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Showing 211 to 220 of 222 (0.044 seconds)Spelling suggestions: "subject:"cope number""
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Avaliação de métodos citogenômicos para diagnóstico de pacientes com malformações congênitas e atraso do desenvolvimento neuropsicomotor / Assessment of cytogenomics methods for diagnosis of patients with congenital malformations and developmental delayEvelin Aline Zanardo 12 December 2014 (has links)
O genoma humano é composto por diversos tipos de variações estruturais, como por exemplo, as variações no número de cópias (CNVs), que, mesmo sendo muito pequenas, podem gerar diversas alterações clínicas específicas, como as malformações congênitas e o atraso do desenvolvimento neuropsicomotor (MC/ADNPM). Para a detecção destas alterações existem diferentes técnicas citogenômicas dentre elas a FISH (Fluorescent in situ Hibridization) e a MLPA (Multiplex Ligation-dependent Probe Amplification), que investigam um número limitado de regiões do genoma, como as regiões envolvidas nas síndromes de microdeleções/microduplicações mais comuns e as regiões subteloméricas. Outros métodos como a cariotipagem clássica e o array genômico possibilitam uma análise completa do DNA em uma única reação, aumentando a taxa de detecção de desequilíbrios complexos. Alcançar um diagnóstico inequívoco é fundamental para entender a natureza da doença, fornecendo respostas sobre o prognóstico, sobre os riscos de recorrência e direcionando o paciente à terapia específica, o que pode minimizar o custo financeiro dessas doenças e até mesmo possibilitar a inclusão desses indivíduos na sociedade. O projeto teve como objetivo comparar a capacidade diagnóstica destas tecnologias (FISH, MLPA e array) para a elucidação etiológica de pacientes sindrômicos encaminhados para a unidade de genética. A casuística deste trabalho foi composta pela análise dos resultados das técnicas de FISH e/ou MLPA e array, utilizadas no diagnóstico de 78 pacientes com MC/ADNPM. Na técnica de FISH, empregada na análise genômica de 22 pacientes, foram utilizadas sondas locus específicas para as regiões das principais síndromes de microdeleção/microduplicação e para as regiões subteloméricas de cromossomos específicos. Por meio desta metodologia, foram identificados ~18,2% dos pacientes com diferentes alterações. Já a técnica de MLPA, utilizada no diagnóstico dos 78 pacientes, por meio dos kits para as principais síndromes de microdeleção/microduplicação e para as regiões subteloméricas, detectou ~34,6% de pacientes com diversas alterações. A técnica de array, realizada em todos os pacientes utilizando diferentes plataformas (Agilent, Affymetrix ou Illumina) apresentou uma taxa de ~42,3% de detecção de pacientes com pelo menos uma alteração patogênica e ~38,5% de pacientes com alterações benignas ou de significado clínico incerto. Ao avaliar as três técnicas concomitantemente foi verificada uma taxa de ~93,6% de concordância, apesar dos resultados não serem iguais em todos os casos e da técnica de MLPA não detectar ~66,2% das alterações em relação ao array. Os resultados obtidos corroboraram com dados da literatura, mas no geral a taxa de detecção foi superior às taxas descritas, o em que em parte pode ser devido ao critério de seleção dos pacientes, sugerindo fortemente que a hipótese clínica adequada é crucial para o sucesso da detecção de alteração. Embora o array seja a ferramenta mais eficiente para o diagnóstico de pacientes com malformações, seu uso como primeiro teste diagnóstico nem sempre é o mais apropriado devido ao seu custo elevado ou sua limitação em detectar inversões e translocações balanceadas. Portanto todas as técnicas estudadas têm suas vantagens e desvantagens, e poderão ser aplicadas em conjunto para que o diagnóstico molecular seja concluído. Dessa forma, são necessárias uma interação clínico-laboratorial e uma equipe técnica multiprofissional especializada para o direcionamento do diagnóstico molecular mais eficaz em relação ao custo-benefício / The human genome is composed of several types of structural variations, such as copy number variation (CNVs) which, although very small, can generate several specific clinical abnormalities, such as congenital malformations and developmental delay (CM/DD). To detect these changes there are different cytogenomics techniques, among them, FISH (Fluorescent in situ Hybridization) and MLPA (Multiplex Ligation-dependent Probe Amplification) that can investigate a limited number of genomic regions for example the most common microdeletion/microduplications syndromes and subtelomeric regions. Other methods such as classical karyotyping and array provide a complete DNA analysis in a single reaction, increasing the detection rate of complex imbalances. Acquire an unequivocal diagnosis is critical to understand the nature of the disease, providing answers about the prognosis, risks of recurrence and directing the patients to specific therapy, which can minimize the cost of these diseases and even allow the inclusion of these individuals in society. The objective of this project was to compare the diagnostic ability of these technologies (FISH, MLPA and array) for the etiologic diagnosis of syndromic patients referred to the clinical unit of genetics. The casuistry was composed by the results of analysis of 78 patients with CM/DD using FISH and/or MLPA and array. The FISH technique was utilized in genomic analysis for 22 patients and locus specific probes were used for regions of the microdeletion/microduplication syndromes and the subtelomeric regions of specific chromosomes. By this methodology ~18.2% of the patients were identified with different genomic changes. The MLPA technique was used in the diagnosis of 78 patients, with microdeletion/microduplication syndrome and subtelomeric regions, and detected ~34.6% of patients with several changes. The array technique was performed in all patients using different platforms (Agilent, Illumina or Affymetrix) and shows a rate of ~42.3% of detection at least one pathogenic change and ~38.5% of patients with benign or uncertain clinical significance changes. In assessment of the three techniques concomitantly was observed a rate of ~93.6% of concordance, although the results are not the same in all cases and the MLPA technique to detect ~ 66.2% of the changes in relation to the array. The results obtained corroborated with literature data, but the overall detection rate was higher than the rates described in the literature, due in part to the criteria selection of patients. Our results strongly suggesting that appropriate clinical hypothesis is crucial for successful change detection. Although the array is the most efficient tool for the diagnosis of patients with abnormalities, using this test as a first diagnostic approach is not always the most suitable tool because of the high cost or the limitation to detect inversions and balanced translocations. Therefore, all techniques studied have their advantages and disadvantages, and could be applied together for the completed molecular diagnosis. Thus, a clinical laboratory interaction and multidisciplinary skilled technicians is required for targeting the most effective molecular diagnosis in relation to cost-benefit
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Cascade bi-enzymatique autosuffisante in vivo : le jeu des plasmides / In vivo self-sufficient bi-enzymatic cascades : the plasmid gameMenil, Sidiky 31 January 2018 (has links)
Une attention croissante est portée aux cascades multi enzymatiques pour l’élaboration de procédés de synthèse plus efficaces. Cependant, le contrôle de l’expression hétérologue de plusieurs gènes dans un même hôte s’avère difficile et peut mener à un déséquilibre du flux réactionnel. Pour exploiter au mieux les avantages d’une cascade in vivo, il est nécessaire d’ajuster les activités de chaque étape, et de construire des catalyseurs cellulaires capables de programmer la stœchiométrie des enzymes. Nous avons développé dans ce projet une approche originale pour moduler le ratio de deux enzymes in cellulo en jouant sur le nombre de copies de plasmides par cellule (PCN). Nous avons choisi comme modèle un système autosuffisant associant une Alcool Déshydrogénase (ADH) et une Baeyer-Villiger MonoOxygenase (BVMO), NADP(H)-dépendantes. Plusieurs plasmides recombinants portant les deux gènes ont été conçus et combinés dans E. coli. Les souches de co-expression construites ont été comparées en termes de PCN, de production d’enzymes et d’activité. Nous avons montré l’importance d’un choix judicieux de la combinaison de plasmides ainsi que l’existence d’une corrélation entre ratios d’enzymes et activité. Nos biocatalyseurs s’étendent sur une gamme allant du système inactif à un système affichant un TTN d’environ 6000. Ce système a permis la synthèse de lactones d’intérêt industriel, la dihydrocoumarine et la caprolactone, à partir d’indanol et de cyclohexanol. Enfin, sur ce modèle de combinaison de plasmides, trois nouveaux biocatalyseurs cellulaires, associant l’ADH à diverses BVMOs, ont été créés afin d’élargir la gamme d’esters et de lactones synthétisables à partir d’alcools. / Growing attention is paid to multienzymatic cascades to develop more efficient synthetic processes. However, in in cellulo process, the control of the simultaneous heterologous expression of several genes in the same host is often difficult and can lead to imbalances in the reaction flow. To exploit the benefits of cascades, activities of each step have to be adjusted and thus, cellular biocatalysts capable of programming enzymes stoichiometry have to be constructed. In this work, to modulate the stoichiometry of two enzymes in vivo, we developed an original approach based on the copy number per cell of plasmids (PCN) used as vectors. The PCN is regulated in bacteria by three main mechanisms leading, according to the replicon, to low, medium or high PCN. As proof of concept, we chose a self-sufficient system combining an Alcohol Dehydrogenase (ADH) and a Baeyer-Villiger MonoOxygenase (BVMO), both NADP(H)-dependent. Several recombinant plasmids harboring both genes were designed and combined in E. coli. Coexpression strains constructed were compared in terms of PCN, enzyme production and activity. We showed the importance of a judicious choice of plasmids combination and the existence of a correlation between enzymes ratios and activity. Our biocatalysts ranged from an inactive system to a system with a TTN of about 6000. This system allowed the synthesis of lactones of industrial interest, dihydrocoumarin and caprolactone, via double oxidation of indanol and cyclohexanol. Finally, based on this plasmids combination model, three new cellular biocatalysts combining ADH with various BVMOs were designed to broaden the range of esters and lactones synthesizable from alcohols.
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Genetic, genomic and epigenetic alterations in congenital malformations : implications in genetic counselingSerra Juhé, Clara, 1984- 20 October 2012 (has links)
Mechanisms underlying congenital malformations are largely unknown despite its high incidence,
affecting 2-3% of liveborn infants. A broader knowledge about the causes of birth defects would
provide valuable information regarding the outcome and prognosis of the anomaly, the
development and establishment of diagnostic protocols, the design of therapeutic strategies and
genetic counseling to the family. Different approaches have been used in the present thesis
regarding technologies and model diseases to elucidate the contribution of genetic and epigenetic
alterations in the etiopathogenesis of congenital malformations. Copy number variations,
methylation patterns, as well as point mutations have been explored. Moreover, a study to analyze
genetic counseling in relation to one of the new molecular techniques used has been performed.
Obtained data reveal a relevant role of genetic and epigenetic alterations in congenital
malformations, in some cases as a unique cause to explain the disease and in others as part of an
oligogenic or multifactorial model. / Els mecanismes causants de les malformacions congènites són poc coneguts malgrat l’elevada
incidència d’aquestes patologies, que afecten el 2-3% de recent nascuts. Un coneixement més ampli
de les causes de les anomalies congènites proporcionaria informació rellevant pel que fa al pronòstic
de l’anomalia, el desenvolupament i establiment de protocols diagnòstics, el disseny d’estratègies
terapèutiques, així com l’assessorament genètic a la família. En la tesi que es presenta s’han utilitzat
diferents estratègies, pel que fa a tecnologies i models de malalties, amb l’objectiu d’esbrinar la
contribució d’alteracions genètiques i epigenètiques en l’etiopatogènia de les malformacions
congènites. S’han analitzat variacions en número de còpia, patrons de metilació, així com mutacions
puntuals. D’altra banda, també s’ha realitzat un estudi per aprofundir en l’assessorament genètic en
relació a una de les noves tècniques moleculars utilitzades. Els resultats obtinguts indiquen que les
altercacions genètiques i epigenètiques tenen una contribució molt rellevant en l’etiologia de les
malformacions congènites, en alguns casos com a causa única de la malaltia i en altres com a
component d’un model oligogènic o multifactorial.
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A deficiência das proteínas de checkpoint HUS1 e RAD9 promove a variação do número de cópias no genoma de Leishmania major / Deficiency of checkpoint proteins HUS1 and RAD9 promotes copy number variation in the Leishmania major genomeRicardo Obonaga Gómez 18 December 2017 (has links)
A variação do número de cópias (CNV) de genes e cromossomos é uma característica comum do genoma plástico de Leishmania major, que pode estar associada à resistência do parasita à quimioterapia das leishmanioses. Em outros eucariotos, alterações na replicação do DNA ou na resposta a danos no DNA (DDR) pode levar à CNV. Nestes organismos, o complexo de checkpoint 9-1-1 (RAD9, RAD1 e HUS1) é essencial para a detecção e a sinalização do estresse de replicação e para o recrutamento de uma apropriada DDR. Já demonstramos que L. major expressa um homólogo 9-1-1 funcional. Aqui, avaliamos a deficiência de subunidades de 9-1-1 na variação do número de cópias em células selecionadas em metotrexato (MTX), um inibidor da enzima diidrofolato redutase timidilato sintetase (DHFR-TS). A seleção em MTX facilita o isolamento de células que carregam amplificações contendo o locus da DHFR-TS. Assim, selecionamos células deficientes de HUS1 ou RAD9 para resistência ao MTX sem e com exposição previa a hidroxiureia (HU), uma droga que causa estresse de replicação por inibição da ribonucleotídeo redutase, e avaliamos o efeito da deficiência destas proteínas na CNV e no tipo de amplificação gerada. Avaliamos também o efeito da deficiência destas proteínas no processo de síntese do DNA medido pela incorporação de IdU e observamos que a deficiência destas proteínas levou a um incremento na síntese do DNA na ausência de estresse de replicação e a perfis opostos de síntese do DNA após a remoção do estresse replicativo. Análises da detecção de simples fita do DNA (ssDNA) e da histona H2A fosforilada (?H2A) como indicadores do processo de estresse de replicação e dano no DNA também foram conduzidas. Em conjunto, nossos resultados indicam que (i) os níveis alterados das proteínas HUS1 e RAD9 afetam o padrão da CNV após a seleção no MTX, assim como a natureza da amplificação; (ii) HUS1 e RAD9 parecem possuir mecanismos distintos para mediar a CNV; (iii) a função destas proteínas na CNV deve envolver o processo de replicação e (iv) HUS1 e RAD9 são requeridas para a manutenção da estabilidade genômica em Leishmania. Estes resultados contribuem para uma melhor compreensão não só da evolução da via de sinalização mediada pelo complexo de checkpoint 9-1-1 nos eucariotos, mas também da bases moleculares da plasticidade genômica e do fenômeno de amplificação gênica em Leishmania. / The copy number variation (CNV) of genes and chromosomes is a common feature of the plastic genome of Leishmania major, which is normally associated with resistance of the parasite to the chemotherapy of leishmaniasis. In other eukaryotes, alteration in DNA replication and DNA damage response (DDR) causes CNV. In these organisms, the RAD9-RAD1-HUS1 (9-1-1) checkpoint complex is essential for detection and signaling of replication stress and recruitment of an appropriate DDR. We have already demonstrated that L. major expresses a functional 9-1-1 homolog. Here we evaluated the effect of 9-1-1 subunit deficiency in CNV of cells selected in methotrexate (MTX), an inhibitor of the dihydrofolate reductase thymidylate synthetase (DHFR-TS) enzyme. Selection in MTX facilitates the isolation of cells that carry amplicons containing the DHFR-TS locus. Thus, we selected HUS1 or RAD9 deficient cells for MTX resistance without and prior exposure to hydroxyurea (HU), a drug that causes replication stress due to inhibition of ribonucleotide reductase, and evaluated not only CNV, but also the nature of the amplification generated. We also evaluated the effect of deficiency of these proteins in the DNA synthesis process measured by IdU incorporation and observed that the deficiency of these proteins led to an increase in DNA synthesis in the absence of replication stress, and to opposite profiles of DNA synthesis after removal of replicative stress. Analyzes of single-stranded DNA (ssDNA) and phosphorylated histone H2A (?H2A) as indicators of replication stress and DNA damage were also conducted in both presence and absence of replicative stress. Taken together, our results indicate that (i) altered levels of HUS1 and RAD9 proteins affect the CNV pattern after selection in MTX, as well as the nature of amplification; (ii) HUS1 and RAD9 possibly have different mechanisms to mediate CNV; (iii) the function of these proteins in CNV seems to involve replication process and (iv) HUS1 and RAD9 are required for the maintenance of genomic stability in Leishmania. These findings contribute to a better understanding not only of the evolution of the signaling pathway mediated by 9-1-1 checkpoint complex in eukaryotes, but also of the molecular basis of the genome plasticity and the gene amplification phenomenon in Leishmania.
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Role of the <em>RNF8</em>, <em>UBC13</em>, <em>MMS2</em> and <em>RAD51C</em> DNA damage response genes and rare copy number variants in hereditary predisposition to breast cancerVuorela, M. (Mikko) 03 December 2013 (has links)
Abstract
Mutations in the currently known breast cancer susceptibility genes account for only 25–30% of all familial cases. Novel susceptibility genes can be identified by several methods, including candidate gene re-sequencing and genome-wide microarrays. We have applied microarrays for the detection of a new genomic variation class, copy number variants (CNVs), which potentially could disrupt genes in multiple pathways related to breast cancer susceptibility. The aim of the current study was to evaluate the role of the RNF8, UBC13, MMS2 and RAD51C DNA damage response genes in breast cancer susceptibility as well as to study if rare CNVs are associated with the predisposition to this disease.
The analysis of 123 familial breast cancer cases revealed altogether nine different changes in the RNF8 and UBC13 candidate genes. However, none of the observed alterations were considered pathogenic. No alterations were observed in MMS2. The obtained results suggest that breast cancer predisposing alterations in RNF8, UBC13 and MMS2 are rare, or even absent.
The RAD51C mutation screening of 147 familial breast cancer cases and 232 unselected ovarian cancer cases revealed two deleterious mutations: c.-13_14del27 was observed in a breast cancer case with familial history of ovarian cancer and c.774delT in an ovarian cancer case. Both mutations were absent in the control cohort. The results of the study support the hypothesis that rare variants of RAD51C predispose predominantly to ovarian cancer.
A genome-wide scan of CNVs was performed for 103 familial breast cancer cases and 128 controls. The biological networks of the genes disrupted by CNVs were different between the two groups. In familial breast cancer cases, the observed mutations disrupted genes, which were significantly overrepresented in cellular functions related to maintenance of genomic integrity (P=0.0211). Biological network analysis showed that the disrupted genes were closely related to estrogen signaling and TP53-centered tumor suppressor network, and this result was confirmed by the analysis of an independent young breast cancer cohort of 75 cases. These results suggest that rare CNVs represent an alternative source of genetic variation contributing to hereditary risk for breast cancer. / Tiivistelmä
Tunnetut rintasyöpäalttiusgeenien mutaatiot selittävät vain 25–30 prosenttia kaikista perinnöllisistä rintasyöpätapauksista. Uusia alttiusgeenejä voidaan tunnistaa useilla eri menetelmillä, kuten kandidaattigeenien mutaatiokartoituksella ja genomin-laajuisilla mikrosirutekniikoilla. Tässä tutkimuksessa sovelsimme mikrosirutekniikkaa uuden geneettisen variaatioluokan, kopiolukuvariaation (CNV), tutkimiseen. CNV:t voivat vaurioittaa lukuisia rintasyöpäalttiuteen liittyviä biokemiallisia reittejä. Tämän tutkimuksen tarkoitus oli arvioida RNF8-, UBC13-, MMS2- ja RAD51C -DNA- vauriovastegeenien sekä harvinaisten CNV:iden yhteyttä rintasyöpä-alttiuteen.
123 familiaalisen rintasyöpätapauksen analyysissä löytyi yhteensä yhdeksän muutosta RNF8- ja UBC13-geeneistä, joista yksikään ei osoittautunut patogeeniseksi. MMS2-geenissä ei havaittu muutoksia. Tulosten perusteella rintasyövälle altistavat muutokset RNF8-, UBC13- ja MMS2- geeneissä ovat joko erittäin harvinaisia tai niitä ei esiinny lainkaan.
RAD51C-geenin mutaatiokartoitus 147 familiaalisesta rintasyöpätapauksesta sekä 232 valikoimattomasta munasarjasyöpätapauksesta paljasti kaksi haitallista mutaatiota. c.-13_14del27 havaittiin rintasyöpäpotilaalla, jonka suvussa esiintyi munasarjasyöpää, ja c.774delT todettiin munasarjasyöpäpotilaalta. Kumpaakaan mutaatiota ei havaittu verrokkiaineistossa. Tulokset vahvistavat hypoteesia RAD51C-geenin harvinaisten varianttien yhteydestä pääasiassa munasarjasyöpäriskiin.
CNV:iden genomin-laajuinen skannaaminen suoritettiin 103 familiaaliselle rintasyöpätapaukselle ja 128 verrokille. CNV:iden häiritsemien geenien muodostamat biologiset verkostot olivat erilaiset näiden kahden ryhmän välillä. Familiaalisilla rintasyöpätapauksilla havaitut CNV:t vaikuttivat geeneihin, jotka olivat voimakkaasti korostuneita genomin eheyttä ylläpitävissä tehtävissä (P=0.0211). Biologisten verkostojen analyysi paljasti, että CNV:iden vahingoittamat geenit liittyivät läheisesti estrogeenisignalointiin sekä TP53-tuumorisupressoriverkostoon, ja tämä tulos vahvistettiin analysoimalla riippumatonta nuorista rintasyöpäpotilaista koostuvaa kohorttia (N=75). Tutkimuksen tulosten mukaan harvinaiset CNV:t ovat vaihtoehtoinen geneettisen variaation lähde perinnölliseen rintasyöpäalttiuteen.
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Development and Validation of Quantitative PCR Assays for DNA-Based Newborn Screening of 22q11.2 Deletion Syndrome, Spinal Muscular Atrophy, Severe Combined Immunodeficiency and Congenital Cytomegalovirus InfectionTheriault, Mylene A. January 2013 (has links)
The development of new high throughput technologies able to multiplex disease biomarkers as well as advances in medical treatments has lead to the recent expansion of the newborn screening panel to include DNA-based targets. Four rare disorders; deletion 22q11.2 syndrome and Spinal Muscular Atrophy (SMA), Severe Combined Immunodeficiency (SCID) and Congenital Cytomegalovirus (CMV), are potential candidates for inclusion to the newborn screening panel within the next few years. The major focus of this study was to determine whether 5’-hydrolysis assays developed for the four distinct disorders with specific detection needs and analytical ranges could be combined on the OpenArray system and in multiplexed qPCR reactions. SNP detection of homozygous SMN1 deletions in SMA, CNV detection in the 22q11.2 critical region, and quantification of the SCID biomarker, T-cell receptor excision circles (TRECs) and CMV were all required for disease confirmation. SMA and 22q11.2 gene deletions were accurately detected using the OpenArray system, a first for the technology. The medium density deletion 22q11.2 multiplex successfully identified deletion carriers having either the larger 3 Mb deletion or the smaller 1.5 Mb deletions. Both TREC and CMV targets were detected but with a decrease in sensitivity when compared to their singleplex counterparts. Lastly, copy number detection of the TBX1 was performed when multiplexed with the TREC assay, without a decrease in detection limit of either assay. Here, we provide proof of principal that qPCR multiplexing technologies are amenable to implementation with a newborn screening laboratory.
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Mapping genome-wide neuropsychiatric mutation effects on functional brain connectivity : c opy number variants delineate dimensions contributing to autism and schizophreniaMoreau, Clara 04 1900 (has links)
Les recherches menées pour comprendre les troubles du spectre autistique (TSA) et la schizophrénie (SZ) ont communément utilisé une approche dite descendante, partant du diagnostic clinique pour investiguer des phénotypes intermédiaires cérébraux ainsi que des variations génétiques associées. Des études transdiagnostiques récentes ont remis en question ces frontières nosologiques, et suggèrent des mécanismes étiologiques imbriqués. L’approche montante propose de composer des groupes de porteurs d’un même variant génétique afin d’investiguer leur contribution aux conditions neuropsychiatriques (NPs) associées. Les variations du nombre de copies (CNV, perte ou gain d’un fragment d’ADN) figurent parmi les facteurs biologiques les plus associés aux NPs, et sont dès lors des candidats particulièrement appropriés. Les CNVs induisant un risque pour des conditions similaires, nous posons l’hypothèse que des classes entières de CNVs convergent sur des dimensions d’altérations cérébrales qui contribuent aux NPs. L’imagerie fonctionnelle au repos (rs-fMRI) s’est révélée un outil prometteur en psychiatrie, mais presqu’aucune étude n’a été menée pour comprendre l’impact des CNVs sur la connectivité fonctionnelle cérébrale (FC).
Nos objectifs étaient de: 1) Caractériser l’effet des CNVs sur la FC; 2) Rechercher la présence des motifs conférés par ces signatures biologiques dans des conditions idiopathiques; 3) Tester si la suppression de gènes intolérants à l’haploinsuffisance réorganise la FC de manière indépendante à leur localisation dans le génome. Nous avons agrégé des données de rs-fMRI chez: 502 porteurs de 8 CNVs associées aux NPs (CNVs-NP), de 4 CNVs sans association établie, ainsi que de porteurs de CNVs-NPs éparses; 756 sujets ayant un diagnostic de TSA, de SZ, ou de trouble déficitaire de l’attention/hyperactivité (TDAH), et 5377 contrôles.
Les analyses du connectome entier ont montré un effet de dosage génique positif pour les CNVs 22q11.2 et 1q21.1, et négatif pour le 16p11.2. La taille de l’effet des CNVs sur la FC était corrélée au niveau de risque psychiatrique conféré par le CNV. En accord avec leurs effets sur la cognition, l’effet des délétions sur la FC était plus élevé que celui des duplications. Nous avons identifié des similarités entre les motifs cérébraux conférés par les CNVs-NP, et l’architecture fonctionnelle des individus avec NPs. Le niveau de similarité était associé à la sévérité du CNV, et était plus fort avec la SZ et les TSA qu’avec les TDAH. La comparaison des motifs conférés par les délétions les plus sévères (16p11.2, 22q11.2) à l’échelle fonctionnelle, et d’expression génique, nous a confirmé l’existence présumée de relation entre les mutations elles-mêmes. À l’aide d’une mesure d’intolérance aux mutations (pLI), nous avons pu inclure tous les porteurs de CNVs disponibles, et ainsi identifier un profil d’haploinsuffisance impliquant le thalamus, le cortex antérieur cingulaire, et le réseau somato-moteur, associé à une diminution de mesure d’intelligence générale. Enfin, une analyse d’exploration factorielle nous a permis de confirmer la contribution de ces régions cérébrales à 3 composantes latentes partagées entre les CNVs et les NPs.
Nos résultats ouvrent de nouvelles perspectives dans la compréhension des mécanismes polygéniques à l’oeuvre dans les maladies mentales, ainsi que des effets pléiotropiques des CNVs. / Research on Autism Spectrum Disorder (ASD) and schizophrenia (SZ) has mainly adopted a ‘top-down’ approach, starting from psychiatric diagnosis, and moving to intermediate brain phenotypes and underlying genetic factors. Recent cross-disorder studies have raised questions about diagnostic boundaries and pleiotropic mechanisms. By contrast, the recruitment of groups based on the presence of a genetic risk factor allows for the investigation of molecular pathways related to a particular risk for neuropsychiatric conditions (NPs). Copy number variants (CNVs, loss or gain of a DNA segment), which confer high risk for NPs are natural candidates to conduct such bottom-up approaches.
Because CNVs have a similar range of adverse effects on NPs, we hypothesized that entire classes of CNVs may converge upon shared connectivity dimensions contributing to mental illness. Resting-state functional MRI (rs-fMRI) studies have provided critical insight into the architecture of brain networks involved in NPs, but so far only a few studies have investigated networks modulated by CNVs.
We aimed at 1) Delineating the effects of neuropsychiatric variants on functional connectivity (FC), 2) Investigating whether the alterations associated with CNVs are also found among idiopathic psychiatric populations, 3) Testing whether deletions reorganize FC along general dimensions, irrespective of their localization in the genome.
We gathered rsfMRI data on 502 carriers of eight NP-CNVs (high-risk), four CNVs without prior association to NPs as well as carriers of eight scarcer NP-CNVs. We also analyzed 756 subjects with idiopathic ASD, SZ, and attention deficit hyperactivity disorder (ADHD), and 5,377 controls. Connectome-wide analyses showed a positive gene dosage effect for the 22q11.2 and 1q21.1 CNVs, and a negative association for the 16p11.2 CNV. The effect size of CNVs on relative FC (mean-connectivity adjusted) was correlated with the known level of NP-risk conferred by CNVs. Consistent with results on cognition, we also reported that deletions had a larger effect size on FC than duplications. We identified similarities between high-risk CNV profiles and the connectivity architecture of individuals with NPs. The level of similarity was associated with mutation severity and was strongest in SZ, followed by ASD, and ADHD. The similarity was driven by the thalamus, and the posterior cingulate cortex, previously identified as hubs in transdiagnostic psychiatric studies. These results raised questions about shared mechanisms across CNVs. By comparing deletions at the 16p11.2 and 22q11.2 loci, we identified similarities at the connectivity, and at the gene expression level. We extended this work by pooling all deletions available for analysis. We asked if connectivity alterations were associated with the severity of deletions scored using pLI, a measure of intolerance to haploinsufficiency. The haploinsufficiency profile involved the thalamus, anterior cingulate cortex, and somatomotor network and was correlated with lower general intelligence and higher autism severity scores in 3 unselected and disease cohorts. An exploratory factor analysis confirmed the contribution of these regions to three latent components shared across CNVs and NPs.
Our results open new avenues for understanding polygenicity in psychiatric conditions, and the pleiotropic effect of CNVs on cognition and on risk for neuropsychiatric disorders.
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Detecting structural variants in the DNA of the inbred Scandinavian wolfHuson, Lars January 2023 (has links)
Only 40 years ago, just three individuals made the journey from Finland/Russia to found the current wolf population in the southwest of Sweden. This population, that to this date descends from less than 10 founders, has a substantial increased extinction risk due to inbreeding. Several previous studies have used SNPs to monitor the level of inbreeding and homozygosity in the population, as well as measure immigration and the inflow of new genetic material. This study uses both short- and long-read data to discover structural variants (SVs) and small indels in the population, so that they may be used to extend the analyses and provide more insight into the current state of the Scandinavian wolf population. After the calling of the SVs, strict filtering and manual curation were applied to the data, thereby removing many false positive calls and increasing confidence in the remaining SVs. Short-read and long-read SV-callers found 31,800 and 57,821 SVs respectively, with relatively little overlap between the two sets. By far, the most common SV-types were deletions and insertions, at about 30,000 each with varying length ranging from a 50 base pairs to several tens of Mbp. Analyses on the data, such as PCAs and parent-offspring trio analyses, reveal high-confidence calls and consistent results between SV-types and SV-callers, as well as a low estimated genotyping error rate. PCAs performed on the SVs resembled those performed on SNPs, which strengthens the credibility of the identified variants. Finally, this study suggests several alternative steps for possible improvement to the dataset, along with some proposals for subsequent research topics that may use the variants discovered in this study.
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ROLE OF GENOMIC COPY NUMBER VARIATION IN ALZHEIMER'S DISEASE AND MILD COGNITIVE IMPAIRMENTSwaminathan, Shanker 14 February 2013 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Alzheimer's disease (AD) is the most common form of dementia defined by loss in memory and cognitive abilities severe enough to interfere significantly with daily life activities. Amnestic mild cognitive impairment (MCI) is a clinical condition in which an individual has memory deficits not normal for the individual's age, but not severe enough to interfere significantly with daily functioning. Every year, approximately 10-15% of individuals with MCI will progress to dementia. Currently, there is no treatment to slow or halt AD progression, but research studies are being conducted to identify causes that can lead to its earlier diagnosis and treatment.
Genetic variation plays a key role in the development of AD, but not all genetic factors associated with the disease have been identified. Copy number variants (CNVs), a form of genetic variation, are DNA regions that have added genetic material (duplications) or loss of genetic material (deletions). The regions may overlap one or more genes possibly affecting their function. CNVs have been shown to play a role in certain diseases.
At the start of this work, only one published study had examined CNVs in late-onset AD and none had examined MCI. In order to determine the possible involvement of CNVs in AD and MCI susceptibility, genome-wide CNV analyses were performed in participants from three cohorts: the ADNI cohort, the NIA-LOAD/NCRAD Family Study cohort, and a unique cohort of clinically characterized and neuropathologically verified individuals. Only participants with DNA samples extracted from blood/brain tissue were included in the analyses. CNV calls were generated using genome-wide array data available on these samples. After detailed quality review, case (AD and/or MCI)/control association analyses including candidate gene and genome-wide approaches were performed.
Although no excess CNV burden was observed in cases compared to controls in the three cohorts, gene-based association analyses identified a number of genes including the AD candidate genes CHRFAM7A, RELN and DOPEY2. Thus, the present work highlights the possible role of CNVs in AD and MCI susceptibility warranting further investigation. Future work will include replication of the findings in independent samples and confirmation by molecular validation experiments.
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Duplicacions segmentàries a la regió cromosòmica humana 8P23.1: evolució i expansió d'una nova família gènicaBosch Pages, Nina 19 December 2008 (has links)
Les duplicacions segmentàries (DSs), o també anomenades duplicons o Low copy Repeats (LCRs), són regions de coma mínim 1 kb amb un alt nivell d'identitat (>90%), que estan presents almenys dues vegades en el genoma. La regió 8p23.1 consta de 6.5 Mb a la part distal del braç curt del cromosoma 8 i està flanquejada per duplicacions segmentàries. Degut a la seva arquitectura genòmica aquesta regió és susceptible a patir reordenaments mediats per recombinació homòloga no al·lèlica entre les DSs, com per exemple la inversió polimòrfica de 8p23.1 [inv(8)(p23)], present en un de cada quatre individus de la població general europea i japonesa, així com d'altres reorganitzacions menys corrents.El treball realitzat en aquesta tesi doctoral pretén aprofundir en la caracterització de la complexa arquitectura genòmica d'aquesta regió. En la nostra primera aproximació a l'estudi de les DSs que flanquegen la regió cromosòmica 8p23.1, es va identificar una nova família gènica específica de primats, la família gènica FAM90A.Així, bona part d'aquesta tesi doctoral està centrada en l'anàlisi de l'origen, formació, evolució i expansió de FAM90A en els homínids. Per altra banda també s'ha analitzant en detall la variabilitat de FAM90A com a variant en número de còpia (CNV) en diferents poblacions humanes.Finalment, s'ha establert la freqüència de la inversió que afecta a 8p23.1 en població espanyola. També s'ha procedit a genotipar diversos individus homozigots per la inversió i s'ha predit l' estatus de la inversió en 150 individus del projecte HapMap i s'ha analitzat l'efecte que té aquesta reorganització sobre els nivells d'expressió dels gens de la regió. / Segmental duplications (SDs), also known as duplicons or Low Copy Repeats (LCRs), are regions of a minimum of 1 kb with a high sequence identity level (>90%), which are present at least two times in the genome. The 8p23.1 region extends 6.5 Mb at the distal part of the short arm of chromosome 8 and it is flanked by segmental duplications. Due to its genomic architecture the region is prone to suffer rearrangements mediated by non-allelic homologous recombination between these SDs, such as the polymorphic inversion of 8p23.1 [inv(8)(p23)], which is present in one out of every four of European and Japanese general population individuals, as well as other less frequent rearrangements.The aim of the work presented in this doctoral thesis is to get insights in the characterization of the genomic architecture of this complex region. Our first approach to study the SDs flanking 8p23.1 region resulted in the identification of a novel gene family which is primate specific, the FAM90A gene family. Thus, this doctoral thesis is mainly focused on the analysis of the origins, formation, evolution and expansion of FAM90A in hominoids. It has also been analyzed in detail the variability of FAM90A as a copy number variant (CNV) in different human populations.Finally, it has been established the frequency of the inversion affecting 8p23.1 region in the Spanish population. Several homozygous inverted individuals have been genotyped and the status for the inversion has been predicted for 150 HapMap individuals, as well as the effect of this rearrangement on the gene expression levels of the genes contained in the region.
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