Üstek D

Subjects
Abnormalities, Multiple diagnostic imaging, Cardiac Surgical Procedures methods, Child, Preschool, Dextrocardia diagnostic imaging, Dextrocardia surgery, Female, Heart Septal Defects, Atrial diagnostic imaging, Heart Septal Defects, Atrial genetics, Heart Septal Defects, Atrial surgery, Heart Septal Defects, Ventricular diagnostic imaging, Humans, Mutation, Tricuspid Atresia diagnostic imaging, Tricuspid Atresia genetics, Tricuspid Atresia surgery, Ultrasonography, Abnormalities, Multiple genetics, Dextrocardia genetics, Genetic Predisposition to Disease, Heart Septal Defects, Ventricular genetics, NADH Dehydrogenase genetics
Published
2015
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