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Consequences of mitotic loss of heterozygosity on genomic imprinting in mouse embryonic stem cellsElves, Rachel Leigh 11 1900 (has links)
Epigenetic differences between maternally inherited and paternally inherited chromosomes, such as CpG methylation, render the maternal and paternal genome functionally inequivalent, a phenomenon called genomic imprinting. This functional inequivalence is exemplified with imprinted genes, whose expression is parent-of-origin specific. The dosage of imprinted gene expression is disrupted in cells with uniparental disomy (UPD), which is an unequal parental contribution to the genome. I have derived mouse embryonic stem (ES) cell sub-lines with maternal UPD (mUPD) for mouse chromosome 6 (MMU6) to characterize regulation and maintenance of imprinted gene expression.
The main finding from this study is that maintenance of imprinting in mitotic UPD is extremely variable. Imprint maintenance was shown to vary from gene to gene, and to vary between ES cell lines depending on the mechanism of loss of heterozygosity (LOH) in that cell line. Certain genes analyzed, such as Peg10, Sgce, Peg1, and Mit1 showed abnormal expression in ES cell lines for which they were mUPD. These abnormal expression levels are similar to that observed in ES cells with meiotically-derived full genome mUPD (parthenogenetic ES cells).
Imprinted CpG methylation at the Peg1 promoter was found to be abnormal in all sub-lines with mUPD for Peg1. Two cell sub-lines which incurred LOH through mitotic recombination showed hypermethylation of Peg1, consistent with the presence of two maternal alleles. Surprisingly, a cell sub-line which incurred LOH through full chromosome duplication/loss showed hypomethylation of Peg1. The levels of methylation observed in these sub-lines correlates with expression, as the first two sub-lines showed a near-consistent reduction of Peg1, while the latter showed Peg1 levels close to wild-type.
Altogether these results suggest that certain imprinted genes, like Peg1 and Peg10, have stricter imprinting maintenance, and as a result show abnormal expression in UPD. This strict imprint maintenance is disrupted, however, in UPD incurred through full chromosome duplication/loss, possibly because of the trisomic intermediate stage which occurs in this mechanism. / Medicine, Faculty of / Medical Genetics, Department of / Graduate
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Aneuploidy: Using genetic instability to preserve a haploid genome?Ramdath, Ramona Sherry 14 July 2009 (has links)
No description available.
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Molecular alterations in squamous cell carcinomas of the skin : emphasis on genes on chromosome 9q /Eklund, Lena K., January 2004 (has links) (PDF)
Diss. (sammanfattning) Linköping : Univ., 2004. / Härtill 4 uppsatser.
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Deletion mapping of human 3P in major epithelial malignancies and fine localization of candidate tumor suppressor genes /Liu, Jian, January 2003 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2003. / Härtill 5 uppsatser.
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Studium inaktivace tumor supresorových genů zúčastněných v patogenezi sporadických nádorových onemocnění. / Inactivation of tumor suppressor genes contributing to pathogenesis of sporadic cancers.Zdařilová, Klára January 2015 (has links)
Protein product tumor suppressor PALB2 gene plays a major role in pathway of DNA repair of double-strand breaks throught the homologous recombination mechanism. Significance of its pathogenic variants in hereditary forms of breast cancer in BRCA1/2- negative patients in families with multiple breast cancers may be in the Czech Republic comparable with the BRCA2 gene. A role of the PALB2 gene in sporadic breast cancer occurence, which represent 90 - 95 % of all cancers, is still unknown. This thesis focuses on inactivation pathway of tumor suppressor PALB2 in the sporadic breast cancer by a mechanism of allelic loss detecting by loss of heterozygosity (LOH) of corresponding microsatellite markers and hypermethylation of promoter region as the most common mechanisms of inactivation tumor suppressors in early tumorigenesis. In a group of 51 nonselected patients with sporadic breast cancer we found four samples with PALB2 locus allelic loss. These samples were analyzed for somatic mutations. No mutation was found. There is no evidence of promotor hypermethylation in any of the samples. Our data suggest a role of the PALB2 gene inactivation in a minority group of sporadic breast cancers.
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Analyse von Mikrosatelliteninstabilität und hMSH2-Expression bei Patienten mit akuter myeloischer Leukämie / Analysis of microsatellite instability and hMSH2 expression in patients with acute myeloid leukemiaKohaus, Petra 20 June 2017 (has links)
No description available.
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Avaliação genômica da infertilidade masculina idiopática por azoospermia não obstrutiva / Genomic assessment of idiopathic male infertility by nonobstructive azoospermiaGrangeiro, Carlos Henrique Paiva 10 April 2018 (has links)
Infertilidade conjugal é uma doença do sistema reprodutivo que acomete cerca de 20% dos casais e na qual o fator masculino responde por metade desses casos. A infertilidade masculina é um fenótipo complexo que abrange diferentes fatores. Os fatores genéticos envolvidos variam desde mutações pontuais, microdeleções no cromossomo Y, até alterações cromossômicas, como a Síndrome de Klinefelter. Mesmo após avaliação clínicolaboratorial detalhada, metade dos pacientes permanece sem a identificação de um fator causal, caracterizando a infertilidade idiopática. Nesse grupo, observamos com maior frequência os pacientes com falha espermatogênica primária, que clinicamente apresentam oligozoospermia grave ou azoospermia não obstrutiva (ANO) e, no qual, preponderam fatores genéticos ainda desconhecidos. Para auxiliar na compreensão de possíveis alterações genômicas, sejam as variantes de número de cópias (CNVs) ou as regiões de perda de heterozigosidade (LOHs), envolvidas com infertilidade masculina idiopática, 16 pacientes com ANO e 6 controles foram investigados pela técnica de hibridação genômica comparativa (aCGH) utilizando a plataforma 4x180 CGH+SNP Agilent® com análise dos dados pelo software Nexus 8.0. Não foram observadas diferenças significativas tanto no número, como no tamanho das alterações genômicas em ambos os grupos. Foram descritas 18 novas alterações genômicas com efeito sobre a produção espermática, distribuídas na forma de 12 ganhos, 3 perdas e 3 LOHs. Os ganhos mais significativos para o fenótipo azoospermia não obstrutiva foram descritos em 7q36.3, 17q21.33, Xq21.1 e Yp11.2. Nessas regiões, os genes com maior impacto sobre o fenótipo foram, respectivamente, SHH, COL1A1, COX7B e LINC00279. Ganhos envolvendo a sub-banda Yq11.223 e contendo cópias dos genes DAZ1 e DAZ4 foram considerados benignos. As três perdas detectadas em 2q31.1, 3p21.1-21.31 e 15q11.2, contendo, respectivamente, os genes DLX1, CACNA2D2 e representantes da família de receptores olfatórios foram consideradas relevantes. A análise das LOHs em fenótipos complexos é escassa e desafiadora. No presente trabalho, foram descritas 3 dessas alterações, localizadas em 1p31.1, 7q21.1 e 12q21.1-21.2 e compartilhadas por mais de um indivíduo infértil. A descrição dessas alterações genômicas contribui para a compreensão de mecanismos complexos e ainda pouco estudados, que resultam em azoospermia não obstrutiva decorrente da falha espermatogênica primária. / Infertility is a disease of the reproductive system that affects about 20% of all couples, with half of the cases being related to the male factor. Male infertility is a complex phenotype associated with an interaction of different factors. The genetic factors involved may range from point mutations, microdeletions on the Y chromosome to chromosomal changes such as Klinefelter syndrome. Even after detailed clinical-laboratory evaluation, the etiology may remain unknown in approximately half of the patients, and, in such cases, the infertility can be classified as idiopathic. This group of patients more frequently present with primary spermatogenic failure, with severe oligozoospermia or non-obstructive azoospermia (NOA). Nevertheless, the underlying genetic factors are still largely unknown. In order to better understand the potential genomic changes involved with idiopathic male infertility, sixteen patients with NOA and 6 controls were investigated in this study. Copy number variants (CNVs) and regions of loss of heterozygosity (LOHs) were assessed by array comparative genomic hybridization technique (aCGH), using the Agilent® 4x180 CGH + SNP platform. Data analyses was performed using Nexus 8.0 software. No significant differences between the groups were observed in relation to either the number or the size of the genomic changes. Eighteen new genomic alterations were described that were associated with sperm production (12 gains, 3 losses and 3 LOHs). The most important gains for the nonobstructive azoospermia phenotype were observed in 7q36.3, 17q21.33, Xq21.1 and Yp11.2. In these regions, the genes related to greatest impact on the phenotype were SHH, COL1A1, COX7B and LINC00279, respectively. Gains involving the Yq11.223 sub-band and containing copies of the DAZ1 and DAZ4 genes were considered benign. All 3 losses detected in 2q31.1, 3p21.1-21.31 and 15q11.2, containing, respectively, the DLX1, CACNA2D2 genes and representatives of the olfactory receptor family were considered relevant. Analysis of LOHs in complex phenotypes such as male infertility has been infrequently reported and is challenging. In the present study, three significants LOHs were found (1p31.1, 7q21.1 and 12q21.1-21.2) and were identified in more than one infertile individual. The description of these genomic alterations contributes to a better understanding of this complex and poorly explored mechanisms that results in non-obstructive azoospermia due to primary spermatogenic failure.
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Perfil de variação no número de cópias do DNA e regiões de perda de heterozigose na susceptibilidade ao lúpus eritematoso sistêmico / DNA copy number variation and loss of heterozygosity profiles in susceptibility to systemic lupus erythematosusBarbosa, Fernanda Bueno 20 July 2017 (has links)
O lúpus eritematoso sistêmico (LES) é uma doença autoimune com forte componente genético, caracterizada por inflamação crônica e produção de autoanticorpos. O objetivo deste trabalho foi determinar o perfil de variação no número de cópias (CNVs) e de regiões de perda de heterozigose (LOH) na patogênese do LES. A detecção de CNVs e LOH foi feita pela metodologia Cytoscan HD array em pacientes com LES (n = 23) e indivíduos saudáveis (n = 110). Devido à formação tri-híbrida da população brasileira, foi desenvolvido e validado um painel de 345 marcadores informativos de ancestralidade, a partir dados provenientes do próprio array, para estimar as proporções de ancestralidade individual e, em última instância, inseri-las nos modelos de regressão logística como variável de controle nas análises de distribuição de CNVs e LOH. O perfil de CNVs evidenciou que o número e o tamanho de duplicações são maiores nos indivíduos saudáveis do que nos pacientes com LES. Duplicações nos genes FCGR3B e ADAM3A foram descritas como fator de proteção ao LES, quando tais genes foram avaliados por PCR quantitativa em maior grupo amostral de pacientes (n = 135) e controles (n = 200). Além disso, mostrou-se o efeito sinérgico da presença da deleção em ambos os loci FCGR3B e ADAM3A no aumento do risco para desenvolver a doença. Deleções em pacientes com LES envolvendo os genes CFHR4, CFHR5 e HLA-DPB2, previamente descritos em associação com o LES na literatura, foram identificadas por array e confirmadas por PCR digital. O protocolo desenvolvido para identificação de variantes raras, resultou em um conjunto de 21 CNVs raras em pacientes com LES. Em relação às regiões de perda de heterozigose, não foram encontradas evidências de que o número médio e a extensão dos segmentos LOH seja diferente entre pacientes e indivíduos saudáveis. No entanto, os cromossomos 6 e 12 em pacientes exibem regiões de perda de heterozigose em maior quantidade e tamanho do que os de indivíduos saudáveis, além de apresentarem 17 segmentos LOH restritos ao grupo de pacientes com LES. Os resultados aqui descritos evidenciam que novos loci de susceptibilidade ao LES podem ser encontrados quando a distribuição de CNVs é analisada em todo o genoma, em que a investigação de sua relação com a patogênese pode contribuir para a compreensão da base genética da doença. / Systemic lupus erythematosus (SLE) is an autoimmune disease with a strong genetic background characterized by chronic inflammation and autoantibody production. The purpose of this study was to determine the copy number variation (CNV) and loss of heterozygosity (LOH) profiles in the susceptibility to SLE. The detection of CNVs and LOH was performed by the Cytoscan HD array methodology in SLE patients (n = 23) and healthy subjects (n = 110). Due to the tri-hybrid composition of the Brazilian population, a panel of 345 ancestral informative markers was developed and validated, based on data from the array itself, to estimate the proportions of individual ancestry and, ultimately, to insert them into the logistic regression models as a control variable in the analysis of CNV and LOH distribution. The CNVs profile showed that the burden and the size of duplications are higher in healthy individuals than in SLE patients. Duplications in FCGR3B and ADAM3A genes were described as a protective factor for SLE, when these genes were evaluated by quantitative PCR in a larger SLE (n = 135) and control (n = 200) groups. In addition, the synergistic effect of the presence of deletion in both FCGR3B and ADAM3A loci increase the risk of developing the disease. Deletions in SLE patients encompassing the CFHR4, CFHR5 and HLA-DPB2 genes, previously described in the literature in association to SLE, were identified by the array and confirmed by droplet digital PCR. The pipeline developed here for the identification of rare variants resulted in a set of 21 rare CNVs in SLE patients. Regarding the loss of heterozygosity regions, no evidence was found that the mean number and extent of LOH segments is different between patients and healthy individuals. However, the chromosomes 6 and 12 in SLE patients exhibit greater quantity and size of LOH than those of healthy individuals, besides showing 17 LOH segments restricted to the group of SLE. The results described here show that novel susceptibility loci to SLE can be found once the distribution of variants is analyzed throughout the genome, in which the investigation of its relation to the pathogenesis may contribute to the understanding of the genetic basis of the disease.
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"Estudo das alterações dos microssatélites D6S251 e D6S252 no carcinoma basocelular esporádico" / Study of alterations in microsatellites D6S251 and D6S252 in sporadic basal cell carcinomaMartinez, Marcos Antonio Rodrigues 29 March 2006 (has links)
Existe grande interesse na determinação das bases genéticas do carcinoma basocelular (CBC) que expliquem seu fenótipo pouco agressivo e comportamento metastático infreqüente. Investigamos a instabilidade de microssatélites (MSI) e perda de heterozigosidade (LOH) nos microssatélites D6S251 (6q14) e D6S252 (6q16) de CBCs esporádicos de alto e baixo risco histológico através da análise de bandas obtidas pelo gel de poliacrilamida após PCR em comparação com o tecido normal. Não houve alteração do microssatélite D6S252 nas 15 amostras estudadas. Para o microssatélite D6S251, houve alterações em 6 das 26 amostras estudadas (23,07%). MSI e LOH ocorreram em 46,15% das amostras de alto risco (respectivamente 15,38% e 30,76), o que sugere o provável envolvimento da região 6q14 na diferenciação histológica do CBC / A lot of interest lies in determining the genetic basis of basal cell carcinoma (BCC) to explain the lack of aggressive phenotype and infrequent metastatic behavior. We have analyzed the microsatellite instability (MSI) and loss of instability (LOH) in the D6S251 (6q14) and D6S252 (6q16) microsatellites patterns of histological low- high-risk sporadic BCC tumor samples using PCR-based assay in comparison with normal tissue. We have not found any alteration in D6S252 microsatellite 15 samples studied. We have encountered D6S251 alterations in 6 of 26 BCC samples (23.07%).MSI and LOH occurred in 46.15% of high-risk samples (15.38% and 30.76%), These results probably suggests participation of 6q14 region in histological differentiation of BCC
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Análise do status somático dos genes MEN1, AIP e p27Kip1 em tumores de pacientes com neoplasia endócrina múltipla tipo 1 / Analysis of the status of somatic and p27Kip1 genes in tumors from patients with multiple endocrine neoplasia type 1Moraes, Michelle Buscarilli de 06 June 2012 (has links)
Aproximadamente 80% dos casos com Neoplasia endócrina múltipla tipo 1 (NEM1) possuem mutações germinativas no gene supressor de tumor MEN1, que os predispõem a tumores nas glândulas paratireóides, pâncreas endócrino e hipófise, além de outros tumores não endócrinos. A tumorigênese dos mais de 20 diferentes tipos de neoplasias já descritas na NEM1 ocorre pela presença da mutação germinativa MEN1 associadas a um segundo evento mutacional nas células desses tecidos, levando à perda de heterozigose (LOH) do locus do gene MEN1 (11q13) e à inativação da proteína supressora de tumor codificada por esse gene, a proteína MENIN. Recentemente, mutações germinativas em outros genes foram descritas em casos com NEM1 sem mutações no gene MEN1. Esses novos genes (CDKN1A, CDKN1B, CDNK2B e CDKN2C) codificam proteínas envolvidas no controle do ciclo celular (p21, p27, p15 e p18), chamadas proteínas inibidoras de quinases dependentes de ciclinas. Outro gene, chamado AIP, que codifica uma proteína chaperona de mesmo nome, também foi recentemente descrito associado à NEM1. Esses trabalhos descreveram o papel desses novos genes na NEM1, em nível germinativo, entretanto não esclareceu se esses novos genes estão inativados nos tumores de pacientes com NEM1 com mutação MEN1. O presente estudo investigou, pela primeira vez, o status somático do gene p27Kip1 em pacientes com mutação MEN1 e identificou quatro possíveis perda de heterozigose (LOH) em tumores de paratireóides e pâncreas, sugerindo que além de 11q13LOH, os tumores NEM1 podem sofrer raras perdas adicionais do gene supressor tumoral p27Kip1. Essas são as primeiras evidências na literatura de um processo de tumorigênese multi-step na NEM1, envolvendo três eventos genéticos: 1- Mutação germinativa MEN1; 2- 11q13-LOH; 3- Perda somática do gene supressor de tumor p27Kip1/CDKN1B / Approximately 80% of cases with multiple endocrine neoplasia type 1 (MEN1) harbor a germline mutation in the tumor suppressor gene MEN1, which predisposes these patients to tumors comprehending the parathyroid and pituitary glands, endocrine pancreas and others non-endocrine tumors. The tumorigenesis of the more than 20 different types of tumors already described in the MEN1 syndrome occurs due to a MEN1 germline mutation associated with a second mutational event in the cells of these tissues, leading to loss of heterozygosity (LOH) of the MEN1 gene locus (11q13) and therefore inactivation of tumor suppressor protein encoded by this gene, MENIN protein. Recently, germline mutations in other genes have been described in cases with MEN1 without any detectable mutations in the MEN1 gene. These novel genes (CDKN1A, CDKN1B, CDNK2B and CDKN2C) encode proteins involved in the control of the cell cycle (p21, p27, p15 and p18), called cyclin dependent kinases inhibitors. Another gene, called AIP, which encodes a chaperon protein with the same name, was recently described associated with MEN1 phenotypes. These data described a role for these novel genes in the germline level, however whether they are inactivated in tumors of patients with MEN1 mutation is so far not clarified. The present study investigated for the first time, the somatic status of p27KIP1 gene mutation in patients with MEN1 and identified four possible loss of heterozygosity (LOH) in tumors of the parathyroid and pancreas, suggesting that in addition 11q13-LOH, MEN1 tumors may suffer rare loss additional tumor suppressor gene p27KIP1. These are the first evidence in the literature of a process of tumorigenesis in MEN1 multi-step, involving three genetic events: 1-MEN1germlinemutation; 2-11q13LOH; 3-Loss of somatic tumor suppressor gene p27Kip1/CDKN1B
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