Étude post-GWAS des gènes de susceptibilité au diabète de type 2 : rôle phare dans la fonction de la cellule β pancréatique / Post-GWAS study of candidate type 2 diabetes susceptibility genes : a key role in pancreatic β-cell function

Ndiaye, Fatou Kiné

18 December 2017

Les études d’association pangénomique (GWAS) ont permis la mise en évidence de nouvelles voies putativement importantes dans la physiopathologie du diabète de type 2, par l’identification de variants génétiques fréquents (SNP) de susceptibilité au diabète de type 2, mais souvent avec peu ou pas d'informations sur le mécanisme sous-jacent expliquant le lien entre ces variants génétiques et le phénotype diabétique. En effet ces SNP sont souvent non codants et ont un effet modeste sur le risque de diabète de type 2, ce qui rend difficile leur étude d’un point de vue fonctionnel. Dès le début des GWAS, il a été suggéré que ces gènes associés au diabète de type 2, étaient des « gènes de la cellule β pancréatique » sans que des études fonctionnelles n’aient été faites de manière systématique. Dans ce contexte, nous avons mené une étude de fishing pour déblayer cette quantité importante de données provenant des GWAS et d’identifier des gènes potentiellement importants, pouvant être de nouvelles cibles thérapeutiques. Le premier objectif de ma thèse a été l’étude de l’expression des gènes de susceptibilité au diabète de type 2 dans un panel de tissus humains comprenant des tissus pancréatiques et des tissus sensibles à l’insuline. Pour cela nous avons utilisé une technique de quantification non biaisée de l’expression génique dans le but de montrer si ces gènes associés au diabète de type 2 avaient une expression enrichie (proportion de gènes de susceptibilité au diabète de type 2 surexprimés dans les cellules β versus les autres tissus) dans les cellules β pancréatiques. Nous avons ensuite réalisé des études fonctionnelles sur la trentaine de gènes de susceptibilité au diabète de type 2 les plus exprimés dans notre modèle cellulaire par des tests de sécrétion d’insuline, des études de la viabilité cellulaire, du séquençage d’ARN (RNA-seq) et du western blotting dans la lignée de cellules β pancréatiques humaines EndoC-βH1. Les EndoC-βH1 sont des cellules en mesure de sécréter de l’insuline en réponse au glucose et à d’autres sécrétagogues. Nous les avons utilisé afin d’étudier le rôle de ces gènes de susceptibilité au diabète de type 2 dans la fonction de la cellule β pancréatique, en particulier dans la sécrétion insulinique. Notre étude d’expression a montré que l’expression des gènes de susceptibilité au diabète de type 2 est enrichie de manière significative dans les cellules β pancréatiques et la lignée EndoC-βH1. Pour cinq gènes du diabète de type 2 (TBC1D4, TCF19, KCNK16, CDKN2A et SLC30A8) ayant une présence et un effet déjà connus dans la fonction des cellules β, nous avons démontré une variation significative de la sécrétion d’insuline après extinction génique, en concordance avec la littérature. Par ailleurs, nous avons pu mettre en évidence quatre gènes de susceptibilité au diabète de type 2 (PRC1, SRR, ZFAND3 et ZFAND6) montrant une baisse significative de la sécrétion d’insuline après extinction génique et dont la présence ou la fonction dans la cellule β était pour l’heure inconnue. Les analyses RNA-seq ont montré une association significative de l’extinction de ces gènes avec des réseaux moléculaires liés à la physiopathologie du diabète de type 2 (par exemple : l’apoptose des cellules pancréatiques, l’insulinémie, la glycolyse, le stress du réticulum endoplasmique…). Et l’évaluation de l’expression de nos quatre gènes dans des îlots de souris obèses (ob/ob) ou traitées à la streptozotocine a montré une corrélation positive de leur expression avec celle de l’insuline. Notre étude a démontré que les études fonctionnelles post-GWAS sont importantes et permettent de définir le lien de causalité des gènes de susceptibilité avec la maladie, et ainsi de mener à des progrès sur la compréhension de la physiopathologie de la maladie [...] / Genome-wide association studies (GWAS) have identified a plethora of single nucleotide polymorphisms (SNPs) associated with the risk of type 2 diabetes, but most often with little information about the mechanism underlying the relationship between these genetic variants associated with type 2 diabetes and the diabetic phenotype. Indeed, these SNPs are often noncoding and have a modest effect on the risk of type 2 diabetes, making difficult their functional study. At the beginning of the GWAS era, it has been suggested that susceptibility genes for type 2 diabetes are strongly involved in pancreatic β cell gene function, while no functional studies had been systematically performed. In this context, we conducted a “fishing” study to decipher this large amount of data generated by GWAS and to pinpoint potentially important genes that may be new therapeutic targets. The first objective of my thesis was to study the expression of type 2 diabetes susceptibility genes in a panel of human tissues comprising pancreatic and insulin-sensitive tissues using an unbiased technique of quantification of genes expression in order to show that these genes associated with type 2 diabetes were enriched in pancreatic β-cells. We then performed functional studies on the thirty mostly expressed genes in our cell model by insulin secretion tests, cell viability test, RNA sequencing (RNA-seq) and Western blotting in the human pancreatic β cell line (EndoC-βH1). These cells are able to secrete insulin in response to glucose and other secretagogues. Our goal was to study the role of these type 2 diabetes susceptibility genes in pancreatic β cell function, particularly in insulin secretion. Our expression study of type 2 diabetes susceptibility genes showed that their expression is significantly enriched in pancreatic β cells and the EndoC-βH1 cell line. For five genes associated with type 2 diabetes (TBC1D4, TCF19, KCNK16, CDKN2A and SLC30A8) with an already known presence and function in pancreatic β cell, we showed a significant variation in glucose-stimulated insulin secretion after gene silencing, in agreement with the literature. In addition, we identified four type 2 diabetes associated genes (PRC1, SRR, ZFAND3 and ZFAND6), with a significant decrease in insulin secretion after gene silencing without already know function in pancreatic β cell. RNA-seq has shown a significant association between the extinction of these genes and molecular networks related to the pathophysiology of type 2 diabetes (e.g. apoptosis of pancreatic cells, insulinemia, glycolysis, endoplasmic reticulum stress response...). The assessment of the expression of our four genes in the islets of obese mice (ob/ob) or treated with streptozotocin shows a positive correlation between their expression and the expression of insulin. Our study has shown that post-GWAS functional studies are important and can help to define the causal link between these genes and the disease, and therefore to make progress in the understanding of the pathophysiology of type 2 diabetes. This study allowed us to identify genes whose function in β cell was not anterior known and which are involved in pancreatic β cell function and the pathophysiology of type 2 diabetes.

EndoC-bêtaH1

Analyse d'expression génique

Etudes pangénomiques

Screening par siRNA

Diabète de type 2

GWAS

Genome-wide association study

Diabetes

Pancreatic β cell function

Mineração de genes em regiões genômicas bovinas associadas à resistência ao carrapato Rhipicephalus (Boophilus) microplus

Catoia, Vitor

13 August 2014

Made available in DSpace on 2016-06-02T20:21:37Z (GMT). No. of bitstreams: 1 6501.pdf: 1672444 bytes, checksum: 64754c3f12e26620a22bf55af9f8d5ff (MD5) Previous issue date: 2014-08-13 / The Brazilian cattle industry is presented as highlighted on the world stage and the significant participation of this productive sector in the economy means that there is concern with production losses, among which stands out those caused by infestation of Rhipicephalus (Boophilus) microplus, main ectoparasite vector cattle and various diseases. The genetic variability for resistance to the cattle tick shows that this trait can be genetically improved. For the execution of this work, it was used a study of genome wide association (GWAS) for resistance to Rhipicephalus (Boophilus) microplus, performed by Dr. Fernando Flores Cardoso, with 260 Hereford and 500 Braford animals. The monitoring of the infestation was accomplished by counting tick females larger than 4.5 mm from one of the animal's body side, and the degree of infestation was evaluated for each animal by averaging at least two consecutive counts, with intervals of approximately thirty days, in the months of highest incidence of the parasite. The animals were genotyped using a 50K SNP chip, and it was found a total of 37,346 SNPs that passed in quality test. Among these markers, 178 showed significant effects and allowed the mining of 175 genes in these regions, at an interval of 200 Kb (100 Kb for each side of each marker). Most of these polymorphisms associated with the trait is located in regions without defined functions (intronic and intergenic), and only one of them is located in the splicing region. The most significant regions of the GWAS were identified on chromosomes 7, 21 and 23, which were found 72 genes in linkage disequilibrium with the molecular markers. Therefore, a functional annotation of the genes on these 3 chromosomes was performed, allowing the choice of 11 candidate genes for the study of various metabolic pathways in which they are inserted. Among these pathways, the most important are those related to immune responses, secretion and intracellular transport, calcium influx and epidermal growth and differentiation. / A bovinocultura brasileira apresenta-se como destaque no cenário mundial e a expressiva participação deste setor produtivo na economia faz com que haja preocupação com as perdas produtivas, dentre as quais destaca-se aquelas causadas pela infestação do carrapato Rhipicephalus (Boophilus) microplus, principal ectoparasita de bovinos e vetor de diversas doenças. A variabilidade genética observada para a resistência dos bovinos ao carrapato permite que essa característica seja melhorada geneticamente, como forma alternativa de controle desses ectoparasitos. Para a execução do presente trabalho, foi utilizado um estudo de associação genômica ampla (GWAS) para a resistência ao carrapato R. microplus, o qual foi realizado pela equipe do Dr. Fernando Flores Cardoso (Embrapa Pecuária Sul), com 260 animais da raça Hereford e 500 animais da raça Braford. O monitoramento das infestações foi realizado por meio da contagem de fêmeas do carrapato com tamanho superior a 4,5 mm em um dos lados do corpo do animal, e o grau de infestação de cada animal foi avaliado pela média de pelo menos duas contagens consecutivas, com intervalos de aproximadamente trinta dias, conduzidas no sobreano, nos meses de maior incidência do parasito. Os animais foram genotipados com utilização de um chip de SNPs de 50 K e, após a realização do GWAS, verificou-se que um total de 37.346 SNPs passou nos teste de qualidade. Dentre esses marcadores, 178 SNPs apresentaram efeitos significativos e permitiram a mineração de 175 genes nessas regiões, em um intervalo de 200 Kb (100 Kb para cada lado de cada marcador). A maioria dos polimorfismos associados com a característica está localizada em regiões sem funções determinadas (intergênicas e intrônicas), apenas um deles encontra-se em região de splicing. Sendo assim, estes marcadores podem constituir mutações não causais que se encontram em desequilíbrio de ligação com mutações funcionais. As regiões mais significativas do GWAS foram identificadas nos cromossomos 7, 21 e 23, onde foram identificados 72 genes em desequilíbrio de ligação com os marcadores moleculares. Portanto, foi realizada uma anotação funcional dos genes localizados nesses 3 cromossomos, o que permitiu a seleção de 11 genes candidatos para um estudo mais aprofundado das vias metabólicas nas quais eles estão inseridos. Verificou-se que esses genes participam de processos importantes em vias já relacionadas com a resistência a carrapatos, tais como apresentação de antígenos, transporte e secreção intracelular e diferenciação da epiderme.

Genética

Animais - melhoramento genético

Infestação

Genome Wide Association Study (GWAS)

Rhipicephalus (Boophilus) microplus

Candidate genes for tick resistance

Metabolic pathways

CIENCIAS BIOLOGICAS::GENETICA

Feed efficiency traits in Santa Inês sheep under genomic approaches / Eficiência alimentar em ovinos da raça Santa Inês sob abordagem genômica

Amanda Botelho Alvarenga

28 September 2017

The selection on genetic values predicted from markers could substantially increase the rate of genetic gain in animals by increasing accuracy of prediction and reducing generation interval, especially for difficult to measure traits, such as feed efficiency. Feed efficiency is the most important trait in animal production due to its impacts on cost of production and environmental factors. Many metrics measure the feed efficiency, such as ratio of gain to feed (FER), the ratio of feed to gain (FCR) and residual feed intake (RFI). Nevertheless, in ovine, no study with the aim of understand the genetic variants or the accuracy of genomic estimated breeding value (GEBV) for feed efficiency traits was published yet. Moreover, before to apply the genomic information, it is necessary to understand and characterized the population structure, for instance, by linkage disequilibrium (LD). Both genome-wide association studies (GWAS) and genomic selection (GS) leverage LD between marker and causal mutation. Based on the above considerations, the aim of this study was to map LD in ovine, characterized by Brazilian Santa Inês sheep; to search genetic variants for feed efficiency traits (FER, FCR and RFI) through GWAS; and to verify the accuracy of GEBV for RFI. In total, 396 samples (animals) of Longissimus dorsi muscle were collect. A high-density panel of SNP (Illumina High-Density Ovine SNP BeadChip®) comprising 54,241 SNPs was used to obtain the genotyping data. The phenotype data was comprised of 387 animals. The average LD between adjacent markers for two LD metrics, r² and |D\'|, were 0.166 and 0.617, respectively. The degree of LD estimated was lower than reported in other species and it was characterized by short haplotype blocks. Consequently, for genomic analyses, high-density panels of marker are recommended. Many markers were associated to feed efficiency traits in GWAS, mainly to RFI trait. Few candidate genes were reported in this study, highlighting NRF-1 (nuclear respiratory factor 1), which controls mitochondrial biosynthesis, the most important process responsible by a great fraction of the produced energy. Finally, we verified the accuracy of GEBV for RFI using few Bayesian regression models, and we found low accuracy, ranging from 0.033 (BayesB with π=0.9912) to 0.036 (BayesA), which might be explained by the low relationship among animals and small training population. / A seleção com base nos valores genéticos genômicos preditos pode aumentar substancialmente a taxa de ganho genético em animais por meio do aumento da acurácia de predição e redução do intervalo de gerações, especialmente para características de difícil e/ou onerosa mensuração, como eficiência alimentar. A eficiência alimentar é uma das características mais importantes na produção animal devido principalmente aos seus impactos econômicos e ambientais. Muitas métricas representam a eficiência alimentar, por exemplo: a relação do ganho de peso e consumo alimentar (EA), a proporção do consumo alimentar e ganho de peso (CA) e o consumo alimentar residual (CAR). Em ovinos, nenhum estudo com o objetivo de buscar variantes genéticas ou verificar a acurácia do valor genético genômico estimado para eficiência alimentar foi publicado. Adicionalmente, antes de aplicar a informação genômica, é necessário compreender e caracterizar a estrutura da população, como por meio do desequilíbrio de ligação (LD). O estudo de associação genômica (GWAS) e seleção genômica (GS) consideram o LD entre marcador e a mutação causal. Com base nas considerações acima, o objetivo deste estudo foi mapear o LD em ovinos, caracterizado pela raça ovina Santa Inês; localizar variantes genéticas para as características de eficiência alimentar (EA, CA e CAR) utilizando a abordagem GWAS; e verificar a acurácia da estimação dos valores genéticos genômico para o CAR. No total, foram coletadas 396 amostras (animais) do músculo Longissimus dorsi, para posterior genotipagem utilizando o painel de alta densidade (Illumina High-Density Ovine SNP BeadChip®), compreendendo 54.241 SNPs. O banco fenotípico é composto por 387 animais. O LD médio entre marcadores adjacentes para duas métricas de LD, r² e |D\'|, foram 0,166 e 0,617, respectivamente. O grau de LD estimado foi menor que o relatado em outras espécies e foi caracterizado por blocos de haplótipos curtos. Consequentemente, para as análises genômicas são recomendados painéis de marcadores de alta densidade. No GWAS, foram encontrados muitos marcadores associados aos fenótipos, em especial, à característica CAR. Alguns genes candidatos foram relatados neste estudo, destacando-se o NRF-1 (fator respiratório nuclear 1), que controla a biossíntese mitocondrial, o processo mais importante responsável por grande parte da produção de energia. Finalmente, verificamos a acurácia do valor genético genômico estimado para o CAR usando modelos de regressão Bayesiana, e encontramos baixos valores para acurácia (0,033 a 0,036) o que pode ser explicado pelo baixo grau de relacionamento entre os indivíduos e tamanho reduzido da população de treinamento.

Associação genômica ampla

Consumo alimentar residual

Desequilíbrio de ligação

Modelos de regressão Bayesianos

Seleção genômica

Bayesian regression models

Genome-wide association study

Genomic selection

Linkage disequilibrium

Ovine

Residual feed intake

A Case-Only Genome-wide Association Study of Gender- and Age-specific Risk Markers for Childhood Leukemia

Singh, Sandeep Kumar

26 March 2015

Males and age group 1 to 5 years show a much higher risk for childhood acute lymphoblastic leukemia (ALL). We performed a case-only genome-wide association study (GWAS), using the Illumina Infinium HumanCoreExome Chip, to unmask gender- and age-specific risk variants in 240 non-Hispanic white children with ALL recruited at Texas Children’s Cancer Center, Houston, Texas. Besides statistically most significant results, we also considered results that yielded the highest effect sizes. Existing experimental data and bioinformatic predictions were used to complement results, and to examine the biological significance of statistical results. Our study identified novel risk variants for childhood ALL. The SNP, rs4813720 (RASSF2), showed the statistically most significant gender-specific associations (P < 2 x 10-6). Likewise, rs10505918 (SOX5) yielded the lowest P value (P < 1 x 10-5) for age-specific associations, and also showed the statistically most significant association with age-at-onset (P < 1 x 10-4). Two SNPs, rs12722042 and 12722039, from the HLA-DQA1 region yielded the highest effect sizes (odds ratio (OR) = 15.7; P = 0.002) for gender-specific results, and the SNP, rs17109582 (OR = 12.5; P = 0.006), showed the highest effect size for age-specific results. Sex chromosome variants did not appear to be involved in gender-specific associations. The HLA-DQA1 SNPs belong to DQA1*01:07and confirmed previously reported male-specific association with DQA1*01:07. Twenty one of the SNPs identified as risk markers for gender- or age-specific associations were located in the transcription factor binding sites and 56 SNPs were non-synonymous variants, likely to alter protein function. Although bioinformatic analysis did not implicate a particular mechanism for gender- and age-specific associations, RASSF2 has an estrogen receptor-alpha binding site in its promoter. The unknown mechanisms may be due to lack of interest in gender- and age-specificity in associations. These results provide a foundation for further studies to examine the gender- and age-differential in childhood ALL risk. Following replication and mechanistic studies, risk factors for one gender or age group may have a potential to be used as biomarkers for targeted intervention for prevention and maybe also for treatment.

Genome-wide association study

Single nucleotide polymorphism

Acute lymphoblastic leukemia

Childhood Leukemia

Gender-specific

Age-specific

Case-only

Time-to-event analysis

Bioinformatics

Environmental Public Health

Public Health

Statistical Learning of Proteomics Data and Global Testing for Data with Correlations

Donglai Chen (6405944)

15 May 2019

<div>This dissertation consists of two parts. The first part is a collaborative project with Dr. Szymanski's group in Agronomy at Purdue, to predict protein complex assemblies and interactions. Proteins in the leaf cytosol of Arabidopsis were fractionated using Size Exclusion Chromatography (SEC) and mixed-bed Ion Exchange Chromatography (IEX).</div><div>Protein mass spectrometry data were obtained for the two platforms of separation and two replicates of each. We combine the four data sets and conduct a series of statistical learning, including 1) data filtering, 2) a two-round hierarchical clustering to integrate multiple data types, 3) validation of clustering based on known protein complexes,</div><div>4) mining dendrogram trees for prediction of protein complexes. Our method is developed for integrative analysis of different data types and it eliminates the difficulty of choosing an appropriate cluster number in clustering analysis. It provides a statistical learning tool to globally analyze the oligomerization state of a system of protein complexes.</div><div><br></div><div><br></div><div>The second part examines global hypothesis testing under sparse alternatives and arbitrarily strong dependence. Global tests are used to aggregate information and reduce the burden of multiple testing. A common situation in modern data analysis is that variables with nonzero effects are sparse. The minimum p-value and higher criticism tests are particularly effective and more powerful than the F test under sparse alternatives. This is the common setting in genome-wide association study (GWAS) data. However, arbitrarily strong dependence among variables poses a great challenge towards the p-value calculation of these optimal tests. We develop a latent variable adjusted method to correct minimum p-value test. After adjustment, test statistics become weakly dependent and the corresponding null distributions are valid. We show that if the latent variable is not related to the response variable, power can be improved. Simulation studies show that our method is more powerful than other methods in highly sparse signal and correlated marginal tests setting. We also show its application in a real dataset.</div>

Statistics

Applied Statistics

Biostatistics

Statistical Theory

mass spectrometry proteomic methods

Global test

Genome-Wide Association Study

Latent Factor Modeling

Correlation structures

Risk estimation model for nonalcoholic fatty liver disease in the Japanese using multiple genetic markers / 複数遺伝マーカーを用いた日本人における非アルコール性脂肪性肝疾患のリスク予測モデル

Kawaguchi, Takahisa

23 March 2021

京都大学 / 新制・論文博士 / 博士(医学) / 乙第13398号 / 論医博第2222号 / 新制||医||1051(附属図書館) / (主査)教授 妹尾 浩, 教授 中山 健夫, 教授 西浦 博 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM

nonalcoholic fatty liver disease

nonalcoholic steatohepatitis

NASH-derived hepatocellular carcioma

genome wide association study

polygenic risk score

risk estimation model

490

Genetic and biological architecture of pork quality, carcass, primal-cut and growth traits in Duroc pigs

Hannah E Willson (9187739)

01 August 2020

<p>Within the last few decades, swine breeding programs have been refined to include pork quality and novel carcass traits alongside growth, feed efficiency, and carcass leanness in the selection programs for terminal sire lines with a goal to produce high quality and efficient pork product for consumers. In order to accurately select for multiple traits at once, it becomes imperative to explore their genetic and biological architecture. The genetic architecture of traits can be explored through the estimation of genetic parameters, genome-wide association studies (GWAS), gene networks and metabolic pathways. An alternative approach to explore the genetic and biological connection between traits is based on principal component analysis (PCA), which generates novel “pseudo-phenotypes” and biological types (biotypes). In this context, the main objective of this thesis was to understand the genetic and biological relationship between three growth, eight conventional carcass, 10 pork quality, and 18 novel carcass traits included in two studies. The phenotypic data set included 2,583 records from female Duroc pigs from a terminal sire line. The pedigree file contained 193,764 animals and the genotype file included 21,344 animals with 35,651 single nucleotide polymorphisms (SNPs). The results of the first study indicate that genetic progress can be achieved for all 39 traits. In general, the heritability estimates were moderate, while most genetic correlations were generally moderate to high and favorable. Some antagonisms were observed but those genetic correlations were low to moderate in nature. Thus, these relationships can be considered when developing selection indexes. The second study showed that there are strong links between traits through their principal components (PCs). The main PCs identified are linked to biotypes related to growth, muscle and fat deposition, pork color, and body composition. The PCs were also used as pseudo-phenotypes in the GWAS analysis, which identified important candidate genes and metabolic pathways linked to each biotype. All of this evidence links valuable variables such as belly, color, marbling, and leanness traits. Our findings greatly contribute to the optimization of genetic and genomic selection for the inclusion of valuable and novel traits to improve productive efficiency, novel carcass, and meat quality traits in terminal sire lines.<br></p><p></p>

Animal Breeding

belly trait

genetic correlation

heritability

pork color

swine

meat quality

PCA

GWAS

principal component

principal component analysis

biotype

biological type

genome-wide association study

Exploiting the genetic diversity of rapeseed (Brassica napus L.) root morphology to improve nitrogen acquisition from soil

Louvieaux, Julien

12 October 2020

Nitrogen (N) is a central nutrient in cropping systems. However, a considerable N fraction is lost through runoffs and leaching with detrimental consequences for environment and controversial effects on human health. Increasing the plant N uptake by optimizing the degree of root branching for exploring a larger soil volume in search of the mobile nitrate resource may contribute to limit soil leaching and subsequently to rely more efficiently on the soil mineralization and fertilizer inputs. Rapeseed (Brassica napus L.) is a major oil crop that highly depends on N fertilization. This doctoral thesis aims at exploring the diversity of root morphology in recently selected cultivars and in a large set of rapeseed inbred lines, and at understanding the genetic control on root morphology and how it is impacted by N nutrition.Firstly, a panel of twenty-eight European recently selected cultivars of winter oilseed rape were tested in laboratory and field conditions. Upon hydroponic culture, these hybrids showed a great diversity for biomass production and root morphological traits. Differences in root and shoot dry biomasses and lateral root length were mainly explained by the genotype, while differences in primary root length by the nutrition. The cultivars were tested in a pluriannual field trial. The observed variation for yield and seed quality traits attributed to the genotype was more important than the year or the genotype x year interaction effects. The total root length measured in laboratory could predict the proportion of nitrogen taken-up from the field and reallocated to the seeds. The genetic interrelationship between cultivars, established with polymorphic markers, indicated a very narrow genetic base. Positive correlations were found between the genetic distance measures, root morphological trait distances during nitrogen depletion conditions, and agronomic performance. Secondly, three cultivars previously selected from a root morphology screen at a young developmental stage were field tested with two nitrogen applications. The purpose was to examine the relationship between root morphology and Nitrogen Uptake Efficiency (NUpE) and to test the predictiveness of canopy optical indices for seed quality and yield. A tube-rhizotron system was used to incorporate below-ground root growth information. One-meter length clear tubes were installed in soil at an angle of 45°. The root development was followed with a camera at key growth stages in autumn (leaf development) and spring (stem elongation and flowering). Autumn was a critical time window to observe the root development and exploration in deeper horizons (36-48 cm) was faster without any fertilization treatment. Analysis of the rhizotron images was challenging and it was not possible to clearly discriminate between cultivars. Canopy reflectance and leaf optical indices were measured with proximal sensors. The Normalized Difference Vegetation Index (NDVI) was a positive indicator of biomass and seed yield while the Nitrogen Balance Index (NBI) was a positive indicator of above-ground biomass N concentration at flowering and seed N concentration at harvest.Thirdly, the natural variability offered by a diversity set of 392 inbred lines was screened to apprehend the genetic control of root morphology in rapeseed and how it is impacted by nitrogen nutrition. Seedlings grew hydroponically with low (0.2 mM) or elevated (5 mM) nitrate supplies. Low nitrate supply triggered the primary root and lateral root growth, while elevated supply promoted shoot biomass production. A considerable variation degree in the root morphological traits was observed across the diversity set, and there was no trade-off between abundant lateral root branching and shoot biomass production. Root traits were mainly dependent on the genotype and highly heritable. A genome wide association study identified some genomic regions associated with biomass production and root morphological traits. A total of fifty-nine QTLs were identified and thirty of them were integrated into seven clusters on chromosomes A01 and C07. Some candidate genes were identified with Arabidopsis orthologs related to root growth and development, nitrogen nutrition or hormone regulation.This study provides promising routes for redesigning the root system architecture by uncovering nitrogen-interactive genomic regions shaping root morphology. A perspective is to develop genetic markers associated with root morphological traits that could be used for assisted breeding. / Doctorat en Sciences agronomiques et ingénierie biologique / info:eu-repo/semantics/nonPublished

Sciences agronomiques

Brassica napus

field performance

genetic diversity

hydroponics

root morphology

Nitrogen fertilization

Nitrogen Uptake Efficiency

minirhizotron

oilseed rape

root development

quantitative trait locus

genome-wide association study

Genome-Wide Association Analysis of Major Depressive Disorder and Its Related Phenotypes.

Aragam, Nagesh Ramarao

17 December 2011

Major Depressive Disorder (MDD) is a complex and chronic disease that ranks fourth as cause of disability worldwide. Thirteen to 14 million adults in the U.S. are believed to have MDD and an estimated 75% attempt suicide making MDD a major public health problem. Recently several genome-wide association (GWA) studies of MDD have been reported; however, few GWA studies focus on the analysis for MDD related phenotypes such as neuroticism and age at onset of MDD. The purpose of this study is to determine risk factors for MDD, identify genome-wide genetic variants affecting neuroticism and age at onset as quantitative traits, and detect gender differences influencing neuroticism. Bivariate and multiple logistic regression analyses were performed on 1,738 MDD cases and 1,618 non-MDD controls to determine phenotypic risk factors for MDD. Multiple linear regression analyses in PLINK software were used for GWA analyses for neuroticism and age at onset of MDD with 437,547 Single Nucleotide Polymorphisms (SNPs). Gender (OR: 1.43; 95% CI: 1.24 - 1.64) and a family history (OR: 2.88; 95% CI: 2.48 - 3.35) were significantly associated with an increased risk of MDD, which supports the findings of prior studies. Through GWA analysis 34 SNPs were identified to be associated with neuroticism (p < 10-4). The best SNP was rs4806846 within the TMPRSS9 gene (p = 7.79 x10-6). Furthermore, 46 SNPs were found showing significant gene x gender interactions for neuroticism with p<10-4. The best SNP showing gene x gender interaction was rs2430132 (p = 5.37x10-6) in HMCN1 gene. In addition, GWA analysis showed that several SNPs within 4 genes (GPR143, ASS1P4, MXRA5 and MAGEC1/2) were significantly associated with age at onset of MDD (p < 5x10-7). This study confirmed previous findings that MDD is associated with an increased prevalence in women (about 43% more compared to men) and is highly heritable among first degree relatives. Several novel genetic loci were identified to be associated with neuroticism and age at onset. Gender differences were found in genetic influence of neuroticism. These findings offer the potential for new insights into the pathogenesis of MDD.

Genome-wide Significance

Novel Genetic Variants

Major Depression Disorder

Genome-wide Association Study

Gene x Gender Interactions

Medicine and Health Sciences

Mental Disorders

Psychiatry and Psychology

Public Health

Spousal Concordance in Academic Achievements and Intelligence and Family-Based Association Studies Identified Novel Loci Associated with Intelligence.

Pan, Yue

13 August 2010

Assortative Mating, the tendency for mate selection to occur on the basis of similar traits, plays an essential role in understanding the genetic variation on academic achievements and intelligence (IQ). It is an important mechanism explaining spousal concordance. We used principal component analysis (PCA) for spousal correlation. There is a significant positive correlation between spouses by the new variable PC1 (correlation coefficient=0.515, p<0.0001). We further research the genetic factor that affects IQ by using the same data. We performed a low density genome-wide association (GWA) analysis with a family-based association test to identify genetic variants that associated with intelligence as measured by WAIS full-score IQ (FSIQ). NTM at 11q25 (rs411280, p=0.000764) and NR3C2 at 4q31.23 (rs3846329, p=0.000675) were 2 novel genes that haven't been associated with IQ from other studies. This study may serve as a resource for replication in other populations and a foundation for future investigations.

Achievements

IQ

Spousal Concordance

Intelligence

Assortative Mating

Cognitive ability

Family-based association test

Genome-wide association study

Haplotype

NTM

NR3C2

Biostatistics

Physical Sciences and Mathematics

Statistics and Probability