Global ETD Search

1	Etude de l'impact des procédés d'assistance médicale à la procréation sur la régulation des gènes soumis à l'empreinte et des séquences répétées dans le placenta et le sang de cordon chez l'homme / Impact of assisted reproductive technologies on the regulation of imprinted genes and transposable elements in Human blood cord and placenta Choux, Cécile 14 December 2018 (has links) Le nombre d’enfants nés par Assistance Médicale à la Procréation (AMP) dans le monde est estimé à plus de 5 millions, représentant jusqu’à 4% des naissances. Environ 10% des couples en âge de procréer sont actuellement infertiles, et leur apporter des techniques pour devenir parents est devenu un problème de santé publique. Cependant, l’innocuité de ces techniques n’a pas été totalement démontrée. Notamment, le risque de pathologies d’origine placentaire pourrait être augmenté. De plus, des issues périnatales défavorables, un risque majoré de malformations majeures et de pathologies liées à l’empreinte ont été rapportés chez ces enfants. Ceci soulève la question d’une éventuelle vulnérabilité épigénétique induite par l’AMP. L’objectif de ce travail de thèse était d’étudier la régulation épigénétique des gènes soumis à empreinte (GSE) et des éléments transposables (TE) dans le placenta et le sang de cordon d’enfants conçus par AMP comparés à des enfants conçus naturellement. En guise d’introduction, nous avons rédigé une revue détaillée des modifications phénotypiques et épigénétiques induites par l’AMP dans les embryons, le placenta et le sang de cordon chez l’Homme et sur les modèles animaux.Au cours de cette thèse, une cohorte de presque 250 patientes a été incluse prospectivement, répartie en 4 groupes de patientes selon la technique d’AMP et 4 groupes de témoins selon la durée d’infertilité.A partir de cette cohorte, la première question posée a été l’effet de la Fécondation in vitro (FIV) sur la méthylation de l’ADN et/ou la transcription des GSE et TE dans le sang de cordon et le placenta à la naissance. Pour cela, nous avons sélectionné 51 patientes enceintes après FIV avec ou sans ICSI avec transfert d’embryon frais à J2 et les avons comparées à 48 témoins enceintes dans l’année après l’arrêt de la contraception. Nous avons étudié la méthylation de l’ADN et l’expression de 3 GSE et 4 TE. Les niveaux de méthylation de l’ADN placentaire pour H19/IGF2, KCNQ1OT1, LINE-1 et ERVFRD-1 et le niveau d’expression placentaire d’ERVFRD-1 étaient plus bas dans le groupe FIV/ICSI que dans le groupe contrôle. Ces modifications épigénétiques pourraient faire partie des mécanismes de compensation développés pendant la grossesse après AMP, comme discuté dans notre revue.Ensuite, nous avons voulu déterminer si ces changements de méthylation de l’ADN des GSE pouvaient être associés à des modifications des histones. A partir de la cohorte précédente, nous avons sélectionné 16 patientes du groupe FIV/ICSI avec des niveaux de méthylation dans le placenta inférieurs au 5ème percentile pour au moins un des GSE étudiés. Elles ont été appariées à 16 témoins sur la parité, le sexe du nouveau-né et l’âge gestationnel à l’accouchement. Des marques permissives (H3K4me2 et me3 et H3K9ac) et répressives (H3K9me2 et me3) ont été étudiées. Les résultats ont révélé une quantité significativement augmentée de H3K4me2 dans le groupe FIV/ICSI pour H19/IGF2 et KCNQ1OT1. La quantité des deux marques répressives pour H19/IGF2 et SNURF était significativement abaissée dans le groupe FIV/ICSI.Ces données montrent que l’hypométhylation de l’ADN au niveau des GSE pourrait être associée à une augmentation des marques permissives et une diminution des marques répressives des histones, ce qui permettrait de favoriser un état « actif » de la chromatine au niveau de l’allèle normalement réprimé.Nos résultats, ainsi que les données de la littérature, renforcent l’hypothèse de potentiels mécanismes mis en place dans le placenta après AMP, utiles pour compenser des anomalies précoces de la placentation, qui seraient écrits à travers des modifications épigénétiques comme la méthylation de l’ADN mais aussi les modifications des histones.Bien que certaines questions restent en suspens, cette thèse a permis de bâtir les fondations de travaux futurs, notamment pour étudier l’impact de la congélation/décongélation des embryons et le rôle joué par l’infertilité en elle-même. / It is estimated that more than five million children have been born by Assisted Reproductive Technologies (ART) worldwide, representing up to 4% of all births. As around 10% of reproductive-aged couples are currently infertile, providing them with treatment options is a public health issue. However, the safety of these techniques has not been fully demonstrated. Notably, the rate of placenta-related adverse pregnancy outcomes could be increased after ART. Moreover, adverse perinatal outcomes, a higher risk of major malformations and imprinting disorders have also been reported in children born following ART. These issues combined raise the question of a potential ART-induced epigenetic vulnerability.The aim of this thesis was to investigate the epigenetic regulation of imprinted genes (IGs) and transposable elements (TEs) in the placenta and cord blood of children conceived by ART and to compare them to children conceived naturally.By way of introduction, we wrote a comprehensive review about phenotypic and epigenetic modifications induced by ART in embryos, placenta and cord blood either in human or animal models.Then, an extensive cohort of almost 250 patients was prospectively included, resulting in 4 groups of ART techniques and 4 groups of controls stratified on the time to pregnancy.From this cohort, the first question we investigated was the effect of in vitro fertilization (IVF) on DNA methylation and/or transcription of TEs and IGs in cord blood and placenta collected at birth. For this purpose, we selected 51 pregnant women after IVF with fresh embryo transfer at day -2 and compared them with 48 controls pregnant within 1 year of stopping contraception. We studied the DNA methylation and expression of 3 imprinted DMRs and 4 TEs. DNA methylation levels for H19/IGF2 and KCNQ1OT1 DMRs, LINE-1 and ERVFRD-1 in the placenta were lower in the IVF/ICSI group than in the control group. The expression level of ERVFRD-1 in the placenta was also lower in the IVF/ICSI group than in the control group. These modifications in epigenetic regulation may influence some compensation mechanisms developed throughout pregnancy after ART, as discussed in our review.We then intended to determine if these DNA methylation changes in IGs were associated with histone modifications. From the previously mentioned cohort, we selected the 16 patients from the IVF/ICSI group who presented with below the 5th percentile of percentage placenta DNA methylation for at least one of the previously studied DMRs. These patients were compared with 16 controls matched for parity, new-born sex, and gestational age at delivery. Permissive (H3K4me2 and me3 and H3K9ac) and repressive (H3K9me2 and me3) histone marks were studied. The results revealed a significantly higher quantity of H3K4me2 in the IVF/ICSI group than in the natural conception group for H19/IGF2 and KCNQ1OT1 DMRs. The quantity of both repressive marks at H19/IGF2 and SNURF DMRs was significantly lower in the IVF/ICSI group than in the natural conception group.These data demonstrate that DNA hypomethylation at imprinted DMRs may be associated with an increase in permissive histone marks and a decrease in repressive histone marks. This is consistent with a more “active” chromatin conformation on the normally repressed allele.Our findings, together with the literature data, reinforce the hypothesis that some mechanisms are established in the placenta after ART, probably to mediate placental plasticity and compensate primary disorders in trophoblastic invasion, and written through epigenetic changes such as DNA methylation but also histone modifications.Although some questions remain unanswered, this thesis paves the way for further original studies, notably to assess the impact of frozen-thawed embryo transfer and to decipher the role of infertility per se. Placenta Sang de cordon Gènes soumis à empreinte Séquences répétées Placenta Cord blood Imprinted genes Repeated sequences 571.6
2	Impactos das biotécnicas reprodutivas no controle epigenético de genes imprinted / Impact of reproductive biotechniques on the epigenetic regulation of imprinted genes Martucci, Mariane Ferracin 14 August 2015 (has links) Técnicas de reprodução assistida (TRAs) são utilizadas tanto na medicina humana quanto na medicina veterinária com o objetivo principal de corrigir infertilidades adquiridas ou herdadas. A transferência nuclear de célula somática (TNCS) ocupa um lugar de destaque na veterinária pela possibilidade de geração de indivíduos geneticamente idênticos, permitindo a produção de rebanhos homogêneos de alto mérito genético e servindo como modelo de estudo para técnicas de reprogramação. Porém, a utilização de TRAs, e em especial da TNCS, é considerada responsável pelo aumento na geração de conceptos portadores de alterações durante e após o desenvolvimento embrionário e fetal. A provável causa principal é a alteração na regulação da reprogramação epigenética devido à manipulação de gametas e embriões no período inicial do desenvolvimento, levando a alterações na regulação epigenética de genes imprinted. O presente estudo teve como objetivo principal avaliar marcas epigenéticas e expressão de genes imprinted no desenvolvimento de conceptos bovinos produzidos por TNCS ou inseminação artificial (IA). Para tal, foram coletadas amostras de tecido muscular e membranas corioalantoideana e amniótica de animais na fase pré natal (fetal) e tecidos muscular, nervoso e hepático na fase pós natal (animais nascidos saudáveis adultos ou não) de animais derivados de IA ou TNCS. Foi analisada a expressão dos genes imprinted H19, IGF2, IGF2R e Airn quando possível, assim como a metilação do DNA no locus H19/IGF2 na fase pós natal. Foi observado que na fase pré natal não foi detectada expressão do IGF2, enquanto que a expressão de H19 é aumentada em relação ao IGF2R, porém, sem diferenças entre os grupos nos tecidos estudados. Na fase pós natal, o padrão de expressão dos genes IGF2, H19 e IGF2R indica diminuição da expressão gênica relativa no fígado de animais TNCS e no aumento da expressão gênica do H19 na musculatura de animais adultos (saudáveis) bovinos produzidos por TNCS, apesar de o padrão de metilação dos genes imprinted IGF2/H19 não ser diferente entre organismos considerados saudáveis e não saudáveis. Os resultados deste projeto contribuem para o entendimento dos mecanismos epigenéticos relacionados ao desenvolvimento embrionário e fetal, em especial aqueles relacionados à dinâmica das alterações epigenéticas envolvidas no imprinting genômico / Assisted reproductive technologies (ARTs) are usually used in both human and veterinary medicine aiming the correction of heritable or acquired infertilities. The somatic cell nuclear transfer technique (SCNT) is of particular importance in veterinary as it enables the generation of genetically identical organisms, allowing the production of homogeneous genetically improved herds, and also serving as a model for reprogramming studies. However, the use of TRAs, SCNT in special, may be responsible for the increase of developmental-related abnormalities in the conceptuses. Such phenotypes are probably caused by a disruption during the epigenetic reprogramming due to the manipulation of gametes and embryos during the early development period, and therefore leading to disturbances in the epigenetic regulation of imprinted genes. The present study aimed to evaluate epigenetic marks and expression of imprinted genes in different developmental periods of cattle generated by SCNT or artificial insemination (AI). For that, corionic/alantoic and amniotic membranes from fetuses and muscular, nervous and hepatic tissues from born animals, healthy (adult) or not, produced by SCNT or AI were collected. The expression of the imprinted genes H19, IGF2, IGF2R and Airn was analyzed as well as the DNA methylation at locus H19/IGF2 in post-natal period. It was observed that IGF2 was not detected during pre-natal period, whereas H19 expression is increased when compared to IGF2R in the groups studied herein. At post-natal period the IGF2, H19 and IGF2R expression patterns infers the decrease of relative gene expression in the liver and the increase of H19 expression in the muscle of SCNT adult animals. The methylation pattern of IGF2/H19 locus, however, did not differ between healthy or not animals. The results described herein may contribute to the understanding of the epigenetic mechanisms related to embryonic and fetal development, and in special, to those related to the epigenetic dynamics during genomic imprinting Bovine Bovino Desenvolvimento Development Epigenética Epigenetics Genes imprinted Imprinted genes Reprogramação Reprogramming
3	Impactos das biotécnicas reprodutivas no controle epigenético de genes imprinted / Impact of reproductive biotechniques on the epigenetic regulation of imprinted genes Mariane Ferracin Martucci 14 August 2015 (has links) Técnicas de reprodução assistida (TRAs) são utilizadas tanto na medicina humana quanto na medicina veterinária com o objetivo principal de corrigir infertilidades adquiridas ou herdadas. A transferência nuclear de célula somática (TNCS) ocupa um lugar de destaque na veterinária pela possibilidade de geração de indivíduos geneticamente idênticos, permitindo a produção de rebanhos homogêneos de alto mérito genético e servindo como modelo de estudo para técnicas de reprogramação. Porém, a utilização de TRAs, e em especial da TNCS, é considerada responsável pelo aumento na geração de conceptos portadores de alterações durante e após o desenvolvimento embrionário e fetal. A provável causa principal é a alteração na regulação da reprogramação epigenética devido à manipulação de gametas e embriões no período inicial do desenvolvimento, levando a alterações na regulação epigenética de genes imprinted. O presente estudo teve como objetivo principal avaliar marcas epigenéticas e expressão de genes imprinted no desenvolvimento de conceptos bovinos produzidos por TNCS ou inseminação artificial (IA). Para tal, foram coletadas amostras de tecido muscular e membranas corioalantoideana e amniótica de animais na fase pré natal (fetal) e tecidos muscular, nervoso e hepático na fase pós natal (animais nascidos saudáveis adultos ou não) de animais derivados de IA ou TNCS. Foi analisada a expressão dos genes imprinted H19, IGF2, IGF2R e Airn quando possível, assim como a metilação do DNA no locus H19/IGF2 na fase pós natal. Foi observado que na fase pré natal não foi detectada expressão do IGF2, enquanto que a expressão de H19 é aumentada em relação ao IGF2R, porém, sem diferenças entre os grupos nos tecidos estudados. Na fase pós natal, o padrão de expressão dos genes IGF2, H19 e IGF2R indica diminuição da expressão gênica relativa no fígado de animais TNCS e no aumento da expressão gênica do H19 na musculatura de animais adultos (saudáveis) bovinos produzidos por TNCS, apesar de o padrão de metilação dos genes imprinted IGF2/H19 não ser diferente entre organismos considerados saudáveis e não saudáveis. Os resultados deste projeto contribuem para o entendimento dos mecanismos epigenéticos relacionados ao desenvolvimento embrionário e fetal, em especial aqueles relacionados à dinâmica das alterações epigenéticas envolvidas no imprinting genômico / Assisted reproductive technologies (ARTs) are usually used in both human and veterinary medicine aiming the correction of heritable or acquired infertilities. The somatic cell nuclear transfer technique (SCNT) is of particular importance in veterinary as it enables the generation of genetically identical organisms, allowing the production of homogeneous genetically improved herds, and also serving as a model for reprogramming studies. However, the use of TRAs, SCNT in special, may be responsible for the increase of developmental-related abnormalities in the conceptuses. Such phenotypes are probably caused by a disruption during the epigenetic reprogramming due to the manipulation of gametes and embryos during the early development period, and therefore leading to disturbances in the epigenetic regulation of imprinted genes. The present study aimed to evaluate epigenetic marks and expression of imprinted genes in different developmental periods of cattle generated by SCNT or artificial insemination (AI). For that, corionic/alantoic and amniotic membranes from fetuses and muscular, nervous and hepatic tissues from born animals, healthy (adult) or not, produced by SCNT or AI were collected. The expression of the imprinted genes H19, IGF2, IGF2R and Airn was analyzed as well as the DNA methylation at locus H19/IGF2 in post-natal period. It was observed that IGF2 was not detected during pre-natal period, whereas H19 expression is increased when compared to IGF2R in the groups studied herein. At post-natal period the IGF2, H19 and IGF2R expression patterns infers the decrease of relative gene expression in the liver and the increase of H19 expression in the muscle of SCNT adult animals. The methylation pattern of IGF2/H19 locus, however, did not differ between healthy or not animals. The results described herein may contribute to the understanding of the epigenetic mechanisms related to embryonic and fetal development, and in special, to those related to the epigenetic dynamics during genomic imprinting Bovino Desenvolvimento Epigenética Genes imprinted Reprogramação Bovine Development Epigenetics Imprinted genes Reprogramming
4	Identificação in-silico de genes humanos submetidos à expressão alélica diferencial / In-silico identification of human genes submitted to allelic differential expression Souza, Jorge Estefano Santana de 02 December 2008 (has links) Estudos recentes demonstraram que a variação de expressão alelo-específica é mais comum do que se imaginou, podendo chegar, em humanos, a 50% dos genes. Identificar os genes submetidos ao controle de expressão alelo-específica é muito importante para o entendimento de várias doenças, incluindo o câncer. A identificação dos alvos desse tipo de regulação diferencial é difícil, principalmente devido à dificuldade de se avaliar a expressão de cada alelo individualmente. Neste trabalho, abordamos este problema com uma estratégia de análise in-silico, fundamentada na integração de dados públicos do genoma humano, dados de expressão (como cDNAs, SAGE e MPSS) e dados sobre polimorfismos (SNPs). Desenvolvemos um banco de dados de polimorfismos de base única (Single-Nucleotide Polymorphism - SNPs) associados a etiquetas alternativas de SAGE (Serial Analysis of Gene Expression) e MPSS (massively parallel signature sequencing). SAGE e MPSS são técnicas desenvolvidas para análise da expressão de genes em larga escala. Ambas as técnicas têm como princípio a produção de pequenas seqüências marcadoras (etiquetas), adjacentes aos sítios de enzimas de restrição que estiverem mais próximo da cauda poli-A do RNA mensageiro. Tais etiquetas são seqüenciadas em grande escala e a quantidade de etiquetas é usada para medir a abundância relativa dos RNAs mensageiros correspondentes. A presença de SNPs nos sítios de restrição ou nas seqüências das etiquetas pode gerar etiquetas distintas para alelos do mesmo gene, que denominamos etiquetas alternativas. Neste trabalho, empregamos o banco de dados de etiquetas alternativas associadas a SNPs para identificar genes com expressão alélica diferencial. Usando esta estratégia, identificamos 812 genes com expressão monoalélica, Estudos anteriores comprovaram que, dentre os 812 genes identificados, cinco estão sujeitos ao fenômeno de imprinting genômico. Durante o decorrer deste estudo, trabalhos realizados por outros grupos apontaram outros 73 genes do nosso repertório como genes que apresentam variação no nível de expressão dos alelos em heterozigotos. Com objetivo de confirmar a expressão alélica diferencial dos nossos candidatos, selecionamos 29 genes para validação experimental. Para 12 destes genes não achamos indivíduos heterozigotos, impossibilitando a análise da expressão dos alelos. Dentre os outros 17 genes, três apresentaram expressão bialélica e 14 apresentaram expressão alélica diferencial nos indivíduos heterozigotos, sendo que 3 deles apresentaram expressão monoalélica. Estes resultados sugerem que nossa estratégia pode contribuir significativamente na identificação de genes com expressão alélica diferencial. / Recent studies have shown that variation of allelic-specific gene expression is more common than previously thought, reaching up to 50% of human genes. To identify genes displaying differential expression among alleles it is important for the understanding of several diseases, including the cancer. Identification of genes submitted to allelic-specific differential expression is hard, mostly due to the difficulty in evaluating the expression levels of each allele independently. In this work, we developed an in-silico approach, based on the integration of public data about the human genome, gene expression data (such as cDNAs, SNPs, SAGE and MPSS) and data on polymorphisms (SNPs). We developed a database of Single Nucleotide Polymorphisms (SNPs) associated to alternative SAGE (Serial Analysis of Gene Expression) and MPSS (Massively Parallel Signature Sequencing) tags. SAGE and MPSS are genome-wide techniques developed for analysis of gene expression. Both techniques rely on the production of short marker sequences (known as tags), adjacent to restriction sites closer to the poly-A tail of messenger RNAs. Such tags are sequenced in a large scale and tag counts are used to measure the relative abundance of their corresponding transcripts. The presence of SNPs in the restriction sites or in the tag sequences might generate allelic-specific tags for the same gene, which we call alternative tags. In this work, we used the database of SNPs and associated alternative tags to identify genes submitted to allelic-specific differential gene expression. Using this approach, we identified 812 genes showing allelic-specific differential gene expression. Previous studies have shown that, among the 812 candidates, five genes are targets for genomic imprinting. While this study was being performed, work done by other groups suggested other 73 genes in our candidates list to have different expression levels for alleles in heterozygous. Aiming to verify whether variations in the expression levels of alleles existed among our candidate genes, we submitted 29 genes for experimental validation. For 12 genes, we couldnt find heterozygous individuals, thus rendering it impossible to ascertain whether the supposed expression variation was true. Among the other 17 genes analyzed, three genes presented bi-allelic expression and 14 genes have shown clear differential expression among alleles, three of the last ones displaying strict mono-allelic expression. These results suggest that our approach may contribute significantly to the identification of genes with allelic-specific differential expression. allelic-specific differential expression bioinformática bioinformatics expressão alélica diferencial genes imprinted imprinted genes MPSS MPSS SAGE SAGE SNP SNP.
5	Epigenética do desenvolvimento em bovinos: DNA metiltransferases e genes imprinted em embriões, fetos e placentas Perecin, Felipe [UNESP] 26 February 2007 (has links) (PDF) Made available in DSpace on 2014-06-11T19:35:11Z (GMT). No. of bitstreams: 0 Previous issue date: 2007-02-26Bitstream added on 2014-06-13T18:46:32Z : No. of bitstreams: 1 perecin_f_dr_jabo.pdf: 591625 bytes, checksum: f3212bddc59577b0aa73b9d7ef9f1d91 (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / A clonagem por transferência de núcleo é freqüentemente associada a resultados insatisfatórios devido à reprogramação nuclear anormal da célula somática doadora de núcleo e à expressão gênica alterada. O primeiro objetivo deste trabalho foi estudar a freqüência dos RNAs mensageiros das DNA metiltransferases (DNMT) 1, 3A e 3B, e do gene de expressão constitutiva gliceraldeído 3-fosfato desidrogenase (GAPDH) em blastocistos bovinos isolados produzidos in vivo e in vitro por transferência nuclear (TN) de célula somática, ativação partenogenética e fertilização in vitro (FIV). O segundo objetivo foi avaliar a expressão das DNMTs e dos genes imprinted IGF2, IGF2R e H19 em membranas cório-alantóide e fetos bovinos produzidos in vivo e in vitro por TN, ativação partenogenética e FIV e recuperados entre os dias 33 e 36 de gestação. Houve decréscimo (P<0,05) na freqüência do GAPDH nos blastocistos TN e partenogenéticos quando comparados aos embriões fertilizados, e também diferença entre blastocistos TN produzidos com diferentes protocolos de sincronização celular (células em G0 ou G1 do ciclo celular). Com relação às DNMTs, não foram identificados transcritos da DNMT1 nos blastocistos do grupo TN-G0; ocorreu diminuição na freqüência dos transcritos da DNMT3B nos embriões TN quando comparados aos partenotos. Não se observou diferença na freqüência relativa das DNA metiltransferases em membranas cório-alantóide e fetos. Com relação aos genes imprinted, o grupo partenogenético apresentou menor nível de expressão de IGF2 em relação aos os demais grupos; baixos níveis de expressão de IGF2 e IGF2R foram observados, respectivamente, em amostras de feto e de cório-alantóide derivadas de animais clonados por TN, quando comparadas aos grupos fertilizados in vivo e in vitro. / Cloning by nuclear transfer is often associated with poor results due to abnormal nuclear reprogramming of somatic cell donor and altered gene expression. The first objective of this study was to evaluate the frequency of DNA methyltranferases (DNMT) 1, 3A and 3B, and the housekeeping glyceraldehyde 3- phosphate dehydrogenase (GAPDH) mRNAs in single bovine blastocysts produced in vivo or in vitro by somatic cell nuclear transfer (SCNT), parthenogenetic activation and in vitro fertilization (IVF). The second objective was to evaluate the expression of DNMTs and imprinted genes IGF2, IGF2R and H19 in chorio-alantois membrane of bovine fetuses produced in vivo or in vitro by SCNT, parthenogenetic activation and IVF, and recovered between days 33 and 36 of gestation. There was strong GAPDH downregulation (P<0.05) in parthenogenetic and cloned by SCNT blastocysts when compared to fertilized ones, and also differences between cloned blastocysts produced with different cell synchronization (G0 or G1) protocol. Regarding DNMTs expression, we did not identify DNMT1 transcrips in SCNT-G0 derived blastocysts, and observed DNMT3B downregulation in SCNT-derived embryos when compared to parthenotes. No differences in DNA methyltransferase relative frequency were seen in chorio-alantois membrane and fetuses. Regarding imprinted genes expression, downregulation of IGF2 in the parthenogenetic group was observed in comparision to all other groups, and also, downregulation of IGF2 and IGF2R in the cloned-derived fetuses and chorio-alantois samples, respectively, were observed comparing to in vivo and in vitro fertilized groups. Bovino - Embrião Clonagem Expressão gênica DNA metiltransferase Transferência nuclear Imprinted genes Cattle DNA methyltransferase Embryo Gene expression Nuclear transfer
6	Identificação in-silico de genes humanos submetidos à expressão alélica diferencial / In-silico identification of human genes submitted to allelic differential expression Jorge Estefano Santana de Souza 02 December 2008 (has links) Estudos recentes demonstraram que a variação de expressão alelo-específica é mais comum do que se imaginou, podendo chegar, em humanos, a 50% dos genes. Identificar os genes submetidos ao controle de expressão alelo-específica é muito importante para o entendimento de várias doenças, incluindo o câncer. A identificação dos alvos desse tipo de regulação diferencial é difícil, principalmente devido à dificuldade de se avaliar a expressão de cada alelo individualmente. Neste trabalho, abordamos este problema com uma estratégia de análise in-silico, fundamentada na integração de dados públicos do genoma humano, dados de expressão (como cDNAs, SAGE e MPSS) e dados sobre polimorfismos (SNPs). Desenvolvemos um banco de dados de polimorfismos de base única (Single-Nucleotide Polymorphism - SNPs) associados a etiquetas alternativas de SAGE (Serial Analysis of Gene Expression) e MPSS (massively parallel signature sequencing). SAGE e MPSS são técnicas desenvolvidas para análise da expressão de genes em larga escala. Ambas as técnicas têm como princípio a produção de pequenas seqüências marcadoras (etiquetas), adjacentes aos sítios de enzimas de restrição que estiverem mais próximo da cauda poli-A do RNA mensageiro. Tais etiquetas são seqüenciadas em grande escala e a quantidade de etiquetas é usada para medir a abundância relativa dos RNAs mensageiros correspondentes. A presença de SNPs nos sítios de restrição ou nas seqüências das etiquetas pode gerar etiquetas distintas para alelos do mesmo gene, que denominamos etiquetas alternativas. Neste trabalho, empregamos o banco de dados de etiquetas alternativas associadas a SNPs para identificar genes com expressão alélica diferencial. Usando esta estratégia, identificamos 812 genes com expressão monoalélica, Estudos anteriores comprovaram que, dentre os 812 genes identificados, cinco estão sujeitos ao fenômeno de imprinting genômico. Durante o decorrer deste estudo, trabalhos realizados por outros grupos apontaram outros 73 genes do nosso repertório como genes que apresentam variação no nível de expressão dos alelos em heterozigotos. Com objetivo de confirmar a expressão alélica diferencial dos nossos candidatos, selecionamos 29 genes para validação experimental. Para 12 destes genes não achamos indivíduos heterozigotos, impossibilitando a análise da expressão dos alelos. Dentre os outros 17 genes, três apresentaram expressão bialélica e 14 apresentaram expressão alélica diferencial nos indivíduos heterozigotos, sendo que 3 deles apresentaram expressão monoalélica. Estes resultados sugerem que nossa estratégia pode contribuir significativamente na identificação de genes com expressão alélica diferencial. / Recent studies have shown that variation of allelic-specific gene expression is more common than previously thought, reaching up to 50% of human genes. To identify genes displaying differential expression among alleles it is important for the understanding of several diseases, including the cancer. Identification of genes submitted to allelic-specific differential expression is hard, mostly due to the difficulty in evaluating the expression levels of each allele independently. In this work, we developed an in-silico approach, based on the integration of public data about the human genome, gene expression data (such as cDNAs, SNPs, SAGE and MPSS) and data on polymorphisms (SNPs). We developed a database of Single Nucleotide Polymorphisms (SNPs) associated to alternative SAGE (Serial Analysis of Gene Expression) and MPSS (Massively Parallel Signature Sequencing) tags. SAGE and MPSS are genome-wide techniques developed for analysis of gene expression. Both techniques rely on the production of short marker sequences (known as tags), adjacent to restriction sites closer to the poly-A tail of messenger RNAs. Such tags are sequenced in a large scale and tag counts are used to measure the relative abundance of their corresponding transcripts. The presence of SNPs in the restriction sites or in the tag sequences might generate allelic-specific tags for the same gene, which we call alternative tags. In this work, we used the database of SNPs and associated alternative tags to identify genes submitted to allelic-specific differential gene expression. Using this approach, we identified 812 genes showing allelic-specific differential gene expression. Previous studies have shown that, among the 812 candidates, five genes are targets for genomic imprinting. While this study was being performed, work done by other groups suggested other 73 genes in our candidates list to have different expression levels for alleles in heterozygous. Aiming to verify whether variations in the expression levels of alleles existed among our candidate genes, we submitted 29 genes for experimental validation. For 12 genes, we couldnt find heterozygous individuals, thus rendering it impossible to ascertain whether the supposed expression variation was true. Among the other 17 genes analyzed, three genes presented bi-allelic expression and 14 genes have shown clear differential expression among alleles, three of the last ones displaying strict mono-allelic expression. These results suggest that our approach may contribute significantly to the identification of genes with allelic-specific differential expression. bioinformática expressão alélica diferencial genes imprinted MPSS SAGE SNP. allelic-specific differential expression bioinformatics imprinted genes MPSS SAGE SNP
7	Study of imprinted genes in bovine embryos produced by assisted reproductive technologies Suzuki Junior, João January 2008 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal. ADN DNA Méthylation Methylation Empreinte génétique Imprinted genes Contrôle épigénétique Epigenic control Embryon Embryo Bovin Cattle H19 H19 SNRPN SNRPN IGF2R IGF2R
8	Molecular Characterization Of The SLC22A18AS Gene From The Imprinted Human Chromosome Segment 11p15.5 Bajaj, Vineeta 10 1900 (has links) The imprinting status of the SLC22A18AS gene, located in the human chromosome segment 11p15.5, was studied using PCR-SSCP analysis and fetal tissues from a battery of 17 abortuses. This gene showed monoallelic expression (genomic imprinting) in different tissues from two abortuses which were heterozygous for an SNP (c.473G>A) in its coding region. This gene was found to be paternally imprinted (maternally expressed) in five tissues namely lung, liver, brain, kidney and placenta from an abortus. The parental origin of the expressed allele could not be determined in the second abortus as both the mother and the abortus were heterozygous for the SNP. Since paternal blood samples from none of the 17 abortuses could be collected for DNA isolation, the mother's genotype was used to find the origin of the expressed allele. In order to understand the mechanism underlying imprinting of this gene, it was important to understand the nature of the epigenetic marks (imprints) on the two alleles of this gene. Since these epigenetic marks are generally observed in promoters or CpG islands associated with the imprinted genes, the promoters of the SLC22A18AS gene was characterized using transient transfection of putative SLC22A18AS promoter fragments cloned in the pGL3-Basic vector in human cells followed by luciferase reporter assay. Since the promoter of a gene lies upstream to the transcription start site (TSS), TSS of this gene was mapped. In silico approach revealed an EST (CB129046) which had an additional 39 bases upstream to the known mRNA sequence. TSS was then identified by the 5’ primer extension analysis. TSS was found to be 166 bases upstream to the 5’ end of this EST. In order to select cell lines for transient transfection of putative promoter constructs for promoter charaterization, RT-PCR analysis was used to see the expression of this gene in the following available cell lines in the lab: HuH7, HepG2, A549, HeLa, LNCaP and PC3. This gene was found to be maximally expressed in HepG2 cells. Expression of this gene was also observed in A549, HeLa, LNCaP and PC3 cells. HuH7, on the other hand, did not show any detectable expression of this gene. Based on the above data, HepG2 and A549 cells were selected for promoter characterization. Seven putative promoter constructs were transiently transfected in these cells and the promoter activity of different constructs was measured by luciferase assay. The assay identified two promoters for the gene: P1 promoter in a region from -855 to -254 bp and P2 promoter in a region from -1441 to -855. In order to see the presence of putative transcription factor binding sites in the upstream region of the gene, the MatInspector Professional program was used. The gene was found to be devoid of TATA and CCAAT boxes. Most of the putative transcription factor binding sites were present in a region from -855 to -254 bp which spans the P1 promoter, including a binding site for the Sp1 transcription factor. In order to see if Sp1 binds to the promoter of this gene, ChIP assay was performed. Sp1 was shown to bind the region harboring the P1 promoter. In order to see if Sp1 has a role in the regulation of this gene, Sp1 constructs were co-transfected with the SLC22A18AS P1 promoter construct in HepG2 and Sp1-null Drosophila SL2 cells. The results showed that the Sp1 has a positive regulation on the SLC22A18AS promoter activity. As stated earlier, epigenetic marks such as differential methylation of CpG dinucleotides in two alleles are associated with promoters of the genes. Since the promoters for SLC22A18AS were characterized, the presence of allele-specific differentially methylated regions (DMRs) associated with the promoters was investigated. In order to differentiate the two alleles in the promoter regions by SNPs, DNA sequence analysis of the promoter regions was performed in a battery of 17 abortuses to search for SNPs. Abortus no. 3 showed heterozygosity for a C to A change at nucleotide position -445 in the P1 promoter region, while abortus no. 2 showed heterozygosities for G to A and A to G changes at nucleotide positions -919 and -1321 respectively in the P2 promoter region. The alleles in the abortus no. 3 were designated as allele C and allele A. The alleles in abortus no. 2 were designated as allele GG and allele AA. Once the two alleles were differentiated by these SNPs, identification of DMRs was performed using sodium bisulfite genomic DNA sequencing. Genomic DNA from the abortus no. 3 was taken for the identification of DMR in the P1 promoter region, while genomic DNA from abortus no. 2 was taken for the identification of DMR in the P2 promoter region. Sodium bisulfite genomic DNA sequencing of the P1 promoter region showed heavy methylation of both the alleles. No DMR was observed in this region. Sodium bisulfite genomic DNA sequencing of the P2 promoter region using DNA from abortus no. 2 did not show any differential methylation of the two alleles. However, like the P1 promoter region, the P2 promoter region was also heavily methylated. In order to see the methylation status of both the promoter regions in human sperms, sperm DNA from an unrelated healthy volunteer was also subjected to sodium bisulfite genomic sequencing. A dense methylation was observed in both the promoter regions of the gene. Heavy methylation of CpG dinucleotides in these regions corroborates the imprinting result for this gene. Since the methylation epigenetic mark is also known to be associated with CpG islands, CpG Plot/CpG Report analysis was used to identify CpG islands in this gene. The analysis showed the presence of two CpG islands, CpG I and CpG II, in the second intron of the gene. As the CpG I island is known to lack methylated CpGs (Ali et al., unpublished result from our lab), a DMR was sought for the CpG II island region. Heterozygosity was ascertained in this region by sequencing DNA from 17 abortuses. However, none of the abortuses showed heterozygosity. It was reasoned that if there is a differential methylation of the two alleles in this region, half of the clones (alleles) should be unmethylated, and the other half should show methylation. Therefore, DNA from abortus no. 3 was randomly chosen for sodium bisulfite genomic sequence anaylsis to identify DMR. The CpG II island showed heavy methylation. However, a DMR was not identified. In order to see the methylation status of the CpG II island in human sperms, sperm DNA from an unrelated healthy volunteer was also subjected to sodium bisulfite genomic sequencing. Almost all the CpG sites showed methylation. The observation of a dense methylation of both the promoters and CpG II island suggested that methylation has a role in the expression of this gene. In order to confirm this observation, A549 and HuH7 cells were treated with a methyltransferase inhibitor, 5-aza-2’-deoxycytidine. 5-Aza-2’-deoxycytidine treatment in HuH7 cells restored the expression of this gene. Further, the expression of this gene was increased in A549 cells following the drug treatment. These results suggested that DNA methylation has a definite role in the modulation of expression of the SLC22A18AS gene. Histone acetylation is another key epigenetic player which is known to have a role in the expression of genes. In order to study the role of the histone acetylation, HuH7 and A549 cells were treated with TSA, a histone deacetylase inhibitor. Treatment of HuH7 and A549 cells with TSA didn’t have any effect on the expression of this gene. On the other hand, the expression of TPA, a gene shown to be regulated by TSA earlier, increased following the TSA treatment in both cell lines. These results suggested that histone acetylation doesn’t have any effect on the expression of this gene. Based on this observation, it was reasoned that histone acetylation is not associated with the imprinting of this gene. Therefore, we did not look for the allele-specific acetylation of histones in this gene. The SLC22A18AS gene has a weak ORF of 253 amino acids as the translation intiation site does not contain a consensus Kozak sequence for efficient translation. In order to determine if it codes for a protein, Western blot analysis was performed using lysates from A549 cells and human fetal liver tissue, and a polyclonal antibody raised in a rabbit against a bacterially expressed SLC22A18AS protein fragment from amino acids 138 to 245. The Western blot result was negative. It was reasoned that this gene might be expressed at a low level and therefore its expression could not be detected by Western blot analysis. Immunoprecipitation was then performed to enrich the SLC22A18AS protein in the lysates followed by Western blot analysis. SLC22A18AS was shown to be expressed as a 30 kDa band in the immunoprecipiates from A549 cell and human fetal liver tissue lysates. The subcellular localization of this gene was studied by immunofluorescence. The fluorescence immunolocalization was performed on A549 cells with anti-SLC22A18AS antibody. The SLC22A18AS protein was found to be localized in the cytoplasm of A549 cells. Human Chromosome Genes Molecular Biology DNA Sequencing Genomic Imprinting Imprinted Genes SL22A18AS Gene DNA Methylation Gene Expression SLC22A1LS Gene 11p15.5 Molecular Biology
9	Study of imprinted genes in bovine embryos produced by assisted reproductive technologies Suzuki Junior, João January 2008 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal ADN DNA Méthylation Methylation Empreinte génétique Imprinted genes Contrôle épigénétique Epigenic control Embryon Embryo Bovin Cattle H19 H19 SNRPN SNRPN IGF2R IGF2R
10	Epigenética do desenvolvimento em bovinos : DNA metiltransferases e genes "imprinted" em embriões, fetos e placentas / Perecin, Felipe. January 2007 (has links) Orientador: Joaquim Mansano Garcia / Banca: César Roberto Esper / Banca: Paulo Henrique Franceschini / Banca: Flávio Vieira Meirelles / Banca: Maria Angélica Miglino / Resumo: A clonagem por transferência de núcleo é freqüentemente associada a resultados insatisfatórios devido à reprogramação nuclear anormal da célula somática doadora de núcleo e à expressão gênica alterada. O primeiro objetivo deste trabalho foi estudar a freqüência dos RNAs mensageiros das DNA metiltransferases (DNMT) 1, 3A e 3B, e do gene de expressão constitutiva gliceraldeído 3-fosfato desidrogenase (GAPDH) em blastocistos bovinos isolados produzidos in vivo e in vitro por transferência nuclear (TN) de célula somática, ativação partenogenética e fertilização in vitro (FIV). O segundo objetivo foi avaliar a expressão das DNMTs e dos genes "imprinted" IGF2, IGF2R e H19 em membranas cório-alantóide e fetos bovinos produzidos in vivo e in vitro por TN, ativação partenogenética e FIV e recuperados entre os dias 33 e 36 de gestação. Houve decréscimo (P<0,05) na freqüência do GAPDH nos blastocistos TN e partenogenéticos quando comparados aos embriões fertilizados, e também diferença entre blastocistos TN produzidos com diferentes protocolos de sincronização celular (células em G0 ou G1 do ciclo celular). Com relação às DNMTs, não foram identificados transcritos da DNMT1 nos blastocistos do grupo TN-G0; ocorreu diminuição na freqüência dos transcritos da DNMT3B nos embriões TN quando comparados aos partenotos. Não se observou diferença na freqüência relativa das DNA metiltransferases em membranas cório-alantóide e fetos. Com relação aos genes "imprinted", o grupo partenogenético apresentou menor nível de expressão de IGF2 em relação aos os demais grupos; baixos níveis de expressão de IGF2 e IGF2R foram observados, respectivamente, em amostras de feto e de cório-alantóide derivadas de animais clonados por TN, quando comparadas aos grupos fertilizados in vivo e in vitro. / Abstract: Cloning by nuclear transfer is often associated with poor results due to abnormal nuclear reprogramming of somatic cell donor and altered gene expression. The first objective of this study was to evaluate the frequency of DNA methyltranferases (DNMT) 1, 3A and 3B, and the housekeeping glyceraldehyde 3- phosphate dehydrogenase (GAPDH) mRNAs in single bovine blastocysts produced in vivo or in vitro by somatic cell nuclear transfer (SCNT), parthenogenetic activation and in vitro fertilization (IVF). The second objective was to evaluate the expression of DNMTs and imprinted genes IGF2, IGF2R and H19 in chorio-alantois membrane of bovine fetuses produced in vivo or in vitro by SCNT, parthenogenetic activation and IVF, and recovered between days 33 and 36 of gestation. There was strong GAPDH downregulation (P<0.05) in parthenogenetic and cloned by SCNT blastocysts when compared to fertilized ones, and also differences between cloned blastocysts produced with different cell synchronization (G0 or G1) protocol. Regarding DNMTs expression, we did not identify DNMT1 transcrips in SCNT-G0 derived blastocysts, and observed DNMT3B downregulation in SCNT-derived embryos when compared to parthenotes. No differences in DNA methyltransferase relative frequency were seen in chorio-alantois membrane and fetuses. Regarding imprinted genes expression, downregulation of IGF2 in the parthenogenetic group was observed in comparision to all other groups, and also, downregulation of IGF2 and IGF2R in the cloned-derived fetuses and chorio-alantois samples, respectively, were observed comparing to in vivo and in vitro fertilized groups. / Doutor Bovino - Embrião. Clonagem. Expressão gênica. Imprinted genes. eng Cattle. eng DNA methyltransferase. eng Embryo. eng Gene expression. eng Nuclear transfer. eng

Search results