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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
41

The Phenotypic Spectrum of 45,X/46,X,idic(Y) Mosaic Patients: A Chart Review

McIntyre, Shannon Danielle January 2021 (has links)
No description available.
42

Dissomia uniparental e mosaicismo somático como mecanismos de alterações epigenéticas do imprinting genômico / Uniparental disomy and somatic mosaicism: mechanisms for epigenetic deregulation of genomic imprinting

Machado, Filipe Brum 16 August 2012 (has links)
O imprinting genômico é um processo regulado epigeneticamente que faz com que os alelos sejam expressos de acordo com a sua origem parental. No cromossomo 11 (11p15.5), existem duas regiões controladoras de imprinting (ICR1 e ICR2), que controlam a expressão de genes marcados (imprinted). Os padrões de metilação dessas regiões podem ser alterados pela dissomia uniparental (DUP), que ocorre quando parte de ou um cromossomo inteiro do mesmo par de homólogos é herdado de somente um genitor. Erros mitóticos podem gerar mosaicismo com uma linhagem de células com DUP e a outra biparental. As síndromes de Silver-Russell (SSR) e Beckwith-Wiedemann (SBW) são doenças de alterações do imprinting genômico, envolvendo os cromossomos 7 (SSR) e 11 (SSR e SBW). A Hemihiperplasia Isolada (HHI) parece corresponder a uma forma mais leve da SBW.. No presente trabalho, foi realizada uma varredura in silico para busca de novos microssatélites nos cromossomos 7 e 11, e selecionados seis do tipo tetra ou pentanucleotídeos, no cromossomo 7, e 12, no cromossomo 11. O perfil de metilação nas ICRs foi verificado por três técnicas distintas: MS-MLPA, DESM-RT e por uma nova estratégia desenvolvida neste trabalho denominada DESM-QFPCR. Foram avaliados 32 pacientes com SBW, 16 HHI, 20 com SSR e seus pais, quando disponíveis, além de um paciente com fenótipo aparentemente normal com cariótipo 46,XX/46,XY e cuja placenta apresentou displasia mesenquimal placentária (DMP) a qual está associada à SBW. Os novos marcadores apresentaram alta taxa de heterozigose (média de 70%), e ausência das características indesejáveis dos dinucleotídeos predominantemente utilizados para detecção de DUP. Seis marcadores estão entre genes controlados pelas ICRs 1 e 2. A DUP paterna do cromossomo 11 (DUPpat Cr11), sempre restrita a 11p15.5, foi responsável por 13% dos casos de HHI e 19% dos de SBW. As alterações estruturais foram confirmadas por minissequenciamento quantitativo de SNPs e por MS-MLPA. Um paciente apresentou duplicação paterna abrangendo ambas as ICRs. Uma deleção não descrita anteriormente no gene CDKN1C foi observada em uma paciente e sua mãe. Para os pacientes com DUPpat Cr11, foram investigados microssatélites em 13 autossomos e nos cromossomos sexuais para detecção de mosaicismo global. Apenas o paciente com DMP apresentou mosaicismo [células androgenéticas (25-30%) e biparentais], sugerindo evento de dupla fertilização. Nos pacientes com SSR, foi observada hipometilação na ICR1 em 25% dos casos. Para a SBW, foi observada hipermetilação na ICR1 e hipometilação na ICR2 em 6% e 42% dos casos, respectivamente. Os casos com DUPpat Cr11 apresentaram alteração de metilação em ambas as ICRs. As frequências de alterações (epi) genéticas encontradas foram semelhantes às previamente descritas na literatura para as SBW, SSR e HHI. Neste trabalho, foi desenvolvida uma nova técnica para estudo de metilação do DNA de ICRs e testados marcadores microssatélites inéditos na região 11p15, que quando comparados com metodologias mais tradicionais de avaliação, como DESM-RT e MS-MLPA, mostraram elevada correlação dos resultados. Os achados mostram a complexidade da etiologia das doenças estudadas no presente trabalho e os dados moleculares serão imprescindíveis para o aconselhamento genético adequado para cada caso em particular e suas famílias. / Genomic imprinting is a epigenetically regulated process where the alleles are expressed in terms of their parental origin. On chromosome 11 (11p15.5) there are two regions controlling imprinting (ICR1 and ICR2), which control imprinted gene expression. The methylation patterns in these regions may be altered by uniparental disomy (UPD), which occurs when part or whole chromose is inherited from only one parent. Mitotic errors can lead to mosaicism with a cell line with DUP and other, biparental. The Silver-Russell syndrome (SRS) and Beckwith-Wiedemann syndrome (BWS) are diseases of abnormal genomic imprinting, involving chromosomes 7 (SSR) and 11 (SRS and BWS). The Isolated Hemihiperplasia (IHH) seems to correspond to a milder form of the SBW. In the present study, we performed an in silico scan to search for new microsatellites on chromosomes 7 and 11, and selected six tetra- and/or pentanucleotides on chromosome 7, and 12 on chromosome 11. The pattern of methylation in ICRs was verified by three different techniques: MS-MLPA, DESM-RT and a new strategy developed in this work called DESM-QFPCR. We evaluated 32 patients with BWS, HHI 16, with 20 SSR and their parents, when available, and one patient with apparently normal phenotype with karyotype 46, XX/46, XY and whose placenta showed placental mesenchymal dysplasia (PMD) which is associated with SBW. The new markers showed a high heterozygosity rate (average 70%), and absence of undesirable characteristics of dinucleotides, predominantly used for detection of DUP. Six markers spans genes controlled by the ICRs 1 and 2. The paternal UPD for chromosome 11 (UPDpat Cr11), all restricted to 11p15.5, was responsible for 13% of cases of HHI and 19% of the SBW. Structural changes were confirmed by quantitative SNaPshot sequencing of SNPs and MS-MLPA. One patient had paternal duplication encompassing both ICRs. A not previously described deletion in the gene CDKN1C was observed in one patient and her mother. For patients with DUPpat Cr11, microsatellites were investigated in 13 autosomes and sex chromosomes to detect wide mosaicism. Only patients with DMP showed mosaicism [androgenetic cells (25-30%) and biparental], suggesting double fertilization. In patients with SRS, ICR1 hypomethylation was observed in 25% of cases. For BWS, ICR1 hypermethylation and in ICR2 hypomethylation were observed 6% and 42% of cases, respectively. All cases with UPDpat Cr11 presented abnormal methylation in both ICRs. The (epi) genetic change frequencies were similar to those previously described in the literature for BWS, SRR andIHH. In the present work, we developed a new technique to study DNA methylation of ICRs and tested novel microsatellite markers in the 11p15 region, which showed high correlation of results, when compared with more traditional methods such as RT-DESM and MS-MLPA. The results show the complex etiology of these diseases and the molecular data are essential for appropriate patient and families genetic counseling.
43

Konservierte Struktur bei genetischer Mosaizität : die Tailspike Proteine dreier Phagen der Familie Podviridae / Tailspike proteins of three Podoviridae : genetic mosaics with conserved hreedimensional structure

Barbirz, Stefanie January 2005 (has links)
Die Tailspike Proteine (TSP) der Bakteriophagen P22, Sf6 und HK620 dienen der Erkennung von Kohlenhydratstrukturen auf ihren gram-negativen Wirtsbakterien und zeigen, von den ersten 110 Aminosäuren des N-Terminus abgesehen, keine Sequenzübereinstimmung. Mit Röntgenkristallstrukturanalyse konnte gezeigt werden, dass HK620TSP und Sf6TSP ebenfalls zu einer parallelen, rechtsgängigen beta-Helix falten, wie dies schon für P22TSP bekannt war. Die Kohlenhydratbindestelle ist bei Sf6TSP im Vergleich zu P22TSP zwischen die Untereinheiten verschoben. / The bacteriophages P22, Sf6 and HK620 need their tailspike proteins (TSP) for recognition of surface carbohydrates on their gram-negative host bacteria. Sequence identity is completely lacking in their C-terminal 500 to 600 amino acids. The three TSP have the same fold, an oligomeric parallel beta-helix, as shown by crystal structure analyses of HK620TSP and Sf6TSP. Compared with P22TSP, the carbohydrate binding site of Sf6TSP is located at the interface between two monomers and not on a single monomer.
44

Das CHARGE-Syndrom – Quantifizierung eines Gonadenmosaiks und Interaktionspartnersuche des CHD7-Gens / The CHARGE syndrome - quantification of a germline mosaicism and search for interacting partners of the CHD7 gene

Pieper, Lasse 11 February 2013 (has links)
Das CHARGE-Syndrom ist ein autosomal dominant vererbtes Dysmorphiesyndrom. Meistens handelt es sich um sporadische Fälle. Nur für ca. 2/3 der Betroffenen konnte als Ursache eine Mutation im CHD7-Gen nachgewiesen werden.  In dieser Arbeit wurde eine Familie untersucht, in der zwei Kinder gesunder Eltern von einem CHARGE-Syndrom betroffen sind und die Mutation c.7302dupA heterozygot aufweisen. Die  ursächliche Mutation c.7302dupA ließ sich in den väterlichen Spermien nachweisen. Ein Gonadenmosaik konnte somit beim Vater der betroffenen Kinder bestätigt werden.  Eine Methode zur DNA-Analyse an Einzelspermien wurde etabliert, mittels derer der Grad des Mosaiks näher bestimmt werden konnte. In einer Stichprobe des untersuchten Falles trugen 16 von 59 der untersuchten Einzelspermien die Mutation c.7302dupA. Aus diesem Ergebnis lässt sich ein deutlich erhöhtes Wiederholungsrisiko bei einem weiteren Kind ableiten. Eine Interaktion von CHD7 mit CHD8 konnte durch einen direkten Yeast-Two-Hybrid nachgewiesen werden. Bestätigt wurde dieses Ergebnis durch den Nachweis der Ko-Lokalisation der beiden Proteine sowie durch ein Signal in einem bimolekularen Fluoreszenzkomplement-Assay. Im direkten Yeast-Two-Hybrid ließ sich die Interaktionsstelle im CHD7 auf den AS Bereich 1950–2172 mit den Domänen SANT und CR3 mit distalen und proximalen Überhängen eingrenzen.  Durch das Einfügen einer bei einem CHARGE-Patienten identifizierten Missense-Mutation p.Trp2091Arg in den entsprechenden CHD7-Abschnitt ließ sich keine Interaktion mit CHD8 im direkten Yeast-Two-Hybrid mehr nachweisen. Die Bedeutung dieser Missense-Mutation beim Wegfall der Interaktion zwischen CHD7 und CHD8 als Ursache für das CHARGE-Syndrom ist in diesem Fall anzunehmen.
45

Haplotypanalyse bei Familien mit einem Kind mit CHARGE- Syndrom und Kandidatengenscreening CHD8 und FAM124B / Haplotype analysis in families with CHARGE syndrome affected child and screening of candidate genes CHD8 and FAM124B

von Velsen, Nina 31 July 2018 (has links)
No description available.
46

Determinação do fenótipo sexual em uma criança com Mosaicismo 45,X/46,X,Idic(Yp): importância da proporção relativa da linhagem 45,X no tecido gonadal / Determination of the sexual phenotype in a child with 45,X/46,X,Idic(Yp) Mosaicism: importance of the relative proportion of the 45,X line in gonadal tissue

Guedes, Alexis Dourado [UNIFESP] 31 December 2006 (has links) (PDF)
Made available in DSpace on 2015-07-22T20:49:52Z (GMT). No. of bitstreams: 0 Previous issue date: 2006-12-31 / We report here on a girl who, despite her 45,X/46,X,der(Y) karyotype, showed no signs of virilization or physical signs of the Ullrich-Turner syndrome [UTS], except for a reduced growth rate. After prophylactic gonadectomy due to the risk of developing gonadoblastoma, the gonads and peripheral blood samples were analyzed by fluorescence in situ hybridization [FISH] and polymerase chain reaction [PCR] to detect Y-specific sequences. These analyses allowed us to characterize the Yderived chromosome as being an isodicentric Yp chromosome [idic(Yp)] and showed a pronounced difference in the distribution of the 45,X/46,X,idic(Yp) mosaicism between the two analyzed tissues. It was shown that, although in peripheral blood almost all cells (97.5%) belonged to the idic(Yp) line with a duplicated SRY gene, this did not determine any degree of male sexual differentiation in the patient, as in the gonads the predominant cell line was 45,X (60%). / TEDE / BV UNIFESP: Teses e dissertações
47

Dissomia uniparental e mosaicismo somático como mecanismos de alterações epigenéticas do imprinting genômico / Uniparental disomy and somatic mosaicism: mechanisms for epigenetic deregulation of genomic imprinting

Filipe Brum Machado 16 August 2012 (has links)
O imprinting genômico é um processo regulado epigeneticamente que faz com que os alelos sejam expressos de acordo com a sua origem parental. No cromossomo 11 (11p15.5), existem duas regiões controladoras de imprinting (ICR1 e ICR2), que controlam a expressão de genes marcados (imprinted). Os padrões de metilação dessas regiões podem ser alterados pela dissomia uniparental (DUP), que ocorre quando parte de ou um cromossomo inteiro do mesmo par de homólogos é herdado de somente um genitor. Erros mitóticos podem gerar mosaicismo com uma linhagem de células com DUP e a outra biparental. As síndromes de Silver-Russell (SSR) e Beckwith-Wiedemann (SBW) são doenças de alterações do imprinting genômico, envolvendo os cromossomos 7 (SSR) e 11 (SSR e SBW). A Hemihiperplasia Isolada (HHI) parece corresponder a uma forma mais leve da SBW.. No presente trabalho, foi realizada uma varredura in silico para busca de novos microssatélites nos cromossomos 7 e 11, e selecionados seis do tipo tetra ou pentanucleotídeos, no cromossomo 7, e 12, no cromossomo 11. O perfil de metilação nas ICRs foi verificado por três técnicas distintas: MS-MLPA, DESM-RT e por uma nova estratégia desenvolvida neste trabalho denominada DESM-QFPCR. Foram avaliados 32 pacientes com SBW, 16 HHI, 20 com SSR e seus pais, quando disponíveis, além de um paciente com fenótipo aparentemente normal com cariótipo 46,XX/46,XY e cuja placenta apresentou displasia mesenquimal placentária (DMP) a qual está associada à SBW. Os novos marcadores apresentaram alta taxa de heterozigose (média de 70%), e ausência das características indesejáveis dos dinucleotídeos predominantemente utilizados para detecção de DUP. Seis marcadores estão entre genes controlados pelas ICRs 1 e 2. A DUP paterna do cromossomo 11 (DUPpat Cr11), sempre restrita a 11p15.5, foi responsável por 13% dos casos de HHI e 19% dos de SBW. As alterações estruturais foram confirmadas por minissequenciamento quantitativo de SNPs e por MS-MLPA. Um paciente apresentou duplicação paterna abrangendo ambas as ICRs. Uma deleção não descrita anteriormente no gene CDKN1C foi observada em uma paciente e sua mãe. Para os pacientes com DUPpat Cr11, foram investigados microssatélites em 13 autossomos e nos cromossomos sexuais para detecção de mosaicismo global. Apenas o paciente com DMP apresentou mosaicismo [células androgenéticas (25-30%) e biparentais], sugerindo evento de dupla fertilização. Nos pacientes com SSR, foi observada hipometilação na ICR1 em 25% dos casos. Para a SBW, foi observada hipermetilação na ICR1 e hipometilação na ICR2 em 6% e 42% dos casos, respectivamente. Os casos com DUPpat Cr11 apresentaram alteração de metilação em ambas as ICRs. As frequências de alterações (epi) genéticas encontradas foram semelhantes às previamente descritas na literatura para as SBW, SSR e HHI. Neste trabalho, foi desenvolvida uma nova técnica para estudo de metilação do DNA de ICRs e testados marcadores microssatélites inéditos na região 11p15, que quando comparados com metodologias mais tradicionais de avaliação, como DESM-RT e MS-MLPA, mostraram elevada correlação dos resultados. Os achados mostram a complexidade da etiologia das doenças estudadas no presente trabalho e os dados moleculares serão imprescindíveis para o aconselhamento genético adequado para cada caso em particular e suas famílias. / Genomic imprinting is a epigenetically regulated process where the alleles are expressed in terms of their parental origin. On chromosome 11 (11p15.5) there are two regions controlling imprinting (ICR1 and ICR2), which control imprinted gene expression. The methylation patterns in these regions may be altered by uniparental disomy (UPD), which occurs when part or whole chromose is inherited from only one parent. Mitotic errors can lead to mosaicism with a cell line with DUP and other, biparental. The Silver-Russell syndrome (SRS) and Beckwith-Wiedemann syndrome (BWS) are diseases of abnormal genomic imprinting, involving chromosomes 7 (SSR) and 11 (SRS and BWS). The Isolated Hemihiperplasia (IHH) seems to correspond to a milder form of the SBW. In the present study, we performed an in silico scan to search for new microsatellites on chromosomes 7 and 11, and selected six tetra- and/or pentanucleotides on chromosome 7, and 12 on chromosome 11. The pattern of methylation in ICRs was verified by three different techniques: MS-MLPA, DESM-RT and a new strategy developed in this work called DESM-QFPCR. We evaluated 32 patients with BWS, HHI 16, with 20 SSR and their parents, when available, and one patient with apparently normal phenotype with karyotype 46, XX/46, XY and whose placenta showed placental mesenchymal dysplasia (PMD) which is associated with SBW. The new markers showed a high heterozygosity rate (average 70%), and absence of undesirable characteristics of dinucleotides, predominantly used for detection of DUP. Six markers spans genes controlled by the ICRs 1 and 2. The paternal UPD for chromosome 11 (UPDpat Cr11), all restricted to 11p15.5, was responsible for 13% of cases of HHI and 19% of the SBW. Structural changes were confirmed by quantitative SNaPshot sequencing of SNPs and MS-MLPA. One patient had paternal duplication encompassing both ICRs. A not previously described deletion in the gene CDKN1C was observed in one patient and her mother. For patients with DUPpat Cr11, microsatellites were investigated in 13 autosomes and sex chromosomes to detect wide mosaicism. Only patients with DMP showed mosaicism [androgenetic cells (25-30%) and biparental], suggesting double fertilization. In patients with SRS, ICR1 hypomethylation was observed in 25% of cases. For BWS, ICR1 hypermethylation and in ICR2 hypomethylation were observed 6% and 42% of cases, respectively. All cases with UPDpat Cr11 presented abnormal methylation in both ICRs. The (epi) genetic change frequencies were similar to those previously described in the literature for BWS, SRR andIHH. In the present work, we developed a new technique to study DNA methylation of ICRs and tested novel microsatellite markers in the 11p15 region, which showed high correlation of results, when compared with more traditional methods such as RT-DESM and MS-MLPA. The results show the complex etiology of these diseases and the molecular data are essential for appropriate patient and families genetic counseling.
48

Vers une utilisation optimale du génotypage et des scores de gravité dans la prise en charge de la drépanocytose / Towards an optimal use of genotyping and of severity scores in the medical follow-up of sickle-cell disease

Joly, Philippe 13 December 2012 (has links)
Cette thèse cherche à optimiser l’utilisation du génotypage et des scores de gravité dans la drépanocytose. L’aspect diagnostic génétique ne nous semblait pas poser problème jusqu’à ce que nous rencontrions un cas très atypique d’hétérozygotie A/S avec délétion en mosaïque du gène β-globine qui nous a conduits à réfléchir sur une nouvelle forme génétique potentielle de syndrome drépanocytaire majeur. Pour ce qui est des gènes modificateurs de drépanocytose, nous avons voulu faciliter leur l’accès en proposant, pour deux d’entre eux (haplotypes β-globine et G6PD), une méthode de génotypage rapide par HRM et/ou FRET. Notre travail a consisté ensuite en la validation d’un score de sévérité pédiatrique décrit initialement par Van den Tweel. De façon inattendue, les résultats nous ont amenés à nous interroger sur le rôle exact du génotype α-globine dans la drépanocytose avec un possible effet âge-dépendant. Enfin, nous avons étudié les fréquences alléliques des principaux polymorphismes influant sur l’activité des opiacés: une résistance pharmacologique (gènes OPRM1 et COMT) est apparue peu probable mais une proportion non négligeable de drépanocytaires pourrait avoir des génotypes ABCB1 et UGT2B7 défavorables à la biodisponibilité des opiacés / This work is submitted for a PhD thesis in the field of red cell haematology. Sickle cell disease (SCD) is a monogenic disorder under polygenic and environmental control. The aim of this work was to integrate genotyping results from patients' DNA into the determination of the disease severity scores. Through a large population of SCD patients, we have discovered an atypical case of βA / βS heterozygosity namely, a mosaicism deletion of the beta-globin gene. This represents a new SCD complex situation for molecular diagnosis. Further investigations have led to set up a new genotyping method by using HRM and/or FRET for the determination of two SCD modifiers (beta-globin haplotypes and G6PD deficiency). By using a paediatric severity score of the disease proposed by Van den Tweel, our results show that there is a possible age-dependent effect of the alpha-globin gene in the severity of SCD. Finally, we studied the allelic frequencies of the main opiate-related polymorphisms: a pharmacological resistance (OPRM1 and COMT genes) seemed unlikely but a quite important proportion of patients could have both an ABCB1 and a UGT2B7 genotype unfavorable for opiates bioavailability
49

Molekulárně cytogenetická diagnostika marker chromozomů / Molecular-cytogenetic diagnostics of marker chromosomes

Tesner, Pavel January 2018 (has links)
Supernumerary marker chromosomes (sSMCs) are a relatively rare cytogenetic phenomenon. Their laboratory examination is often difficult, and the clinical interpretation is even more challenging. The main reason is that most sSMC carriers have no clinical manifestations. The chromosome origin and exact range of the aberration are very important, as well as the fact that sSMCs are often found in mosaics that can strongly influence both the phenotype and the interpretation of result. Prenatal sSMC finding is one of the most challenging situations in both clinical and laboratory genetics. This work deals with the investigation process of sSMC carriers using molecular cytogenetic techniques, especially fluorescence in situ hybridization (FISH). We investigated a total of 67 families collected both prospectively and retrospectively, and we found 70 unique sSMCs in a total of 74 individuals. Six cases were familial and in three cases two sSMCs were found in one individual. According to the initial karyotype finding, the cases were divided into two groups, sSMCs supernumerary to a normal karyotype (group A) and sSMCT s supernumerary to the Turner karyotype (group B). The chromosomal origin was successfully determined in 88,6 % sSMCs. In group A the most common findings were sSMCs derived from chromosome 15,...
50

Male-mediated developmental toxicity

Anderson, Diana, Schmid, Thomas E., Baumgartner, Adolf 10 October 2013 (has links)
No / Male-mediated developmental toxicity has been of concern for many years. The public became aware of male-mediated developmental toxicity in the early 1990s when it was reported that men working at Sellafield might be causing leukemia in their children. Human and animal studies have contributed to our current understanding of male-mediated effects. Animal studies in the 1980s and 1990s suggested that genetic damage after radiation and chemical exposure might be transmitted to offspring. With the increasing understanding that there is histone retention and modification, protamine incorporation into the chromatin and DNA methylation in mature sperm and that spermatozoal RNA transcripts can play important roles in the epigenetic state of sperm, heritable studies began to be viewed differently. Recent reports using molecular approaches have demonstrated that DNA damage can be transmitted to babies from smoking fathers, and expanded simple tandem repeats minisatellite mutations were found in the germline of fathers who were exposed to radiation from the Chernobyl nuclear power plant disaster. In epidemiological studies, it is possible to clarify whether damage is transmitted to the sons after exposure of the fathers. Paternally transmitted damage to the offspring is now recognized as a complex issue with genetic as well as epigenetic components.

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