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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.
61

Incorporation of Genetic Marker Information in Estimating Modelparameters for Complex Traits with Data From Large Complex Pedigrees

Luo, Yuqun 20 December 2002 (has links)
No description available.
62

Using DNA markers to trace pedigrees and population substructure and identify associations between major histocompatibility regions and disease resistance in rainbow trout (Oncorhynchus mykiss)

Johnson, Nathan Allen 28 August 2007 (has links)
Examination of variation at polymorphic microsatellite loci is a widely accepted method for determining parentage and examining genetic diversity within rainbow trout (Oncorhynchus mykiss) breeding programs. Genotyping costs are considerable; therefore, we developed a single-step method of co-amplifying twelve microsatellite loci in two hexaplex reactions. The protocol is explicitly described to ensure reproducible results. I applied the protocol to samples previously analyzed at the National Center for Cool and Coldwater Aquaculture (NCCCWA) with previously reported marker sets for a comparison of results. Each marker within the multiplex system was evaluated for duplication, null alleles, physical linkage, and probability of genotyping errors. Data from four of the 12 markers were excluded from parental analysis based on these criteria. Parental assignments were compared to those of a previous study that used five independently amplified microsatellites. Percentages of progeny assigned to parents were higher using the subset of eight markers from the multiplex system than with five markers used in the previous study (98% vs. 92%). Through multiplexing, use of additional markers improved parental allocation while also improving efficiency by reducing the number of PCR reactions and genotyping runs required. I evaluated the methods further through estimation of F-statistics, pairwise genetic distances, and cluster analysis among brood-years at the NCCCWA facility. These estimates were compared to those from nine independently amplified microsatellites used in a previous study. Fst metrics calculated between brood-years showed similar values of genetic differentiation using both marker sets. Estimates of individual pairwise genetic distances were used for constructing neighbor-joining trees. Both marker-sets yielded trees that showed similar subpopulation structuring and agreed with results from a model-based cluster analysis and available pedigree information. These approaches for detecting population substructure and admixture portions within individuals are particularly useful for new breeding programs where the founders' relatedness is unknown. The 2005 NCCCWA brood-year (75 full-sib families) was challenged with Flavobacterium psychrophilum, the causative agent of bacterial coldwater disease (BCWD). The overall mortality rate was 70%, with large variation among families. Resistance to the disease was assessed by monitoring post-challenge days-to-death. Phenotypic variation and additive genetic variation were estimated using mixed models of survival analysis. The microsatellite markers used were previously isolated from BAC clones that harbor genes of interest and mapped onto the rainbow trout genetic linkage map. A general relationship between UBA gene sequence types and MH-IA-linked microsatellite alleles indicated that microsatellites mapped near or within specific major histocompatibility (MH) loci reliably mark sequence variation at MH genes. The parents and grandparents of the 2005 brood-year families were genotyped with markers linked to the four MH genomic regions (MH-IA, MH-IB, TAP1, and MH-II) to assess linkage disequilibrium (LD) between those genomic regions and resistance to BCWD. Family analysis suggested that MH-IB and MH-II markers are linked to BCWD survivability. Tests for disease association at the population level substantiated the involvement of MH-IB with disease resistance. The impact of MH sequence variation on selective breeding for disease resistance is discussed in the context of aquaculture production. / Master of Science
63

Efficient Bayesian methods for mixture models with genetic applications / Métodos Bayesianos eficientes para modelos de mistura com aplicações em genética

Zuanetti, Daiane Aparecida 14 December 2016 (has links)
We propose Bayesian methods for selecting and estimating different types of mixture models which are widely used inGenetics and MolecularBiology. We specifically propose data-driven selection and estimation methods for a generalized mixture model, which accommodates the usual (independent) and the first-order (dependent) models in one framework, and QTL (quantitativetrait locus) mapping models for independent and pedigree data. For clustering genes through a mixture model, we propose three nonparametric Bayesian methods: a marginal nested Dirichlet process (NDP), which is able to cluster distributions and, a predictive recursion clustering scheme (PRC) and a subset nonparametric Bayesian (SNOB) clustering algorithm for clustering bigdata. We analyze and compare the performance of the proposed methods and traditional procedures of selection, estimation and clustering in simulated and real datasets. The proposed methods are more flexible, improve the convergence of the algorithms and provide more accurate estimates in many situations. In addition, we propose methods for estimating non observable QTLs genotypes and missing parents and improve the Mendelian probability of inheritance of nonfounder genotype using conditional independence structures.We also suggest applying diagnostic measures to check the goodness of fit of QTLmappingmodels. / Nos propomos métodos Bayesianos para selecionar e estimar diferentes tipos de modelos de mistura que são amplamente utilizados em Genética e Biologia Molecular. Especificamente, propomos métodos direcionados pelos dados para selecionar e estimar um modelo de mistura generalizado, que descreve o modelo de mistura usual (independente) e o de primeira ordem numa mesma estrutura, e modelos de mapeamento de QTL com dados independentes e familiares. Para agrupar genes através de modelos de mistura, nos propomos três métodos Bayesianos não-paramétricos: o processo de Dirichlet aninhado que possibilita agrupamento de distribuições e, um algoritmo preditivo recursivo e outro Bayesiano não- paramétrico exato para agrupar dados de alta dimensão. Analisamos e comparamos o desempenho dos métodos propostos e dos procedimentos tradicionais de seleção e estimação de modelos e agrupamento de dados em conjuntos de dados simulados e reais. Os métodos propostos são mais flexíveis, aprimoram a convergência dos algoritmos e apresentam estimativas mais precisas em muitas situações. Além disso, nos propomos procedimentos para estimar o genótipo não observável dos QTL se de pais faltantes e melhorar a probabilidade Mendeliana de herança genética do genótipo dos descendentes através da estrutura condicional de independência entre as variáveis. Também sugerimos aplicar medidas de diagnóstico para verificar a qualidade do ajuste dos modelos de mapeamento de QTLs.
64

Importância da detecção de mutações do gene ATP7B para o diagnóstico da doença de Wilson / The importance of detecting ATP7B gene mutations for the diagnosis of Wilson\'s disease

Araújo, Thiago Ferreira de 09 May 2014 (has links)
O diagnóstico da doença de Wilson (DW) é realizado por exames clínicos, laboratoriais, anatomopatológicos e de imagem. Mais de 500 mutações no gene ATP7B foram descritas como causadoras da DW. Para avaliar a importância da detecção de mutações no diagnóstico da DW em nosso meio, analisamos 35 pacientes com DW, 20 familiares de wilsonianos a partir de rastreamento familiar, 18 com hepatite crônica criptogênica e sete com insuficiência hepática aguda grave. Para o diagnóstico da DW foi utilizado o sistema de escore sugerido pela Sociedade Europeia para o Estudo do Fígado de 2012. Os dados demográficos, clínicos, laboratoriais e histológicos foram obtidos retrospectivamente. Obteve-se o DNA genômico de cada paciente a partir de sangue periférico e realizou-se o sequenciamento direto dos 21 éxons e suas bordas intrônicas do gene ATP7B. Todos os pacientes com DW apresentavam no mínimo quatro pontos. No grupo de rastreamento familiar o sequenciamento foi importante para o diagnóstico de DW em 14 familiares; no grupo de hepatite crônica criptogênica em oito pacientes e no grupo de insuficiência hepática aguda grave em três pacientes. Foi caracterizada uma família com cinco genótipos diferentes (dois homozigotos p.A1135Qfs/p.A1135Qfs e p.M645R/p.M645R), um heterozigoto composto (p.A1135Qfs/p.M645R) e dois heterozigotos simples (p.A1135Qfs/0 e p.M645R/0) com fenótipos variados. Foram detectadas duas mutações em heterozigose simples em pacientes com insuficiência hepática aguda grave. A mutação p.A1135Qfs e p.L708P foram as mais frequentes em todos os grupos. Foi identificada pela primeira vez a mutação p.M645R em homozigose. Concluímos que os resultados confirmaram que o sequenciamento do gene ATP7B foi útil: 1) para confirmar que as mutações p.A1135Qfs e p.L708P são as mais importantes na população brasileira; 2) para demonstrar que a mutação tida como a mais frequente na Europa, a p.H1069Q, tem bem menor importância em nosso meio, embora mais frequentemente do que o observado anteriormente; 3) para confirmar (ou excluir) precocemente o diagnóstico e evitar a realização de exames desnecessários e invasivos e iniciar (ou não realizar) o tratamento, com base mais sólida, em pacientes com hepatopatia crônica idiopática e em familiares de portadores de DW; 4) para definir o diagnóstico de DW em casos de insuficiência hepática aguda grave, diagnóstico ainda que tardio, mas de suma importância para realização de estudo familiar subsequente, 5) para identificação não esperada de heterozigotos simples e polimorfismos de significado ainda não esclarecido em pacientes com insuficiência hepática aguda grave; 6) para identificação de casos inusitados de três genótipos diferentes causadores da doença na mesma família (homozigose de duas mutações diferentes e heterozigose composta); 7) para melhor definir que a mutação p.M645R em homozigose tem potencial para desenvolver a DW, embora resultados de estudos em in vitro sugiram função normal da proteína defeituosa sintetizada; 8) para definir que há casos de doentes com a mutação p.M645R em heterozigose composta de evolução extremamente benigna, com diagnóstico após a quinta década de vida, com discretas alterações hepáticas. Porém há casos com evolução mais grave tanto do ponto de vista hepático quanto neurológico, possivelmente influenciados pelas mutações que a acompanham / Wilson\'s disease (WD) is an autosomal recessive disorder secondary to mutations in the ATP7B gene resulting in toxic accumulation of copper in various tissues. The diagnosis of WD is made by the analysis of clinical, laboratory, histological findings and imaging tests. More than 500 mutations have been described in the ATP7B gene as the cause of WD. In order to expand the knowledge of the importance of mutation detection in the diagnosis of WD, we analyzed 36 patients with WD, 20 individuals from family screening, 18 with cryptogenic chronic hepatitis and seven with severe acute liver failure. For the diagnosis of WD the International Scoring System suggested by the European Association for the Study of the Liver (EASL) in 2012 was used. Demographic, clinical, laboratory and histological data were obtained retrospectively. Direct sequencing of 21 exons and intron boundaries of ATP7B gene was performed in genomic DNA extracted from peripheral blood leucocytes of all subjects. All patients with WD have at least four points of the scoring system without considering the DPA challenge test. In the family screening group, sequencing was important for the diagnosis of DW in fourteen patients; eight patients in the group of cryptogenic chronic hepatitis, and three patients in the group of severe acute liver failure. Five different genotypes were identified in one family (two homozygous, p.A1135Qfs/p.A1135Qfs and p.M645R/p.M645R, one compound heterozygous p.A1135Qfs/p.M645R, and two simple heterozygous p.A1135Qfs/0 and p.M645R/0). Two patients with acute liver failure were detected as simple heterozygous. The p.A1135Qfs and p.L708P were the most frequent mutations in all groups. It is the first time p.M645R mutation was detected in homozygosity. The ATP7B gene sequencing was useful: 1) to confirm that p.A1135Qfs and p.L708P mutations are the most frequent in the Brazilian population; 2) to confirm that the most common mutation in Europe, p.H1069Q has lower frequency in our area; 3) to confirm (or exclude) an early diagnosis and to avoid unnecessary and invasive tests and to initiate (or not) the specific treatment with a stronger basis in patients with chronic liver disease and individuals from family screening of patients with Wilson disease; 4) to confirm the diagnosis, although late, of cases with severe acute liver failure, but very important to perform family screening; 5) to identify simple heterozygotes in patients with severe acute liver failure; 6) to describe unusual cases of three different genotypes of WD patients in a same family (two different homozygous mutations and one compound heterozygous); 7) to better define that p.M645R mutation in homozigosity develops WD, although the results from in vitro studies suggested a normal function for the defective synthesized protein; 8) to define that there are patients with p.M645R mutations in compound heretozigosity with a very benign clinical picture, with late diagnosis, after the fifth decade of life, with mild liver alterations. However, there are patients with a more severe clinical evaluation, hepatic or neurologic, probably secondary to the influence of the other mutation
65

Molecular Marker Applications in Oat (Avena Sativa L.) Breeding and Germplasm Diagnostics

Benazir Katarina, Marquez 27 May 2014 (has links)
The ability to identify germplasm and select traits accurately is fundamental to successful plant breeding. Pedigrees and molecular markers facilitate these processes; however misleading experimental results can occur when incorrect relationships and/or cultivar names are recorded. Molecular markers can identify these inconsistencies, and with advances in genotyping technology these diagnostics can be done faster and more objectively. This study aimed to develop molecular marker assays and graphical genotyping methodologies for cultivar identification, seed purity assessment and trait selection in oat (Avena sativa L.). KBioscience’s Allele-Specific PCR (KASP™) and genotyping-by-sequencing (GBS) technologies were applied to a set of current Canadian oat cultivars to evaluate their utility for identifying cultivars and detecting intra-cultivar variation. Both KASP™ and GBS detected different extents of heterogeneity among a set of 160 seeds that originated from four seed sources of four cultivars. In both cases, the detected variation did not appear to be limited to a specific cultivar or seed source, reinforcing that all cultivars are heterogeneous. Graphical genotyping localized heterogeneity to specific chromosome regions, thereby distinguishing physical contamination from true genetic heterogeneity and heterozygosity. Pre-existing genotype data for 700 oat cultivars and breeding lines were also used to construct graphical genotypes for pedigree validation and discovery of potential sources for favourable quantitative trait loci (QTL) alleles. This methodology used historical QTLs and anchoring markers to identify 25 putative “high oil” allele carriers. The results from this study will provide diagnostic tools for cultivar identification and pedigree validation, in addition to meaningful information about existing heterogeneity and possible QTL locations in current cultivars.
66

Importância da detecção de mutações do gene ATP7B para o diagnóstico da doença de Wilson / The importance of detecting ATP7B gene mutations for the diagnosis of Wilson\'s disease

Thiago Ferreira de Araújo 09 May 2014 (has links)
O diagnóstico da doença de Wilson (DW) é realizado por exames clínicos, laboratoriais, anatomopatológicos e de imagem. Mais de 500 mutações no gene ATP7B foram descritas como causadoras da DW. Para avaliar a importância da detecção de mutações no diagnóstico da DW em nosso meio, analisamos 35 pacientes com DW, 20 familiares de wilsonianos a partir de rastreamento familiar, 18 com hepatite crônica criptogênica e sete com insuficiência hepática aguda grave. Para o diagnóstico da DW foi utilizado o sistema de escore sugerido pela Sociedade Europeia para o Estudo do Fígado de 2012. Os dados demográficos, clínicos, laboratoriais e histológicos foram obtidos retrospectivamente. Obteve-se o DNA genômico de cada paciente a partir de sangue periférico e realizou-se o sequenciamento direto dos 21 éxons e suas bordas intrônicas do gene ATP7B. Todos os pacientes com DW apresentavam no mínimo quatro pontos. No grupo de rastreamento familiar o sequenciamento foi importante para o diagnóstico de DW em 14 familiares; no grupo de hepatite crônica criptogênica em oito pacientes e no grupo de insuficiência hepática aguda grave em três pacientes. Foi caracterizada uma família com cinco genótipos diferentes (dois homozigotos p.A1135Qfs/p.A1135Qfs e p.M645R/p.M645R), um heterozigoto composto (p.A1135Qfs/p.M645R) e dois heterozigotos simples (p.A1135Qfs/0 e p.M645R/0) com fenótipos variados. Foram detectadas duas mutações em heterozigose simples em pacientes com insuficiência hepática aguda grave. A mutação p.A1135Qfs e p.L708P foram as mais frequentes em todos os grupos. Foi identificada pela primeira vez a mutação p.M645R em homozigose. Concluímos que os resultados confirmaram que o sequenciamento do gene ATP7B foi útil: 1) para confirmar que as mutações p.A1135Qfs e p.L708P são as mais importantes na população brasileira; 2) para demonstrar que a mutação tida como a mais frequente na Europa, a p.H1069Q, tem bem menor importância em nosso meio, embora mais frequentemente do que o observado anteriormente; 3) para confirmar (ou excluir) precocemente o diagnóstico e evitar a realização de exames desnecessários e invasivos e iniciar (ou não realizar) o tratamento, com base mais sólida, em pacientes com hepatopatia crônica idiopática e em familiares de portadores de DW; 4) para definir o diagnóstico de DW em casos de insuficiência hepática aguda grave, diagnóstico ainda que tardio, mas de suma importância para realização de estudo familiar subsequente, 5) para identificação não esperada de heterozigotos simples e polimorfismos de significado ainda não esclarecido em pacientes com insuficiência hepática aguda grave; 6) para identificação de casos inusitados de três genótipos diferentes causadores da doença na mesma família (homozigose de duas mutações diferentes e heterozigose composta); 7) para melhor definir que a mutação p.M645R em homozigose tem potencial para desenvolver a DW, embora resultados de estudos em in vitro sugiram função normal da proteína defeituosa sintetizada; 8) para definir que há casos de doentes com a mutação p.M645R em heterozigose composta de evolução extremamente benigna, com diagnóstico após a quinta década de vida, com discretas alterações hepáticas. Porém há casos com evolução mais grave tanto do ponto de vista hepático quanto neurológico, possivelmente influenciados pelas mutações que a acompanham / Wilson\'s disease (WD) is an autosomal recessive disorder secondary to mutations in the ATP7B gene resulting in toxic accumulation of copper in various tissues. The diagnosis of WD is made by the analysis of clinical, laboratory, histological findings and imaging tests. More than 500 mutations have been described in the ATP7B gene as the cause of WD. In order to expand the knowledge of the importance of mutation detection in the diagnosis of WD, we analyzed 36 patients with WD, 20 individuals from family screening, 18 with cryptogenic chronic hepatitis and seven with severe acute liver failure. For the diagnosis of WD the International Scoring System suggested by the European Association for the Study of the Liver (EASL) in 2012 was used. Demographic, clinical, laboratory and histological data were obtained retrospectively. Direct sequencing of 21 exons and intron boundaries of ATP7B gene was performed in genomic DNA extracted from peripheral blood leucocytes of all subjects. All patients with WD have at least four points of the scoring system without considering the DPA challenge test. In the family screening group, sequencing was important for the diagnosis of DW in fourteen patients; eight patients in the group of cryptogenic chronic hepatitis, and three patients in the group of severe acute liver failure. Five different genotypes were identified in one family (two homozygous, p.A1135Qfs/p.A1135Qfs and p.M645R/p.M645R, one compound heterozygous p.A1135Qfs/p.M645R, and two simple heterozygous p.A1135Qfs/0 and p.M645R/0). Two patients with acute liver failure were detected as simple heterozygous. The p.A1135Qfs and p.L708P were the most frequent mutations in all groups. It is the first time p.M645R mutation was detected in homozygosity. The ATP7B gene sequencing was useful: 1) to confirm that p.A1135Qfs and p.L708P mutations are the most frequent in the Brazilian population; 2) to confirm that the most common mutation in Europe, p.H1069Q has lower frequency in our area; 3) to confirm (or exclude) an early diagnosis and to avoid unnecessary and invasive tests and to initiate (or not) the specific treatment with a stronger basis in patients with chronic liver disease and individuals from family screening of patients with Wilson disease; 4) to confirm the diagnosis, although late, of cases with severe acute liver failure, but very important to perform family screening; 5) to identify simple heterozygotes in patients with severe acute liver failure; 6) to describe unusual cases of three different genotypes of WD patients in a same family (two different homozygous mutations and one compound heterozygous); 7) to better define that p.M645R mutation in homozigosity develops WD, although the results from in vitro studies suggested a normal function for the defective synthesized protein; 8) to define that there are patients with p.M645R mutations in compound heretozigosity with a very benign clinical picture, with late diagnosis, after the fifth decade of life, with mild liver alterations. However, there are patients with a more severe clinical evaluation, hepatic or neurologic, probably secondary to the influence of the other mutation
67

Molecular Marker Applications in Oat (Avena Sativa L.) Breeding and Germplasm Diagnostics

Benazir Katarina, Marquez January 2014 (has links)
The ability to identify germplasm and select traits accurately is fundamental to successful plant breeding. Pedigrees and molecular markers facilitate these processes; however misleading experimental results can occur when incorrect relationships and/or cultivar names are recorded. Molecular markers can identify these inconsistencies, and with advances in genotyping technology these diagnostics can be done faster and more objectively. This study aimed to develop molecular marker assays and graphical genotyping methodologies for cultivar identification, seed purity assessment and trait selection in oat (Avena sativa L.). KBioscience’s Allele-Specific PCR (KASP™) and genotyping-by-sequencing (GBS) technologies were applied to a set of current Canadian oat cultivars to evaluate their utility for identifying cultivars and detecting intra-cultivar variation. Both KASP™ and GBS detected different extents of heterogeneity among a set of 160 seeds that originated from four seed sources of four cultivars. In both cases, the detected variation did not appear to be limited to a specific cultivar or seed source, reinforcing that all cultivars are heterogeneous. Graphical genotyping localized heterogeneity to specific chromosome regions, thereby distinguishing physical contamination from true genetic heterogeneity and heterozygosity. Pre-existing genotype data for 700 oat cultivars and breeding lines were also used to construct graphical genotypes for pedigree validation and discovery of potential sources for favourable quantitative trait loci (QTL) alleles. This methodology used historical QTLs and anchoring markers to identify 25 putative “high oil” allele carriers. The results from this study will provide diagnostic tools for cultivar identification and pedigree validation, in addition to meaningful information about existing heterogeneity and possible QTL locations in current cultivars.
68

Methodische Grundlagen der Züchtung von Saflor (<i>Carthamus tinctorius L.</i>) für den ökologischen Landbau / Safflower as a new oil crop in organic farming: Breeding methodology and rapid analysis of seed quality

Rudolphi, Sabine 24 May 2007 (has links)
No description available.
69

Detecting structural variants in the DNA of the inbred Scandinavian wolf

Huson, 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.
70

Estudo do gene do hormônio de crescimento hipofisário (GH1) em indivíduos com baixa estatura idiopática / Study of Growth Hormone 1 gene (GH1) in children with idiophatic short stature

Lido, Ândria Carla Vito 05 August 2014 (has links)
O sistema hormônio de crescimento (GH) / fator de crescimento insulina- símile tipo 1 (IGF-1) é o principal determinante e regulador do crescimento linear pósnatal. O GH é codificado pelo gene Growth Hormone 1 (GH1). Mutações no GH1 com efeito dominante negativo e herança autossômica dominante são as principais causas monogênicas de deficiência isolada de hormônio de crescimento (DIGH), enquanto deleções ou mutações de ponto no GH1 causam formas raras autossômicas recessivas de DIGH. No grupo de pacientes com DIGH do ambulatório de Endocrinologia do Desenvolvimento do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo, foram identificadas apenas deleções em homozigose no GH1 mesmo após estudo criterioso deste gene. Esta diferença em relação aos dados descritos na literatura poderia ser justificada pelo critério diagnóstico para a DIGH adotado pelo nosso grupo, sendo utilizado pico de GH em teste de estímulo inferior a 3,3 ug/L, em contraste com os valores de corte descritos na literatura que variam de 7 a 10 ug/L. Devido a esse fator, pacientes com mutações no GH1 com herança autossômica dominante poderiam estar sendo erroneamente diagnosticados como portadores de baixa estatura familiar ou idiopática (BEI) em nosso serviço. Adicionalmente, mutações que originam moléculas de GH biologicamente inativas também poderiam estar presentes nestes pacientes. Pelos fatores acima apresentados, expandimos o estudo do GH1 para um grupo de crianças classificadas como BEI. Foram selecionadas 98 de 487 crianças avaliadas em nosso serviço com baixa estatura utilizando os seguintes critérios: peso e comprimento normais para idade gestacional ao nascimento, escore-Z da altura < -2, escore-Z do IGF-1 < -1 e pico de resposta de GH >= 3,3 ug/L no teste de estímulo. DNA foi extraído de leucócitos periféricos desses pacientes para rastreamento de mutações no gene GH1. Realizamos estudo molecular por reação em cadeia da polimerase e sequenciamento automático de toda a região codificadora do GH1. Segregação familiar foi realizada para as variantes alélicas identificadas. Em nossa casuística, foram identificadas 10 variantes alélicas nos éxons 4 e 5 e no íntron 4 do GH1, sendo três variantes ainda não descritas na literatura (c.407G > A/p.Val122Ile, c.507C > T/p.Tyr169Tyr e c.456+19G > T). A análise in silico de todas as variantes identificadas indicou ausência de predição de efeito deletério sobre a proteína do GH. Estudo complementar realizado pelo nosso grupo identificou em crianças diagnosticadas com DIGH grave apenas uma paciente com mutação no GH1 responsável pela forma dominante desta doença. Em conclusão, mutações no GH1 causadoras da forma autossômica dominante de DIGH ou Tipo II não foram encontradas em nossa casuística, o que sugere que estas mutações sejam infrequentes em nossa população / The growth hormone (GH) / insulin-like growth factor-1 (IGF-1) axis is the most important hormonal regulator of post-natal linear growth. GH is encoded by the Growth Hormone 1 gene (GH1). Mutations in GH1 with dominant inheritance, which exerts a dominant negative effect on the bioactive GH isoforms, are the main causes of monogenic isolated deficiency of growth hormone (IGHD), while deletions or point mutations in GH1 are responsible for a rare autosomal recessive form of IGHD. However, only homozygous deletions were identified in patients with IGHD from Unidade de Endocrinologia do Desenvolvimento do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo, even after detailed investigation of GH1. This difference regarding to literature can be caused by different criteria used to diagnose IGHD in our group, which adopted the cutoff value of peak GH < 3.3ug/L in response to stimulation test, in contrast to literature that describes other groups that use the cutoff peak value of the 7 - 10ug/L. Consequently, patients with autosomal dominant inheritance mutations in GH1 could be being erroneously diagnosed, as having idiopathic short stature (ISS) in our group. Additionally, mutations that cause biologically inactive GH can also be responsible for short stature in these patients. Due to the factors described above, we decided to screen mutations in GH1 in a group of children classified as ISS. We selected 98 of 487 children followed in our department with short stature according to the following criteria: normal birth weight and length for gestational age, height SDS <= -2, IGF-1 SDS < -1 and peak GH in stimulation test >= 3.3 ug/L. Genomic DNA was extracted from peripheral blood leucocytes of the patients to screen for mutations in GH1. We performed molecular analysis by polymerase chain reaction and automated sequencing of the entire coding region of the GH1. Segregation analysis was performed in the presence of allelic variations. In our casuistic, we identified 10 allelic variants in exon 4, exon 5 and intron 4 of GH1, three of which have not been described (c.407G > A/p.Val122Ile, c.507C > T/p.Tyr169Tyr and c.456+19G >T). In silico analysis predicted that none of the mutant alleles would result in deleterious effect on the GH protein. An additional study in children diagnosed with severe IGHD, identified just one patient with the pathogenic GH1 mutation responsible for the dominant form of this disease. In summary, defects in GH1 responsible for the autosomal dominant form of IGHD or Type II were not found in our cohort of Brazilian patients, suggesting that these mutations are infrequent in our population

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