Genetic analysis of protein N-glycosylation

Huffman, Jennifer Elizabeth

January 2014

The majority of human proteins are post-translationally modified by covalent addition of one or more complex oligosaccharides (glycans). Alterations in glycosylation processing are associated with numerous diseases and glycans are attracting increasing attention both as disease biomarkers and as targets for novel therapeutic approaches. Using a recently developed high performance liquid chromatography (HPLC) method for high-throughput glycan analysis, genome-wide association studies (GWAS) of 33 directly measured and 13 derived N-glycan features were performed in 3533 individuals from four European isolated populations. Polymorphisms at six loci were found to show genome-wide significant association with plasma concentrations of N-glycans. Several of these gene products have well characterised roles in glycosylation, however, SLC9A9 and HNF1A were two of the novel findings. Subsequent work performed by collaborators found HNF1A to be a “master regulator” of genes involved in the fucosylation of plasma N-glycans. Additionally, this work led to the discovery that N-glycans could act as biomarkers to discriminate HNF1A-MODY from type 1 and type 2 diabetes mellitus (T1D, T2D) patients. After the success of the total plasma N-glycan GWAS, it was thought that stronger and more biologically interpretable associations may be found from the investigation of N-glycans isolated from a single protein. Glycosylation of immunoglobulin G (IgG) influences IgG effector function by modulating binding to Fc receptors. To identify genetic networks that govern IgG glycosylation, N-linked IgG glycans were quantitated using ultra performance liquid chromatography (UPLC) in 2247 individuals from the same four European populations from the previous study. GWAS of the 77 N-glycan measures identified 15 loci with a p-value < 5x10-08. Four loci contained genes encoding glycosyltransferases, while the remaining loci contained genes that have not previously been implicated in protein glycosylation. However, most have been associated with autoimmune and inflammatory conditions and/or hematological cancers. Several high-throughput methods for the analysis of N-glycans have been developed in the past few years but thorough validation and standardization of these methods is required before significant resources are invested in large-scale studies. To this end, four of these methods were compared, UPLC, multiplexed capillary gel electrophoresis (xCGE), and two mass spectrometric (MS) methods, for quantitative profiling of N-glycosylation of plasma IgG in a subset of 1201 individuals recruited from two of the cohorts used in the previous GWAS studies. A “minimal” dataset was compiled of N-glycan structures able to be measured by all four methods. To evaluate their accuracy, correlations were calculated for each structure in the minimal dataset. Additionally, GWAS was performed to test if the same associations would be observed across methodologies. Chromatographic methods with either fluorescent or MS-detection yielded slightly stronger associations than MS-only and xCGE, but at the expense of lower levels of throughput. Advantages and disadvantages of each method were identified, which should aid in the selection of the most appropriate method for future studies. This work shows that it is possible to identify new loci that control glycosylation of plasma proteins using GWAS and the potential of N-glycans for biomarker development. It also provides some guidelines for methodology selection for future studies of N-glycans.

572

Einfluss von Punktmutationen auf die Funktionalität von NK-Zellen in Interaktion mit Aspergillus fumigatus / Influence of point mutations on the functionality of NK cells in interaction with Aspergillus fumigatus

Kerber, Isabel

January 2019

Ziel der vorliegenden Arbeit war die Charakterisierung von Punktmutationen in ifng und ncam1 in Hinblick auf eine veränderte Funktionalität von NK-Zellen bei der Interaktion mit A. fumigatus. Die gewonnenen Erkenntnisse sollen langfristig zur Verbesserung der Diagnostik, Prophylaxe und Therapie einer Invasiven Aspergillose, die zum Beispiel im Rahmen einer Stammzelltransplantation auftreten könnte, beitragen. In dieser Arbeit wurde die DNA von zwanzig gesunden Spendern auf einen ifng-SNP (rs2069705) und einen ncam1-SNP (rs10502171) untersucht. Von je drei ausgewählten Spendern mit SNP und sechs Kontrollspendern wurden NK-Zellen isoliert. Diese wurden unstimuliert belassen, mit Interleukin 2/15 oder A. fumigatus stimuliert. Bei der Versuchsreihe zum ifng-SNP wurde eine qPCR zur Ermittlung der relativen Expression von ifng und ccl4, bei den Versuchen zum ncam1-SNP eine durchflusszytometrische Analyse zur Messung der Expression verschiedener Oberflächenmarker durchgeführt. Bei beiden wurde mittels ELISA die Freisetzung von IFN-gamma bzw. CCL4/MIP-1ß bestimmt. Die in dieser Arbeit gewonnenen Ergebnisse zum ifng-SNP lassen vermuten, dass das Vorliegen dieses ifng-SNP keine durch NK-Zellen vermittelten Auswirkungen auf das Risiko der Patienten, an einer Invasiven Aspergillose zu erkranken, hat. In Bezug auf den ncam1-SNP konnte die Hypothese bestätigt werden, dass der SNP die Interaktion zwischen der NK-Zelle und A. fumigatus verändert. Der SNP korreliert zwar mit einer erhöhten Grundaktivierung von NK-Zellen, jedoch auch mit einem schwächeren Aktivierungspotential bei Stimulation mit dem Pilz. / The aim of this thesis was the characterization of point mutations in ifng and ncam1 with respect to an altered functionality of NK cells during interaction with A. fumigatus. In the long term, the findings should contribute to the improvement of the diagnosis, prophylaxis and therapy of invasive aspergillosis, which can occur, for example, after stem cell transplantation. In this work, the DNA of twenty healthy donors was examined for one ifng-SNP (rs2069705) and one ncam1-SNP (rs10502171). NK cells were isolated from three donors for each SNP and six control donors. These were left unstimulated, stimulated with interleukin 2/15 or A. fumigatus. In the ifng-SNP series qPCR was performed to determine the relative expression of ifng and ccl4, in the ncam1-SNP series flow cytometric analysis was performed to measure the expression of different surface markers. In both cases the release of IFN-gamma and CCL4/MIP-1ß was determined by ELISA. The results obtained in this study on ifng-SNP suggest that the presence of this ifng-SNP has no NK cell mediated effects on the risk of patients suffering from invasive aspergillosis. With regard to the ncam1-SNP, the hypothesis that the SNP alters the interaction between the NK cell and A. fumigatus was confirmed. The SNP correlates with an increased basic activation of NK cells, but also with a weaker activation potential when stimulated with the fungus.

Punktmutation

Natürliche Killerzelle

Aspergillus fumigatus

Single nucleotide polymorphism

ddc:610

Association of the iPLA2β Gene With Bipolar Disorder and Assessment of Its Interaction With TRPM2 Gene Polymorphisms

Xu, Chun, Warsh, Jerry J., Wang, Keng S., Mao, Chun X., Kennedy, James L.

01 April 2013

Altered intracellular calcium homeostasis and oxidative stress are involved in the pathophysiology of bipolar disorder (BD)-I. To explore the genes contributing to these abnormalities, we examined the association with BD of the iPLA2β (PLA2G6), a signaling enzyme that mobilizes the arachidonic acid signaling cascade and activates oxidative stress, and assessed whether it interacts genetically with type 2 transient receptor potential channel gene (TRPM2), an oxidative stress-responsive calcium channel implicated both functionally and genetically in BD-I. Two tag single nucleotide polymorphisms rs4375 and rs3788533 in iPLA2β were genotyped in 446 White case-control individuals and 296 BD families using a 5′-nuclease TaqMan assay. The results were analyzed using χ-test and transmission disequilibrium tests, and Haploview. In a secondary analysis, we tested gene-gene interactions between TRPM2 and iPLA2β on BD vulnerability by logistic regression using a case-only design in PLINK. iPLA2β-rs3788533 showed a borderline association with BD-I in patients with a history of psychosis in both case-control and family designs. Association with BD as a whole was observed in the family study (significant over transmissions of rs3788533-allele C, P=0.015, PBonferroni=0.03, TDTPHASE). A borderline interaction was found between rs749909 within TRPM2 and rs4375 within iPLA2β (Puncorrected=0.009), on the basis of the case-only design analyzed with PLINK. A significant association of iPLA2β variants with BD-I and a trend gene-gene interaction between iPLA2β and TRPM2 provides additional support for the notion that genetic variation in these two functionally implicated candidates contributes toward the risk and pathophysiology of this illness.

bipolar disorder

genegene interaction

iPLA2b

single nucleotide polymorphism

TRPM2

Association of the iPLA2β Gene With Bipolar Disorder and Assessment of Its Interaction With TRPM2 Gene Polymorphisms

Xu, Chun, Warsh, Jerry J., Wang, Keng S., Mao, Chun X., Kennedy, James L.

01 April 2013

Altered intracellular calcium homeostasis and oxidative stress are involved in the pathophysiology of bipolar disorder (BD)-I. To explore the genes contributing to these abnormalities, we examined the association with BD of the iPLA2β (PLA2G6), a signaling enzyme that mobilizes the arachidonic acid signaling cascade and activates oxidative stress, and assessed whether it interacts genetically with type 2 transient receptor potential channel gene (TRPM2), an oxidative stress-responsive calcium channel implicated both functionally and genetically in BD-I. Two tag single nucleotide polymorphisms rs4375 and rs3788533 in iPLA2β were genotyped in 446 White case-control individuals and 296 BD families using a 5′-nuclease TaqMan assay. The results were analyzed using χ-test and transmission disequilibrium tests, and Haploview. In a secondary analysis, we tested gene-gene interactions between TRPM2 and iPLA2β on BD vulnerability by logistic regression using a case-only design in PLINK. iPLA2β-rs3788533 showed a borderline association with BD-I in patients with a history of psychosis in both case-control and family designs. Association with BD as a whole was observed in the family study (significant over transmissions of rs3788533-allele C, P=0.015, PBonferroni=0.03, TDTPHASE). A borderline interaction was found between rs749909 within TRPM2 and rs4375 within iPLA2β (Puncorrected=0.009), on the basis of the case-only design analyzed with PLINK. A significant association of iPLA2β variants with BD-I and a trend gene-gene interaction between iPLA2β and TRPM2 provides additional support for the notion that genetic variation in these two functionally implicated candidates contributes toward the risk and pathophysiology of this illness.

bipolar disorder

genegene interaction

iPLA2b

single nucleotide polymorphism

TRPM2

Association of RS2200733 but Not RS10033464 on 4q25 With Atrial Fibrillation Based on the Recessive Model in a Taiwanese Population

Lee, Kun T., Yeh, Hi Y., Tung, Chung P., Chu, Chih S., Cheng, Kai H., Tsai, Wei C., Lu, Ye Hsu, Chang, Jan G., Sheu, Sheng H., Lai, Wen T.

01 August 2010

Objectives: To determine the association between genetic variants on chromosome 4q25 and atrial fibrillation (AF) in a Taiwanese population. Methods: We enrolled 200 patients with AF (mean age: 67 ± 13 years) and 158 controls (mean age: 63 ± 10 years). The genotypes of five SNPs, RS2634073, RS2200733, RS13143308, RS2220427 and RS10033464, were determined using multiplex single base extension methods. Results: The distribution of the RS2200733 and RS10033464 genotypes did not significantly deviate from the Hardy-Weinberg equilibrium in the control group. The distribution of the RS2200733 genotypes differed significantly between the AF group and the controls (p = 0.03), whereas the distribution of the RS10033464 genotypes did not (p = 0.49). At RS2200733, patients with the CC genotype exhibited a 0.45 times higher risk of developing AF than those with the TT genotype (p = 0.02) and a recessive model was suggested (p = 0.01). After adjusting for various covariates, patients with the CC genotype remained recessively associated with a lower risk of developing AF than those with the TT genotype (odds ratio: 0.27, 95% confidence interval: 0.11-0.65; p < 0.01). Conclusions: In the Taiwanese, there is an association between SNP RS2200733 - but not RS10033464 - and the development of AF. Based on a recessive model of inheritance, individuals with SNP RS2200733 genotype CC are at a lesser risk of developing AF.

atrial fibrillation

multiplex single base extension

single nucleotide polymorphism

Genome-Wide Association Study for Disease Traits In Wheat and Its Wild Relatives

Fatima, Fizza

31 August 2020

Wheat is the most widely grown crop in the world and as such, is an essential source of energy and nutrition. The challenges that breeders presently face is to increase production to feed the rising population of the world, while also accounting for climate change, pollution, water and environmental stresses. As genetic uniformity of modern cultivars has increased vulnerability to pests and diseases, the wild relatives of wheat offer a rich source of genetic diversity and stress tolerance traits, that can be harnessed and transferred in to modern wheat. In this study, we used array-based genotyping to explore genetic diversity in 385 domesticated and non-domesticated lines of wheat and their wild relatives. Genetic characterization using the wheat 90K array, and subsequent filtering and validation mapped 9,570 single nucleotide polymorphic markers onto the wheat reference genome. Phylogenetic analyses illustrated four major clades, clearly separating the wild species from the domesticated, and the ancient Triticum turgidum species from modern T. turgidum cultivars. Using this diverse germplasm, a genome-wide association study (GWAS) was performed for leaf rust, the most widespread rust disease of wheat. Identification of novel sources of resistance is necessary to maintain disease resistance and stay ahead in the plant-pathogen evolutionary arms race. GWAS was conducted using eight statistical models for infection types against six leaf rust isolates and leaf rust severity rated in field trials for 3-4 years at 2-3 locations in Canada. Functional annotation of genes containing significant quantitative trait nucleotides (QTNs) identified 96 disease-related nucleotide associated with leaf rust resistance. A total of 21 QTNs were in haplotype blocks or within flanking markers of at least 16 known leaf rust (Lr) resistance genes. The remaining significant QTNs were considered loci that putatively harbor new Lr resistance genes. Future efforts to validate these loci will help understand their role in disease resistance and promote their utility for marker-assisted selection in pre-breeding.

Wheat

Leaf rust

GWAS

Genotyping

Single nucleotide polymorphism

Triticum aestivum

A novel susceptibility locus in the IL12B region is associated with the pathophysiology of Takayasu arteritis through IL-12p40 and IL-12p70 production / IL12B領域に存在する新規疾患感受性一塩基多型はIL-12p40およびIL-12p70の産生を介して高安動脈炎の病態生理と関連する

Nakajima, Toshiki

23 January 2018

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第20808号 / 医博第4308号 / 新制||医||1025(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 椛島 健治, 教授 玉木 敬二, 教授 生田 宏一 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Takayasu atreritis

Vasculitis

Interleukin-12

Single nucleotide polymorphism

Monocytes

490

SNP characterizaiton and genetic and molecular analysis of mutants affecting fiber development in cotton

An, Chuanfu

03 May 2008

Cotton (Gossypium spp.) is the world’s leading textile fiber crop, and an important source of oil and protein. Insufficient candidate gene derived-markers suitable for genetic mapping and limited information on genes that control economically important traits are the major impediments to the genetic improvement of Upland cotton (G. hirsutum L.). The objectives of this study were to develop a SNP marker discovery strategy in tetraploid cotton species, SNP characterization and marker development from fiber initiation and elongation related genes, chromosomal assignment of these genes by SNP marker-based deletion analysis or linkage mapping, and genetic and molecular analysis of mutants affecting cotton fiber development. Phylogenetic grouping and comparision to At- and Dt-genome putative ancestral diploid species of allotetraploid cotton facilitated differentiation between genome specific polymorphisms (GSPs) and marker-suitable locus-specific polymorphisms (LSPs). By employing this strategry, a total of 222 and 108 SNPs were identified and the average frequency of SNP was 2.35% and 1.30% in six EXPANSIN A genes and six MYB genes, respectively. Both gene families showed independent and incongruent evolution in the two subgenomes and a faster evolution rate in Dt-genome than that in At-genome. SNPs were concordantly mapped to different chromsomes, which confirmed their value as candidate gene marker and indicated the reliability of SNP discovery stragey. QTL mapping by two F2 populations developed from fiber mutants detected major QTL which explain 62.8-87.1% of the phenotypic variation for lint percentage or lint index in the vicinity of BNL3482-138 on chromosome 26. Single marker regression analyses indicated STV79-108, which was located to the long arm of chromosome 12 (the known location of N1 and perhaps n2 loci), also had significant association (R2 % value 15.4-30.6) with lint percentage, lint index, embryo protein percentage and micronaire. Additional QTL and significant markers associated with other seed and fiber traits were detected on different chromosomes. Inheritance analysis indicated that both genetic models N1N1n2n2 and n2n2li3lisub>3 could lead to the fiberless phenotype. The observation of fuzzless-short lint phenotype indicated fiber initiation and elongation were controlled by different mechanisms. The penetrance of Li2 gene expression was observed in this study.

genetic analysis

QTL

fiber mutant

Single-nucleotide polymorphism

cotton

A STUDY OF THE EFFECT OF SINGLE NUCLEOTIDE POLYMORPHISMS IN HUMAN GENOME ON THE SECONDARY STRUCTURE OF PROTEINS

Aswathanarayanan, Subramanian

21 June 2002

No description available.

SNP

Single Nucleotide Polymorphism

Secondary Structure of Protiens

Human Genome

A Haplotype Analysis of an Archaic Denisovan Genome

Yatskiv, Yuriy Romanovich

January 2016

No description available.

Bioinformatics

Genetics

Denisovan

Haplotype

Genome

Single Nucleotide Polymorphism