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Identifikace dědičných alterací predisponujících ke vzniku karcinomu prsu pomocí "nextgen" sekvenování. / Identification of hereditary alterations predisposing to breast cancer development using "next-gen" sequencingLhota, Filip January 2018 (has links)
Summary: Breast cancer (BC) is the most frequent cancer type in female population of Europe. Approximately 5 - 10 % accounts for its hereditary form which is characterized by high penetrance, early onset, risen recurrence risk and development of other cancers. Mutational analyses of high risk patients identify a predisposing mutation in one of the most studied genes (BRCA1, BRCA2, TP53, ATM, CHEK2, NBS1, PALB2) only in less than one third of tested breast cancer patients. Lately, with the use of new methods of next-generation sequencing, a number of other susceptibility or candidate genes were characterized, but the incidence of their pathogenic alteration is often geographically different. A notable proportion of high risk patients from families with hereditary BC can represent carriers of population-specific, or private mutations. Most of the to date identified BC susceptibility genes codes for proteins involved in DNA repair, especially repair of double strand break DNA repair. Nevertheless the mutation analysis was conducted only on a small fraction of these DNA repair genes. We can expect that in the group of yet nontested genes coding for DNA repair proteins a rare, but clinically important genetic alterations predisposing to BC in affected families can be discovered. This work describes a...
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Transcriptional Regulation of Antioxidant and DNA Repair Transcript Abundance in Human Bronchial Epithelial CellsMullins, D'Anna N. January 2006 (has links)
No description available.
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Characterization of the T122L mutation in p53 and its protein product in Xpc mutant miceNahari, Dorit. January 2003 (has links) (PDF)
Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2003. / Vita. Bibliography: References located after each study.
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Caracterização genotípica de pacientes brasileiros com deficiência em processos de reparo de DNA. / Genotypic characterization of brazillian patients with deficiency in DNA repair processes.Castro, Ligia Pereira 09 November 2016 (has links)
Mutações em genes da via de reparo de DNA por excisão de nucleotídeo estão associados a doenças genéticas raras, como Xeroderma pigmentosum, Síndrome de Cockayne e Tricotiodistrofia. Este trabalho teve como objetivo identificar mutações responsáveis por essas Síndromes em pacientes brasileiros. Inicialmente o projeto teve como foco o estudo da comunidade de Araras, no interior de Goiás, onde existe uma das maiores incidências de pacientes XP no mundo. Duas mutações foram identificadas no gene POLH, associadas a dois efeitos fundadores independentes na região. Os dezessete pacientes, entre 10 e 80 anos, caracterizados geneticamente apresentam uma grande heterogeneidade das manifestações clínicas, com fenótipos brandos à extremamente agressivos. Esse estudo se estendeu a mais dezessete pacientes de todo o Brasil, incluindo outros grupos de complementação de XP, CS e TTD. Na segunda parte deste trabalho avaliamos a resposta das linhagens XP-V ao tratamento com cisplatina. Foi possível observar que essas linhagens são mais sensíveis aos danos induzidos pela cisplatina, encontram problemas na fase G1/S de replicação e possuem um aumento da marcação high-level para histona gH2AX. / Mutations at DNA repair genes are associated with rare genetic diseases such as Xeroderma pigmentosum, Cockayne syndrome and Trichothiodystrophy. This study aimed to identify mutations responsible for these syndromes in Brazilian patients. Initially the project focused on the study of Araras community in the state of Goiás, where there is one of the densest known areas of XP patients. Two mutations were identified at POLH gene, associated with two independent founders effects in the region. The seventeen patients between 10 and 80, characterized genetically a wide range of heterogeneity of clinical symptoms with mild to extremely aggressive phenotypes. Brazilian patients from other places were studied, including seventeen other patients with XP, CS and TTD phenotypes. In the second part of this work, we evaluated the response of XP-V cell lines treated with cisplatin. It was observed that Pol eta deficient cells are more sensitive to damage induced by cisplatin, as well as encounter problems in the S phase replication after 24 hours of treatment, and have increased high-level fluorescence for gH2AX.
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