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    DNA Methylation of BDNF Gene in Schizophrenia
    (Int Scientific Information, Inc, 2016) Copoglu, Umit Sertan; Igci, Mehri; Bozgeyik, Esra; Kokacya, M. Hanifi; Igci, Yusuf Ziya; Dokuyucu, Recep; Ari, Mustafa
    Background: Although genetic factors are risk factors for schizophrenia, some environmental factors are thought to be required for the manifestation of disease. Epigenetic mechanisms regulate gene functions without causing a change in the nucleotide sequence of DNA. Brain-derived neurotrophic factor (BDNF) is a neurotrophin that regulates synaptic transmission and plasticity. It has been suggested that BDNF may play a role in the pathophysiology of schizophrenia. It is established that methylation status of the BDNF gene is associated with fear learning, memory, and stressful social interactions. In this study, we aimed to investigate the DNA methylation status of BDNF gene in patients with schizophrenia. Material/Methods: The study included 49 patients (33 male and 16 female) with schizophrenia and 65 unrelated healthy controls (46 male and 19 female). Determination of methylation pattern of CpG islands was based on the principle that bisulfite treatment of DNA results in conversion of unmethylated cytosine residues into uracil, whereas methylated cytosine residues remain unmodified. Methylation-specific PCR was performed with primers specific for either methylated or unmethylated DNA. Results: There was no significant difference in methylated or un-methylated status for BDNF promoters between schizophrenia patients and controls. The mean duration of illness was significantly lower in the hemi-methylated group compared to the non-methylated group for BDNF gene CpG island-1 in schizophrenia patients. Conclusions: Although there were no differences in BDNF gene methylation status between schizophrenia patients and healthy controls, there was an association between duration of illness and DNA methylation.
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    Loss of heterozygosity of chromosome 13q33-34 region and molecular analysis of ING1 and p53 genes in bladder carcinoma
    (Springer, 2015) Igci, Mehri; Arslan, Ahmet; Erturhan, Sakip; Igci, Yusuf Ziya; Pala, Elif; Gogebakan, Bulent; Karakok, Metin
    Cancer is a consequence of accumulation of genetic and epigenetic alterations in the cell which can lead to activation of oncogenes or inactivation of tumor suppressor genes (TSG). Since members of ING family were discovered as TSGs in different cancer types, it was aimed to analyze the chromosome 13q33-34 region, ING1 and p53 genes in bladder cancer. 30 paired normal and tumor tissues were investigated in terms of microdeletion of chromosome 13q33-34 region, ING1 expression and mutation status of ING1 and p53 genes. Because there is no data available about the transcription factors which bind to ING1 promoter, the promoter sequence was analyzed via Genomatix-MatInspector and TFSEARCH softwares. Used DS markers were D13S285, D13S1315, D13S796, D13S278, D13S158, and D13S779 where loss of heterozygosity (LOH) results were as 23.3, 20, 6.7, 3.3, 6.7, and 0 %, respectively. The highest LOH scores were obtained with markers D13S285 and D13S1315 which are flanking the ING1. Seven of 30 cases showed alteration in expression (p > 0.05). However, no mutation was detected in the exons of ING1. One patient showed a two-nucleotide deletion in p53 gene. However no significant TSG activity of ING1 was observed while higher activity was reported in different cancer types. As for the LOH data 13q33-34 region may contain different candidate TSGs like COL4A1, COL4A2 and SOX1. As a result of computational promoter analysis, some factors like ABL, E2F, HIF1, SOX, P53, BPTF, NRSF, c-Rel and c-ETS were associated with the promoter region. Molecular analysis of ING1 promoter warrants further analysis.