Arşiv ve Dokümantasyon Merkezi
Dijital Arşivi

From mutations to disease mechanism in Rett Syndrome, breast cancer, and congenital hypothyroidism

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dc.contributor Ph.D. Program in Molecular Biology and Genetics.
dc.contributor.advisor Battaloğlu, Esra.
dc.contributor.author Barış, İbrahim.
dc.date.accessioned 2023-03-16T11:28:29Z
dc.date.available 2023-03-16T11:28:29Z
dc.date.issued 2008.
dc.identifier.other BIO 2008 B37 PhD
dc.identifier.uri http://digitalarchive.boun.edu.tr/handle/123456789/15531
dc.description.abstract Epidemiological studies provide the correlative data to understand the etiology of human inherited diseases and develop efficient genetic testing assays. Additionally, the accumulated data of genetic and epigenetic findings, expression profiling, and proteomics allows disease diagnosis, to understand the molecular mechanisms leading to the disease pathogenesis, and to develop efficient therapeutic approaches. In the framework of this thesis, we have investigated genetic and epigenetic changes and performed genotypephenotype correlations to unravel the molecular mechanisms that lead to three different diseases, Rett Syndrome, breast cancer, and congenital hypothyroidism. The genetic basis of Rett Syndrome (RTT) was investigated in a total of 71 RTT patients. A heterogeneous spectrum of disease-causing MECP2 mutations was identified in 68.2 per cent of a clinically well defined group of cases whereas in only 12.5 per cent of the patients referred for differential diagnosis suggesting that this gene does not represent a major cause of the disease among patients with Rett-like features. For the first time, we have identified gene duplications as causative mutations in female atypical RTT cases. Consistent with the animal models, our results support the possibility that duplication of MECP2 that leads to increased expression might underlie some cases of X-linked delayedonset neurobehavioral disorders including Rett Syndrome. Our results showed that exon rearrangements that could not be detected by standard techniques contribute to 19.3 per cent of these MECP2 mutations, and should be considered in especially RTT variants in order to determine the actual significance of the gene in the etiology of RTT. Genotype/phenotype correlation was performed based on comparison of severity score of patients with the type and location of the mutation and the XCI pattern. The results did not reveal a statistically significant correlation, but, the patients with exon deletions were found to be more severely affected than patients with all other types of mutations and patients with exon duplications to present with severe eye contact problems. Additionally, we have developed and validate a novel multiplexed amplification refractory mutation system (ARMS) assay for identification of seven common mutations that accounts for almost 65 per cent of all MECP2 gene mutations. The validation studies revealed that our novel assay is an efficient, reliable, and cost-effective screen for molecular genetic testing of patients with RTT. Furthermore, we tested the effect of DNA concentration on reliablity and reproducibility of SYBR green dye-based Real Time PCR analysis to detect the MECP2 exon rearrangments. The results suggested that Real Time PCR analysis is reliable for determination of the exon copy number if the DNA amount is in the range of 1-50 ng. To our knowledge, there are no known reports investigating the role of methylation of hHR23A and hHR23B genes in the tumor tissues. We have characterized the 5' flanking region of the hHR23A and hHR23B genes using web-based analysis and investigated the involvement of methylation status of putative promoter region of hHR23A and hHR23B genes in breast carcinogenesis. The observations of the hypermethylation of hHR23A gene and the presence of methylated conserved motifs and transcription binding sites in hHR23B gene among the analyzed tumor tissues suggested the involvement of methylation of hHR23 genes in the breast carcinogenesis. Investigation of epigenetic changes in tumor samples of breast cancer patients was a pioneering work since available literature implicates its presence only in cell lines. Since our CH patient was the first case with Bamforth Syndrome and suffered the plasma cholinesterase deficiency, the genetic mechanisms leading to congenital hypothyroidism and prolonged paralysis after mivacurium were investigated. In contrast to other reported two patients with TTF2 gene mutation, the presence of thyroid tissue in our patient suggested further phenotypic heterogeneity associated with human TTF-2 mutations. The functional study with a collaborative work also helped to understand the genetic mechanisms and provided original evidence that implicated differential effects of TTF-2 mutations on downstream target genes required for normal human thyroid organogenesis.
dc.format.extent 30cm.
dc.publisher Thesis (Ph.D.)-Bogazici University. Institute for Graduate Studies in Science and Engineering, 2008.
dc.subject.lcsh Epigenesis.
dc.subject.lcsh Mutation (Biology)
dc.subject.lcsh Phenotype.
dc.title From mutations to disease mechanism in Rett Syndrome, breast cancer, and congenital hypothyroidism
dc.format.pages xxiii, 164 leaves;


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