Avanços no diagnóstico genético da puberdade precoce central / Advances in the genetic diagnosis of central precocious puberty

Pazolini, Marina Cunha Silva

20 July 2018

Avanços recentes na etiologia da puberdade precoce foram obtidos a partir da análise do genoma por sequenciamento global. Mutações inativadoras do gene MKRN3 representam uma causa importante de puberdade precoce central (PPC) familial (33-46% dos casos). O objetivo do estudo foi a análise do DNA genômico de pacientes com PPC de origem familial ou esporádica sem mutações deletérias no gene MKRN3. Foram selecionados 68 indivíduos com PPC (37 com a forma familial e 31, aparentemente, esporádicos). O DNA genômico foi extraído do sangue periférico ou da saliva dos pacientes com PPC. A técnica de sequenciamento genômico em larga escala (ILLUMNA -Clonal Single Molecule Array Technology - CSMA) foi usada na busca de novos genes implicados com o desenvolvimento puberal prematuro em seis indivíduos, sendo três afetados e três não afetados, pertencentes a uma grande família brasileira com PPC (Família 1). Mutações em um gene candidato foram pesquisadas em 64 pacientes por sequenciamento automático direto (método de Sanger). Em um subgrupo de pacientes, foi realizada a técnica de MLPA com sondas customizadas na busca de deleções. Por sequenciamento genômico global, foi identificado um novo complexo rearranjo no gene DLK1, caracterizado por uma deleção de, aproximadamente, 14.000 pb na região 5\' não traduzida (5\'UTR), englobando o início do exon 1, associada a uma duplicação de uma região do intron 3 de 269 pb. O gene DLK1 está localizado no braço longo do cromossomo 14 (14q32.2) e sofre imprinting materno. Este lócus está associado à síndrome de Temple, uma doença complexa com múltiplas manifestações, incluindo puberdade precoce central em até 90% dos casos. Para investigar o efeito dessa deleção genômica, as concentrações séricas da proteína DLK1 pelo método ELISA foram medidas nas pacientes afetadas da Família 1. Valores indetectáveis de DLK1 foram encontrados nestas pacientes. O fenótipo das pacientes afetadas da Família 1 caracterizou-se por uma PPC típica, sem sinais sindrômicos (excluída a síndrome de Temple). Posteriormente, por meio do sequenciamento direto, duas novas mutações inativadoras no gene DLK1 foram identificadas (p.Val272Cysfs*14 e p.Pro160Leufs*50) em duas famílias (Famílias 2 e 3) com PPC ou história de menarca precoce. O estudo de segregação nas Famílias 1 e 2 confirmou o padrão de herança autossômico dominante com penetrância completa e transmissão exclusiva pelo alelo paterno. A média de idade de início da puberdade nas pacientes afetadas do sexo feminino foi de 5,4 anos. A técnica de MLPA com sondas customizadas para o gene DLK1 não encontrou outras deleções no subgrupo estudado. Em conclusão, foram identificadas três mutações inativadoras no gene DLK1 associadas à PPC familial de origem paterna. O DLK1 é o segundo gene imprintado associado a distúrbios puberais em humanos. Este achado sugere um papel dos genes imprintados no controle da puberdade. O mecanismo pelo qual esse gene afeta a puberdade ainda é desconhecido / Recent advances in the etiology of precocious puberty were obtained from the whole-genome sequencing analysis. Inactivating mutations of the MKRN3 gene represent a major cause of familial central precocious puberty (CPP) (33%- 46% of the cases). The objective of the study was to analyze the genomic DNA of patients with familial or sporadic CPP without deleterious mutations in the MKRN3 gene. Sixty-eight individuals with CPP (37 with familial form and 31 apparently sporadic cases) were selected. The genomic DNA was extracted from the peripheral blood or saliva of patients with CPP. We used the whole-genomic sequencing technique (ILLUMNA - Clonal Single Molecule Array Technology - CSMA) searching for a new candidate genes implicated in premature pubertal development in 6 individuals, 3 affected and 3 non-affected, belonging to a large Brazilian family with CPP (Family 1). Mutations in one candidate gene were investigated in 64 patients through automatic sequencing (Sanger\'s method). In a subgroup of patients, MLPA using synthetic MLPA probes was performed to search for deletions. A new complex rearrangement in the DLK1 gene characterized by a deletion of approximately 14.000pb in the 5\' untranslated (5\'UTR), encompassing the start of exon 1, associated with a duplication of a region of intron 3 of 269 bp was identified by whole-genomic sequencing. The DLK1 gene is located on the long arm of chromosome 14 (14q32.2) and it is maternally imprinted gene. This locus is associated with Temple syndrome, a complex disorder with multiple alterations, including central precocious puberty in up to 90% of cases. To investigate the effect of this genomic deletion, a serum measurement of DKL1 protein using ELISA method was performed in the affected patients from Family 1. Undetectable serum DLK1 levels were found in these patients. The phenotype of affected patients from Family 1 was characterized by a typical CPP, without syndromic signs (excluding Temple syndrome). Posteriorly, two new inactivating mutations in the gene DLK1 were identified (p.Val272Cysfs*14 and p.Pro160Leufs*50) through direct sequencing in two families (Families 2 and 3) with CPP or precocious menarche history. The segregation studies in Families 1 and 2 confirmed the pattern of dominant autosomal inheritance with complete penetrance and exclusive transmission by the paternal allele. The average age of puberty onset in the affected female patients was 5.4 years. The MLPA technique with synthetic MLPA probes for the DLK1 gene did not find other deletions in the studied subgroup. In conclusion, we identified 3 paternally inherited inactivating mutations in the DLK1 gene associated with familial CPP. The DLK1 is the second imprinted gene associated with pubertal disorders in humans. This finding suggests a role of the imprinted genes in puberty control. The mechanism through which this gene affects puberty is still unknown

DLK1 gene

Familial central precocious puberty

Gene DLK1

Genetic techniques

Loss of function mutation

Mutação com perda de função

Puberdade precoce

Puberdade precoce central familial

Puberty precocious

Sequenciamento completo do genoma

Técnicas genéticas

Whole genome sequencing

Phylogeography, population structure and distribution of genetic variation across the Leishmania donovani species complex with emphasis on the Indian subcontinent

Stark, Olivia

10 March 2017

Erreger des Leishmania donovani Komplexes (LDC) verursachen viszerale Leishmaniose (VL), eine der häufigsten durch Sandmücken übertragenen Infektionskrankheiten beim Menschen. Die vorliegende von der EU geförderte Dissertation untersucht die weltweite Populationsstruktur des LDC mit besonderem Schwerpunkt auf dem Indischen Subkontinent (ISC), wo das gehäufte Auftreten von Therapieversagen ein Problem für die geplante Eliminierung von VL darstellt. Zwei hoch diskriminierende molekulare Typisierungsverfahren wurden angewendet. 845 LDC-Isolate wurden mittels Multi-Lokus-Mikrosatelliten-Typisierung (MLMT) charakterisiert. Die Parasiten wurden in Gebieten mit endemischer VL aus unterschiedlichen Wirten isoliert und repräsentieren verschiedene klinische Formen der Leishmaniose. Eine 125 Parasiten umfassende Teilprobe wurde vollständig sequenziert und in einem next-generation Multi-Lokus-Sequenz-Ansatz (ng-MLSA) typisiert, welcher auf der Analyse von genomweiten Single-Nukleotid-Polymorphismen (SNP) beruht. Sowohl die MLMT- als auch die SNP-Daten wurden mit den gleichen populationsgenetischen Methoden ausgewertet. Der ng-MLSA Ansatz bestätigte weitgehend die Populationsstrukturen des mit dem MLMT analysierten größeren Datensatzes, die genetische Struktur korrelierte mit der geographischen Herkunft der Isolate. Die Unempfänglichkeit der Parasiten gegenüber Antimon- oder Miltefosin sowie die in vitro gemessene Resistenz der Isolate vom ISC konnten nicht auf einen spezifischen Genotyp zurückgeführt oder mit einem spezifischen genetischen Merkmal verknüpft werden. Die Gesamtgenomsequenzierung konnte bisher keine Mutationen im Parasitengenom nachweisen, die in Zusammenhang mit der Antimon- und Miltefosin-Unempfindlichkeit bzw. dem Therapieversagen gebracht werden könnten. Analysen basierend auf ausgewählten Sequenzen deuten auf eine variable chromosomale Ploidie und eine erhöhte Kopienzahl einiger Gene hin, die zur Entstehung von Arzneimittelresistenzen beitragen könnten. / Parasites of the Leishmania donovani species complex (LDC) cause most cases of visceral leishmaniasis (VL), one of the most fatal vector-borne parasitic human diseases. As part of an EU funded project, this dissertation has investigated the worldwide genetic population structure of parasites of the LDC, with special focus on the Indian subcontinent (ISC) where unresponsiveness to anti-leishmanial drugs has recently become an urgent problem for the containment of VL. Two types of highly discriminatory approaches have been used. Multi-locus microsatellite typing (MLMT) has been applied to 845 LDC isolates from numerous Old and New World foci of VL, from different clinical forms of the disease and from various hosts. A subset of 125 fully sequenced isolates, reflecting the worldwide distribution of the LDC, was analysed using a next-generation multi-locus sequence approach (ng-MLSA) including single nucleotide polymorphisms (SNP). Both microsatellite and SNP data sets were analysed using, in general, the same population genetic tools. The ng-MLSA approach has, in general, corroborated the population structures obtained with MLMT for the larger data set. With the exception of non MON-1 parasites, the genetic structure revealed was largely associated with the geographic origin of the isolates, but not with the clinical presentation, host specificity and the immune status of the host or year of parasite isolation. Unresponsiveness to antimony or miltefosine treatment as well as the respective resistances measured in vitro could not be linked to a specific genotype or genetic trait. Wg sequencing also failed, so far, to identify mutations, which could be related to the unresponsiveness of LDC isolates from the ISC to antimony and miltefosine therapy. Analyses of selected targets have revealed extensive variation in chromosomal ploidy in all wg sequenced isolates under study and copy number variations for some genes possibly involved in drug resistance.

Populationsgenetik

Leishmania donovani Spezies Komplex

Microsatellite Typisierung

Gesamtgenomcharakterisierung

Population genetics

Leishmania donovani species complex

Microsatellite typing

whole-genome characterisation

570 Biowissenschaften, Biologie

32 Biologie

YD 9504

WG 8715

ddc:570

Caracterização molecular de linhagens de Salmonella Typhimurium isoladas de humanos, alimentos, animais e ambiente no Brasil / Molecular characterization of Salmonella Typhimurium strains isolated from humans, food, animals and environment in Brazil

Almeida, Fernanda de

17 March 2016

Salmonella spp. é reconhecida como uma das bactérias que mais causam doenças de origem alimentar no mundo. Dentre as diversas sorovariedades de Salmonella, a Typhimurium é uma das sorovariedades de maior ocorrência no mundo. Várias metodologias de tipagem fenotípicas e genotípicas foram desenvolvidas com o intuito de se delinear a epidemiologia e diversidade genotípica de Salmonella Typhimurium. Entretanto, a tipagem fenotípica é muitas vezes limitada por sua baixa capacidade de diferenciação de subtipos pertencentes a uma mesma sorovariedade de Salmonella, um problema minimizado pelos métodos genotípicos. No Brasil, foram realizados poucos estudos que genotiparam linhagens de S. Typhimurium. Os objetivos deste estudo foram caracterizar linhagens de S. Typhimurium isoladas de humanos, alimentos, animais e ambiente do animal no Brasil quanto ao seu potencial patogênico, perfil de resistência a antimicrobianos e diversidade genotípica. Foram estudadas 119 linhagens de S. Typhimurium, isoladas de material clínico de humanos (43), alimentos diversos (49), material clínico de suínos (22) e do ambiente de suínos (5), entre 1983 e 2013, provenientes de várias Estados do Brasil. A presença de 12 genes de virulência foi pesquisada por PCR. O perfil de resistência a 13 antimicrobianos foi realizado pelo método de discodifusão. A tipagem molecular foi realizada por Pulsed-field gel electrophoresis (PFGE), Enterobacterial repetitive intergenic consensus PCR (ERIC-PCR), Multiple-locus variablenumber tandem-repeats analysis (MLVA), Clustered regularly interspaced short palindromic repeats - Multi-virulence locus sequence typing (CRISPR-MVLST), Multilocus sequence typing (MLST) e sequenciamento do genoma completo para 92 linhagens de S. Typhimurium isoladas de humanos (43) e alimentos (46). As metodologias PFGE, ERIC-PCR e MLVA foram realizadas para 70 linhagens de S. Typhimurium isoladas de humanos (43), animais (22) e ambiente do animal (5). Todas as 119 linhagens apresentaram os genes sipA, flgK, flgL e invA. O gene sipD e o gene sopE2 foram encontrados em 118 (99,2%) linhagens. O gene fljB foi encontrado em 117 (98,3%) linhagens. O gene sopD foi presente em 114 (95,8%) linhagens, o gene sopB em 111 (93,3%) linhagens, o gene ssaR em 102 (85,7%) linhagens, o gene sifA em 86 (72,3%) linhagens e 45 (37,8%) linhagens apresentaram o gene plasmidial spvB. De um total de 119 linhagens, 64 (62,2%) linhagens foram resistentes a pelo menos um dos 13 antimicrobianos testados, sendo que 36 (30,3%) linhagens foram multi-droga resistentes (MDR). Na comparação dos isolados de humanos e alimentos, as linhagens isoladas de humanos antes de meados 1990, ficaram alocadas nos grupos PFGE-A, PFGE-B1, PFGE-B2, ERIC-A, ERIC-B, MLVA-A, MLVA-B1, MLVA-B2 e G1, G2, H para CRISPRMVLST. As linhagens isoladas de humanos após esse período ficaram alocadas nos grupos PFGE-B1, ERIC-A, MLVA-B1, MLVA-B2 e G2. As linhagens isoladas de alimentos ficaram alocadas nos grupos PFGE-A, PFGE-B1, ERIC-A, ERIC-B, MLVA-A, MLVA-B1, MLVAB2, G1 e G2. Por MLST, do total de 92 linhagens isoladas de humanos e alimentos, 77 linhagens foram tipadas como ST19. Pelo sequenciamento do genoma completo, as linhagens isoladas de alimentos e humanos ficaram alocadas no grupos I e J independente das datas de isolamento. Na comparação dos isolados de humanos e animais, as linhagens das duas origens ficaram alocadas nos grupos PFGE-D1, PFGE-D2, ERIC-C1, MLVA-C1 e MLVA-D. ii Conclui-se que a grande prevalência de genes de virulência nas linhagens de S. Typhimurium estudadas reforça o potencial das mesmas causarem doenças em humanos, bem como, os riscos de sua presença em alimentos, animais para consumo humano e ambiente. A ocorrência de S. Typhimurium multi-droga resistentes isoladas de alimentos diversos e de suínos para consumo é um alerta para o possível risco de humanos ingerirem alimentos contaminados por tais linhagens. Em conjunto os resultados de PFGE, ERIC-PCR, MLVA, CRISPR-MVLST sugerem que as linhagens de S. Typhimurium isoladas de humanos eram geneticamente mais diversificadas antes de meados de 1990, o que pode sugerir a seleção de um subtipo de S. Typhimurium mais adaptado, depois que Salmonella Enteritidis tornou-se a sorovariedade de maior ocorrência no Brasil após esse período. Com relação às linhagens isoladas de alimentos, os resultados de PFGE, ERIC-PCR, MLVA e CRISPR-MVLST sugerem que durante o período estudado houve a circulação de mais de um subtipo no país. Os resultados de MLST sugerem que tais linhagens tenham uma origem filogenética comum. Os resultados do sequenciamento do genoma completo sugerem que houve a circulação de mais de um subtipo de S. Typhimurium no país, com relação às linhagens de humanos e alimentos. Também alerta para o possível risco de linhagens MDR isoladas de alimentos contaminarem humanos e/ou disseminarem genes de resistência a antibióticos para linhagens de origem clínica e não clínica. Na comparação dos isolados de humanos e animais, os resultados de PFGE, ERICPCR e MLVA sugerem que algumas linhagens isoladas de suínos e humanos podem descender de um subtipo comum. Ademais, as linhagens MDR isoladas de suínos e do ambiente de suínos alertam para o possível risco de porcos usados para consumo contaminarem humanos, o ambiente e outros porcos. / Salmonella spp. is recognized as one of the most involved bacteria that cause food-borne diseases in the world. Among the various serovars of Salmonella, Typhimurium is one of the most frequent serovars worldwide. Several phenotypic and genotypic typing methods have been developed in order to delineate the epidemiology and genotypic diversity of Salmonella Typhimurium. However, phenotypic typing is often limited by its low capacity to differentiate subtypes belonging to the same serovar of Salmonella, a problem minimized by genotypic methods. In Brazil, few studies have been conducted that genotyped S. Typhimurium strains. The aims of this study were to characterize S. Typhimurium strains isolated from humans, food, animals and animal\'s environment in Brazil regarding its pathogenic potential, antimicrobial resistance and genotypic diversity. We studied 119 S. Typhimurium strains isolated from human clinical material (43), different foods (49), clinical material from pigs (22) and pigs environment (5), between 1983 and 2013 from various States of Brazil. The presence of 12 virulence genes was investigated by PCR. The resistance profile against 13 antimicrobial was performed by the disk diffusion method. Molecular typing was performed by Pulsed-field gel electrophoresis (PFGE), Enterobacterial repetitive intergenic consensus PCR (ERIC-PCR), Multiple-locus variable-number tandem-repeats analysis (MLVA), Clustered regularly interspaced short palindromic repeats - Multi-virulence locus sequence typing (CRISPR-MVLST), Multilocus sequence typing (MLST) and whole genome sequencing for 92 S. Typhimurium strains isolated from humans (43) and food (46). PFGE, ERIC-PCR and MLVA methods were performed for 70 S. Typhimurium strains isolated from humans (43), animals (22) and the animal\'s environment (5). All 119 strains showed the sipA, flgK, flgL and invA genes. The sipD and sopE2 genes were found in 118 (99.2%) strains. The fljB gene was found in 117 (98.3%) strains. The sopD gene was present in 114 (95.8%) strains, the gene sopB in 111 (93.3%) strains, the ssaR gene in 102 (85.7%) strains, the gene sifA in 86 (72.3%) strains and 45 (37.8%) strains showed the plasmid gene spvB. From a total of 119 strains, 64 (62.2%) strains were resistant to at least one of the 13 antimicrobials tested, and 36 (30.3%) strains were multi-drug resistant (MDR). In the comparison of isolates from humans and food, the strains isolated from humans before mid-1990s were allocated in PFGE-A, PFGE-B1, PFGE-B2, ERIC-A, ERIC-B, MLVA-A, MLVA-B1, MLVA-B2 and G1, G2, H for CRISPR-MVLST. The strains isolated from humans after this period were allocated in PFGE-B1, ERIC-A, MLVA-B1, MLVA-B2 and G2 clusters. The strains isolated from food were allocated in PFGE-A, PFGE-B1, ERIC-A, ERIC-B, MLVA-A, MLVA-B1, MLVA-B2, G1 and G2 clusters. By MLST, of the total of 92 strains isolated from humans and food, 77 strains were typed as ST19. By whole genome sequencing, the strains isolated from food and humans were allocated in I and J clusters independently of its isolation date. In the comparison of isolates from humans and animals, strains of the two origins were allocated in PFGE-D1, PFGE-D2, ERIC-C1, MLVA-C1 and MLVA-D clusters. In conclusion, the high frequency of virulence genes in the S. Typhimurium strains studied reinforces their potential hazard to cause disease in humans, as well as the risk of its presence in food, animals for human consumption and the environment. The occurrence of S. Typhimurium multi-drug iv resistant isolated from various food and pigs for consumption is an alert of the possible risk for humans to ingest contaminated food with those strains. Together the results of PFGE, ERIC-PCR, MLVA e CRISPR-MVLST suggest that S. Typhimurium strains isolated from humans were genetically more diverse before mid-1990s, which might indicate the selection of a more adapted S. Typhimurium subtype after Salmonella Enteritidis became the most prevalent serovar in Brazil. Regarding the strains isolated from food, the results of PFGE, ERIC-PCR, MLVA and CRISPR-MVLST suggest that during the studied period there was circulation of more than one subtype in the country. The MLST results suggest that these strains have a common phylogenetic origin. The results of the whole genome sequencing suggest that there may be more than one subtype circulating in the country, with respect to the strains of human and food origins. Also, alerts for the possible risk of MDR strains isolated from food to contaminate humans and/or disseminate antibiotic resistance genes for strains of clinical and non-clinical origin. In the comparison of isolates from humans and animals, the results of PFGE, ERIC-PCR and MLVA suggest that some strains isolated from pigs and humans may descend from a common subtype. In addition, the MDR strains isolated from pigs and pig environment warn for the possible risk of pigs used for human consumption to contaminate humans, the environment and other pigs.

Avanços no diagnóstico genético da puberdade precoce central / Advances in the genetic diagnosis of central precocious puberty

Marina Cunha Silva Pazolini

20 July 2018

Avanços recentes na etiologia da puberdade precoce foram obtidos a partir da análise do genoma por sequenciamento global. Mutações inativadoras do gene MKRN3 representam uma causa importante de puberdade precoce central (PPC) familial (33-46% dos casos). O objetivo do estudo foi a análise do DNA genômico de pacientes com PPC de origem familial ou esporádica sem mutações deletérias no gene MKRN3. Foram selecionados 68 indivíduos com PPC (37 com a forma familial e 31, aparentemente, esporádicos). O DNA genômico foi extraído do sangue periférico ou da saliva dos pacientes com PPC. A técnica de sequenciamento genômico em larga escala (ILLUMNA -Clonal Single Molecule Array Technology - CSMA) foi usada na busca de novos genes implicados com o desenvolvimento puberal prematuro em seis indivíduos, sendo três afetados e três não afetados, pertencentes a uma grande família brasileira com PPC (Família 1). Mutações em um gene candidato foram pesquisadas em 64 pacientes por sequenciamento automático direto (método de Sanger). Em um subgrupo de pacientes, foi realizada a técnica de MLPA com sondas customizadas na busca de deleções. Por sequenciamento genômico global, foi identificado um novo complexo rearranjo no gene DLK1, caracterizado por uma deleção de, aproximadamente, 14.000 pb na região 5\' não traduzida (5\'UTR), englobando o início do exon 1, associada a uma duplicação de uma região do intron 3 de 269 pb. O gene DLK1 está localizado no braço longo do cromossomo 14 (14q32.2) e sofre imprinting materno. Este lócus está associado à síndrome de Temple, uma doença complexa com múltiplas manifestações, incluindo puberdade precoce central em até 90% dos casos. Para investigar o efeito dessa deleção genômica, as concentrações séricas da proteína DLK1 pelo método ELISA foram medidas nas pacientes afetadas da Família 1. Valores indetectáveis de DLK1 foram encontrados nestas pacientes. O fenótipo das pacientes afetadas da Família 1 caracterizou-se por uma PPC típica, sem sinais sindrômicos (excluída a síndrome de Temple). Posteriormente, por meio do sequenciamento direto, duas novas mutações inativadoras no gene DLK1 foram identificadas (p.Val272Cysfs*14 e p.Pro160Leufs*50) em duas famílias (Famílias 2 e 3) com PPC ou história de menarca precoce. O estudo de segregação nas Famílias 1 e 2 confirmou o padrão de herança autossômico dominante com penetrância completa e transmissão exclusiva pelo alelo paterno. A média de idade de início da puberdade nas pacientes afetadas do sexo feminino foi de 5,4 anos. A técnica de MLPA com sondas customizadas para o gene DLK1 não encontrou outras deleções no subgrupo estudado. Em conclusão, foram identificadas três mutações inativadoras no gene DLK1 associadas à PPC familial de origem paterna. O DLK1 é o segundo gene imprintado associado a distúrbios puberais em humanos. Este achado sugere um papel dos genes imprintados no controle da puberdade. O mecanismo pelo qual esse gene afeta a puberdade ainda é desconhecido / Recent advances in the etiology of precocious puberty were obtained from the whole-genome sequencing analysis. Inactivating mutations of the MKRN3 gene represent a major cause of familial central precocious puberty (CPP) (33%- 46% of the cases). The objective of the study was to analyze the genomic DNA of patients with familial or sporadic CPP without deleterious mutations in the MKRN3 gene. Sixty-eight individuals with CPP (37 with familial form and 31 apparently sporadic cases) were selected. The genomic DNA was extracted from the peripheral blood or saliva of patients with CPP. We used the whole-genomic sequencing technique (ILLUMNA - Clonal Single Molecule Array Technology - CSMA) searching for a new candidate genes implicated in premature pubertal development in 6 individuals, 3 affected and 3 non-affected, belonging to a large Brazilian family with CPP (Family 1). Mutations in one candidate gene were investigated in 64 patients through automatic sequencing (Sanger\'s method). In a subgroup of patients, MLPA using synthetic MLPA probes was performed to search for deletions. A new complex rearrangement in the DLK1 gene characterized by a deletion of approximately 14.000pb in the 5\' untranslated (5\'UTR), encompassing the start of exon 1, associated with a duplication of a region of intron 3 of 269 bp was identified by whole-genomic sequencing. The DLK1 gene is located on the long arm of chromosome 14 (14q32.2) and it is maternally imprinted gene. This locus is associated with Temple syndrome, a complex disorder with multiple alterations, including central precocious puberty in up to 90% of cases. To investigate the effect of this genomic deletion, a serum measurement of DKL1 protein using ELISA method was performed in the affected patients from Family 1. Undetectable serum DLK1 levels were found in these patients. The phenotype of affected patients from Family 1 was characterized by a typical CPP, without syndromic signs (excluding Temple syndrome). Posteriorly, two new inactivating mutations in the gene DLK1 were identified (p.Val272Cysfs*14 and p.Pro160Leufs*50) through direct sequencing in two families (Families 2 and 3) with CPP or precocious menarche history. The segregation studies in Families 1 and 2 confirmed the pattern of dominant autosomal inheritance with complete penetrance and exclusive transmission by the paternal allele. The average age of puberty onset in the affected female patients was 5.4 years. The MLPA technique with synthetic MLPA probes for the DLK1 gene did not find other deletions in the studied subgroup. In conclusion, we identified 3 paternally inherited inactivating mutations in the DLK1 gene associated with familial CPP. The DLK1 is the second imprinted gene associated with pubertal disorders in humans. This finding suggests a role of the imprinted genes in puberty control. The mechanism through which this gene affects puberty is still unknown

Gene DLK1

Mutação com perda de função

Puberdade precoce

Puberdade precoce central familial

Sequenciamento completo do genoma

Técnicas genéticas

DLK1 gene

Familial central precocious puberty

Genetic techniques

Loss of function mutation

Puberty precocious

Whole genome sequencing

Protoplast fusion of Lolium perenne and Lotus corniculatus for gene introgression

Raikar, Sanjeev Vencu

January 2007

Protoplast fusion of Lolium perenne and Lotus corniculatus for gene introgression by Sanjeev V. Raikar Lolium perenne is one of the most important forage crops globally and in New Zealand. Lotus corniculatus is a dicotyledonous forage that contains valuable traits such as high levels of condensed tannins, increased digestibility, and high nitrogen fixing abilities. However, conventional breeding between these two forage crops is impossible due to their markedly different taxonomic origin. Protoplast fusion (somatic hybridisation) provides an opportunity for gene introgression between these two species. This thesis describes the somatic hybridisation, the regeneration and the molecular analysis of the putative somatic hybrid plants obtained between L. perenne and L. corniculatus. Callus and cell suspensions of different cultivars of L. perenne were established from immature embryos and plants were regenerated from the callus. Of the 10 cultivars screened, cultivars Bronsyn and Canon had the highest percentage of callus induction at 36% each on 5 mg/L 2,4-D. Removal of the palea and lemma which form the seed coat was found to increase callus induction ability of the embryos. Plant regeneration from the callus was achieved when the callus was plated on LS medium supplemented with plant growth regulators at different concentrations. Variable responses to shoot regeneration was observed between the different cultivars with the cv Kingston having the lowest frequency of shoot formation (12%). Different factors affecting the protoplast isolation of L. perenne were investigated. The highest protoplast yield of 10×106 g-1FW was obtained when cell suspensions were used as the tissue source, with enzyme combination ‘A’ (Cellulase Onozuka RS 2%, Macerozyme R-10 1%, Driselase 0.5%, Pectolyase 0.2%), for 6 h incubation period in 0.6 M mannitol. Development of microcolonies was only achieved when protoplasts were plated on nitrocellulose membrane with a L. perenne feeder layer on PEL medium. All the shoots regenerated from the protoplast-derived calli were albino shoots. The highest protoplast yield (7×106 g-1FW) of L. corniculatus was achieved from cotyledons also with enzyme combination ‘A’ (Cellulase Onozuka RS 2%, Macerozyme R-10 1%, Driselase 0.5%, Pectolyase 0.2%), for 6 h incubation period in 0.6 M mannitol. The highest plating efficiency for L. corniculatus of 1.57 % was achieved when protoplasts were plated on nitrocellulose membrane with a L. perenne feeder layer on PEL medium. The highest frequency of shoot regeneration (46%) was achieved when calli were plated on LS medium with NAA (0.1 mg/L) and BA (0.1 mg/L). Protoplast fusion between L. perenne and L. corniculatus was performed using the asymmetric somatic hybridisation technique using PEG as the fusogen. L. perenne protoplasts were treated with 0.1 mM IOA for 15 min and L. corniculatus protoplasts were treated with UV at 0.15 J/cm2 for 10 min. Various parameters affecting the fusion percentage were investigated. Successful fusions were obtained when the fusions were conducted on a plastic surface with 35% PEG (3350 MW) for 25 min duration, followed by 100 mM calcium chloride treatment for 25 min. A total of 14 putative fusion colonies were recovered. Shoots were regenerated from 8 fusion colonies. Unexpectedly, the regenerated putative hybrid plants resembled L. corniculatus plants. The flow cytometric profile of the putative somatic hybrids resembled that of L. corniculatus. Molecular analysis using SD-AFLP, SCARs and Lolium specific chloroplast microsatellite markers suggest that the putative somatic hybrids could be L. corniculatus escapes from the asymmetric protoplast fusion process. This thesis details a novel Whole Genome Amplification technique for plants using Strand Displacement Amplification technique.

Lolium perenne

Lotus corniculatus

callus

cell suspension

protoplasts

shoot regeneration

protoplast fusion

polyethylene glycol

plant growth regulators

putative hybrid colonies

whole genome amplification

strand displacement amplification

Scale effects on genomic modelling and prediction

Berger, Swetlana

03 February 2015

In dieser Arbeit wird eine neue Methode für den skalenunabhängigen Vergleich von LD-Strukturen in unterschiedlichen genomischen Regionen vorgeschlagen. Verschiedene Aspekte durch Skalen verursachter Probleme – von der Präzision der Schätzung der Marke-reffekte bis zur Genauigkeit der Vorhersage für neue Individuen - wurden untersucht. Darüber hinaus, basierend auf den Leistungsvergleichen von unterschiedlichen statistischen Methoden, wurden Empfehlungen für die Verwendungen der untersuchten Methoden gege-ben. / In dieser Arbeit wird eine neue Methode für den skalenunabhängigen Vergleich von LD-Strukturen in unterschiedlichen genomischen Regionen vorgeschlagen. Verschiedene Aspekte durch Skalen verursachter Probleme – von der Präzision der Schätzung der Marke-reffekte bis zur Genauigkeit der Vorhersage für neue Individuen - wurden untersucht. Darüber hinaus, basierend auf den Leistungsvergleichen von unterschiedlichen statistischen Methoden, wurden Empfehlungen für die Verwendungen der untersuchten Methoden gegeben

630

Whole-Genome Regression

genetic architecture

accuracy of genomic predictions

Linkage Disequilibrium

simulation techniques

multicollinearity

LD structure

precision of estimates

Bayesian hierarchical model

Arabidopsis

Land- und Forstwirtschaft (PPN621302791)

Whole genome characterisation and engineering of chimaeric rotavirus-like particles using African rotavirus field strains / Khuzwayo Chidiwa Jere

Jere, Khuzwayo Chidiwa

January 2012

Despite the global licensure of two live-attenuated rotavirus vaccines, Rotarix® and RotaTeq®, rotavirus remains the major cause of severe dehydrating diarrhoea in young mammals and the need for further development of additional rotavirus vaccines, especially vaccines effective against regional strains in developing country settings, is increasing. The design and formulation of new effective multivalent rotavirus vaccines is complicated by the wide rotavirus strain diversity. Novel rotavirus strains emerge periodically due to the propensity of rotaviruses to evolve using mechanisms such as point mutation, genome segment reassortment, genome segment recombination and interspecies transmission. Mutations occurring within the primer binding regions targeted by the current commonly employed sequence-dependent genotyping techniques lead to difficulties in genotyping novel mutant rotavirus strains. Therefore, use of sequence-independent techniques coupled with online rotavirus genotyping tools will help to understand the complete epidemiology of the circulating strains which, in turn, is vital for developing intervention measures such as vaccine and anti-viral therapies. In this study, sequence-independent cDNA synthesis that uses a single set of oligonucleotides that do not require prior sequence knowledge of the rotavirus strains, 454® pyrosequencing, and an online rotavirus genotyping tool, RotaC, were used to swiftly characterise the whole genome of rotaviruses. The robustness of this approach was demonstrated in characterising the complete genetic constellations and evolutionary origin of selected human rotavirus strains that emerged in the past two decades worldwide, human rotavirus strains frequently detected in Africa, and the whole genomes of some common strains frequently detected in bovine species. Most of the characterised strains emerged either through intra- or interspecies genome segment reassortment processes. The methods used in this study also allowed determination of the whole consensus genome sequence of multiple rotavirus variants present in a single stool sample and the elucidation of the evolutionary mechanisms that explained their origin. The 454® pyrosequence-generated data revealed evidence of intergenotype rotavirus genome segment recombination between the genome segments 6 (VP6), 8 (NSP2) and 10 (NSP4) of Wa-like and DS-1-like origin. The use of next generation sequencing technology combined with sequence-independent amplification of the rotavirus genomes allowed the determination of the consensus nucleotide sequence for each of the genome segments of the selected study strains directly from stool sample. The consensus nucleotide sequences of the genome segments encoding VP2, VP4, VP6 and VP7 of some of the study strains were codon optimised for insect cell expression and used to generate recombinant baculoviruses. The Bac-to-Bac baculovirus expression system was used to generate chimaeric rotavirus virus-like particles (RV-VLPs). These chimaeric RV-VLPs contained inner capsids (VP2 and VP6) derived from a South African RVA/Humanwt/ ZAF/GR10924/1999/G9P[6] strain, on to which outer capsid layer proteins composed of various combinations of VP4 and VP7 were assembled. The outer capsid proteins were derived from the dsRNA of G2, G8, G9 or G12 strains associated with either P[4], P[6] or P[8] genotypes that were directly extracted from human stool faecal specimens. The structures of these chimaeric RV-VLPs were morphologically evaluated using transmission electron microscopy (TEM). Based on the size and morphology of the particles, doublelayered (dRV-VLPs) and triple-layered RV-VLPs (tRV-VLPs) were produced. Recombinant rotavirus proteins readily assembled into dRV-VLPs, whereas approximately 10 – 30% of the assembled RV-VLPs from insect expressed recombinant VP2/6/7/4 were chimaeric tRVVLPs. These RV-VLPs will be evaluated in future animal studies as potential non-live rotavirus vaccine candidates. The novel approach of producing RV-VLPs introduced in this study, namely by using the consensus nucleotide sequence derived from dsRNA extracted directly from clinical specimens, should speed up vaccine research and development by bypassing the need to adapt the viruses to tissue culture and circumventing some other problems associated with cell culture adaptation as well. Thus, it is now possible to generate RV-VLPs for evaluation as non-live vaccine candidates for any human or animal field rotavirus strain. / Thesis (PhD (Biochemistry))--North-West University, Potchefstroom Campus, 2012

Human rotavirus

Bovine rotavirus

454® pyrosequencing

Whole genome analysis

Genome segment reassortment

Genome segment recombination

Mixed infection

Emerging rotavirus strains

Rotavirus genogroup

Rotavirus virus-like particles

Transposable elements in the salmonid genome

Minkley, David Richard

30 April 2018

Salmonids are a diverse group of fishes whose common ancestor experienced an evolutionarily important whole genome duplication (WGD) event approximately 90 MYA. This event has shaped the evolutionary trajectory of salmonids, and may have contributed to a proliferation of the repeated DNA sequences known as transposable elements (TEs). In this work I characterized repeated DNA in five salmonid genomes. I found that over half of the DNA within each of these genomes was derived from repeats, a value which is amongst the highest of all vertebrates. I investigated repeats of the most abundant TE superfamily, Tc1-Mariner, and found that large proliferative bursts of this element occurred shortly after the WGD and continued during salmonid speciation, where they have produced dramatic differences in TE content among extant salmonid lineages. This work provides important resources for future studies of salmonids, and advances the understanding of two important evolutionary forces: TEs and WGDs. / Graduate / 2019-04-19

Transposable elements

Salmon

Genome annotation

Repeats

Genome evolution

Bioinformatics

Speciation

Evolution

Tc1-Mariner

Whole genome duplication

Polyploidy

Fish

Rainbow trout

Arctic char

Atlantic salmon

Coho salmon

Chinook salmon

Salmo salar

Salvelinus alpinus

Oncorhynchus mykiss

Oncorhynchus kisutch

Oncorhynchus tshawytscha

Amélioration des services de génomiques et de surveillance du virus du syndrome reproducteur et respiratoire porcin

Lalonde, Christian

04 1900

Le virus du syndrome reproducteur et respiratoire porcin (VSRRP) est un pathogène important, entrainant des pertes économiques de 130 millions de dollars annuellement au Canada. La surveillance est effectuée par séquençage Sanger du gène ORF5 mais nous croyons que le séquençage du génome entier (SGE) du VSRRP permettrait une meilleure surveillance épidémiologique comparé au séquençage du gène ORF5. Pour développer une méthode efficace de SGE du VSRRP, 149 échantillons (sérums, poumons, tissus, autres) d’animaux malades ou récoltés pour fin de surveillance ont été analysés. L'ARN viral a été concentré par enrichissement d'ARN à queue poly (A) et le séquençage effectué sur une plateforme Illumina. Le SGE a été efficace dans 67,11% des échantillons, réussissant dans certains échantillons de poumons et de sérums possédant une valeur de quantification (Cq) du virus par RTqPCR jusqu’à 26,50 et 34.13, respectivement. La méthodologie développée de SGE du VSRRP a été 4650 fois plus sensible que les méthodes décrites précédemment. Pour quantifier l’impact du SGE, 88 échantillons (dont le SGE a réussi) ont été utilisés pour comparer le SGE au séquençageORF5. Deux génomes de VSRRP différents ont été trouvés dans quatre échantillons différents (taux de coinfection de 4,55%). Six génomes de VSRRP (6,52% des souches) ont été classés différemment par rapport à la classification ORF5. Ainsi, le SGE du VSRRP a permis une meilleure caractérisation de 9,10% des échantillons VSRRP positifs comparé au séquençage ORF5. Donc, le SGE du VSRRP est à la fois sensible et plus précis que la classification par l’ORF5. / Porcine reproductive and respiratory syndrome virus (PRRSV) is an important pathogen, costing over 130 million dollars annually in Canada. Surveillance is done by Sanger sequencing of the ORF5 gene, but we hypothesized that whole genome sequencing (WGS) of PRRSV genome will allow a better epidemiological monitoring of PRRSV compared to ORF5 gene sequencing. To develop an efficient method of PRRSV WGS, 149 PRRSV samples (sera, lungs, pool of tissues and others) collected for surveillance or from sick animals were tested. Viral RNA was concentrated using a poly(A) tailed RNA enrichment method, and sequencing was done on an Illumina platform. WGS was successful in 67.11% of cases. WGS was successful in some tissues and lungs samples with RT-qPCR cycle quantification (Cq) values up to 26.50, and in some sera with Cq value up to 34.13. The developed WGS methodology was 4650 times more sensitive for PRRSV WGS than previously described methods. To quantify the impact of WGS, 88 successful samples for the WGS of PRRSV were used to compare efficiency of WGS and ORF5 sequencing. Two different full-length genomes of PRRSV were found in four of those samples (coinfection rate of 4.55%). Six full-length PRRSV genomes (6.52% of PRRSV strains) were found to cluster differently compared to ORF5 sequencing. WGS of PRRSV also enabled a better classification or characterisation of 9.10% of the PRRSV infected samples compared to ORF5 sequencing. Thus, WGS can be both sensitive and more accurate then ORF5 classification for the characterisation of PRRSV strains.

virus

coinfection

recombinant

MiSeq

Séquençage de génome entier

porc

séquençage à haut débit

whole genome sequencing

high-throughput sequencing

classification

swine

Isolation and characterization of novel bacterial strains to alleviate abiotic stress in greenhouse ornamental crops

Nordstedt, Nathan P.

01 October 2021

No description available.

Horticulture

Plant Biology

Plant Pathology

drought

floriculture

greenhouse production

horticulture

low nutrient

ornamental plants

PGPR

plant-microbe interaction

whole-genome sequence

biofertilizer

biostimulant

genome analysis

nutrient stress

nutrient solubilization

photosynthesis