[PDF] Characterizing Rare Genetic And Epigenetic Variation In Complex Phenotypes eBook

Author : Enrique Ivan Ramos
Publisher :
Page : 241 pages
File Size : 42,52 MB
Release : 2015
Category : Electronic dissertations
ISBN :

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Common genetic variability has failed to explain a large fraction of the heritability of complex disease. In contrast, rare genomic variation plays an important role in novel Mendelian phenotypes and complex traits, and is the most common type of genetic variation in populations (Tennessen et al, 2012). International large sequencing initiatives have demonstrated that individual genetic variability exceeds prior estimates (Fu et al, 2013), and complex traits are mediated through additive genetic variation (Hill WG, 2008). Identification of these rare variant profiles is relevant to pinpoint potential disease-related mechanisms in complex disease; however, due to the substantial number of possible targets in the genome and the variability between individuals, this task was not easily attainable until the advent of next-generation sequencing (NGS) and the subsequent ability to target any portion of the genome. These analyses require processing extensive amounts of NGS data using robust and accurate bioinformatics. To improve the ability to quantitatively characterize rare variability in complex phenotypes, I have participated in the development of bioinformatic pipelines that enable detection of rare substitutions, insertions and deletions from a few target genes in anonymous pools of DNA (Vallania, Ramos et al, 2010; Vallania, Ramos et al, 2012) and extended the capability of these pipelines to allow highly sensitive, specific and efficient quantification of rare variation from targeted capture of hundreds of candidate genes up to entire exomes in individually indexed ("bar-coded") NGS data (Ramos et al, 2012). I have demonstrated the utility of these algorithms through the identification of disease-causing genes in complex phenotypes such as fatal extreme microcephaly (Ramos et al, 2014) and congenital anomalies of the kidney or lower urinary tract (Chatterjee, Ramos et al, 2012). Additional types of rare epigenetic variation, such as DNA methylation, may further influence complex phenotypes and biological processes (Hernandez et al, 2012; Leung et al, 2012; Bell et al, 2011). However, outside of costly whole genome bisulfite sequencing, methods for large scale, targeted DNA methylation analysis (e.g. methylated DNA immunoprecipitation (MeDIP), reduced representation bisulfate sequencing (RRBS), methylation sensitive restriction enzyme (MSRE) digestion) have demonstrated conflicting results. To develop more robust bioinformatics for the quantification of rare epigenomic variation in complex traits, I have developed a novel genome-wide murine methylome hybridization capture array and adapted my previously established pipeline to enable highly sensitive methylation analysis. Using this array and bioinformatic pipeline, I have identified a discreet number of age and tissue-specific methylation changes in the mouse genome (manuscript in preparation), as well as, identification of novel tissue-specific DNA methylation patterns of genes involved in neurodevelopment (Hing, Ramos; et al.). Taken together, the goal of this study is to facilitate the quantification of different forms of rare variation, which will lead to novel insights in complex phenotypes and diseases.

Author : Anna K. Naumova
Publisher : Springer Science & Business Media
Page : 356 pages
File Size : 32,54 MB
Release : 2013-09-17
Category : Medical
ISBN : 1461480787

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This book will provide an overview of basic epigenetic phenomena; interaction between epigenetic and genetic factors; and the influence of epigenetic factors on inheritance. Epigenetic states may contribute to the penetrance of genetic polymorphisms or mutations and thereby modify inheritance patterns. This may result in non‐Mendelian inheritance of genetic traits such as observed in common human disease. The relationship between epigenetics and genetics, however, has not been comprehensively summarized yet. The topic is being more and more appreciated lately due to considerable advances in genomic and epigenomic approaches to study the origins of human disease. The editors will focus not only on describing epigenetic characteristics, mechanisms and results, but also on how considerations of epigenetics can alter interpretation and analysis of risks for complex traits. This book will be a resource for those who have been working in human genetics or analysis of human genetic data and are studying the impact of epigenetics on inheritance. An overview will be given of the impacts of inter‐individual variation in epigenetic states from major changes (errors in genomic imprinting) that cause congenital developmental defects to subtle changes and their impact on complex traits. The editors will discuss the relationship between epigenetic changes and genetic changes in human disease. Several chapters will also focus on statistical analysis of epigenetics effects, either in human disease genetic studies, or in population genetics. ​

Author : Nicole Ferraro
Publisher :
Page : pages
File Size : 28,30 MB
Release : 2021
Category :
ISBN :

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Rare variants, due to their abundance and often relatively recent appearance, are expected to play a large role in genetic contributions to disease. However, determining rare variants with potential to impact the development of rare or common diseases remains a challenge. In this dissertation, I discuss several projects assessing multi-omics data integration to identify functional rare variation and connect variants to both rare and common disease. In chapter 2, I present work analyzing transcriptomic data to improve rare disease diagnosis and in particular, identifying patterns of allele-specific expression in rare disease individuals that highlight genes associated with the patient's phenotype. In chapter 3, I present approaches using transcriptomes across ~50 tissues for ~800 individuals with matched whole genome sequencing to characterize rare variation leading to multitissue changes in gene expression, allelic imbalance and alternative splicing, a subset of which show strong associations with common diseases in an external cohort. In chapter 4, I assess additional functional signals, DNA methylation and plasma proteome abundance, in addition to transcriptomic information to further refine our understanding of how rare variants can contribute to downstream phenotypes, and identify rare variation contributing to large changes across DNA methylation, gene expression, and protein abundance in a multi-ethnic cohort. Together, this work provides several approaches for integrating functional multi-omics data into rare variant interpretation pipelines and evaluates their use across multiple contexts.

Author : Juntao Hu
Publisher :
Page : pages
File Size : 11,6 MB
Release : 2018
Category :
ISBN :

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"Epigenetic mechanisms, especially DNA methylation, have been typically studied in the domains of development and disease; however, recent studies have suggested that epigenetics may also play important roles in ecological and evolutionary processes. In this thesis, I examine the roles of DNA methylation in facilitating animals responding to environmental change. I begin my thesis with a chapter that provides a review of empirical and theoretical studies analysing the effects of epigenetics on phenotypic plasticity and evolution in animals. This forms the background knowledge for the dissertation, and also helps to reveal knowledge gaps to be filled by my other chapters. I found that epigenetic patterns can be shaped by the environment both within and across generations, and that epigenetic variation can play a role in local adaptation. I also evaluate the evolutionary potential of epigenetic variation depending on its autonomy from genetic variation, and its transgenerational stability. During my literature review, I found that environmental effects on epigenetic variation have typically been assessed under laboratory conditions. Thus, to add to the limited but growing body of literature on epigenetics in natural populations of animals, I evaluate epigenetic responses to environmental conditions in three distinct empirical systems and ecological scenarios. In my second chapter, I investigate changes in genome-wide DNA methylation patterns of Trinidadian guppies (Poecilia reticulata) during the course of infection by the monogenean ectoparasite, Gyrodactylus turnbulli. I found an epigenetic signature of infection by ectoparasites, and identified unique methylation responses at distinct phases of infection. In my third chapter, I explore genome-wide DNA methylation variation of Anolis lizards (Anolis sagrei) during the early stage of colonization of new habitats. I found that the magnitude of epigenetic variation was dependent on the environmental shift between new and source habitats, and discovered a potential relationship between epigenetic variation and physiological changes in populations at the earliest stages of colonization of new environments. Together with previous work, results from the two chapters suggest that patterns of DNA methylation can rapidly respond to environmental change, and that these methylation changes are involved in the regulation of critical genes and pathways. Although these findings highlight the importance of environmentally-mediated methylation changes, most genomic methylation patterns are static across tissues and throughout life, and some are even stable across generations. Thus, in my last chapter, I use threespine stickleback (Gasterosteus aculeatus) to characterise the distribution and function of constitutive methylation, and assess the amount of heritable methylation. I found a clear pattern of epigenetic variation across generations that is likely to be shaped by genetic variation. In addition, I found that constitutive methylation mapped to genes with functions relevant to fish development, with distinct enrichment of genomic context (promoters or gene bodies) between constitutive hypo- and hypermethylation. Finally, I identified a small but significant amount of heritable methylation. Collectively, my thesis demonstrates the utility of epigenome-wide scans for identifying candidate loci associated with complex phenotypes, and represents a valuable contribution to our understanding of the involvement of epigenetics in ecological and evolutionary process. Consequently, this work helps to improve our ability to predict the capacity of organisms to respond to changing environments." --

Author : Institute of Medicine
Publisher : National Academies Press
Page : 385 pages
File Size : 18,17 MB
Release : 2006-12-07
Category : Social Science
ISBN : 0309101964

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Over the past century, we have made great strides in reducing rates of disease and enhancing people's general health. Public health measures such as sanitation, improved hygiene, and vaccines; reduced hazards in the workplace; new drugs and clinical procedures; and, more recently, a growing understanding of the human genome have each played a role in extending the duration and raising the quality of human life. But research conducted over the past few decades shows us that this progress, much of which was based on investigating one causative factor at a time—often, through a single discipline or by a narrow range of practitioners—can only go so far. Genes, Behavior, and the Social Environment examines a number of well-described gene-environment interactions, reviews the state of the science in researching such interactions, and recommends priorities not only for research itself but also for its workforce, resource, and infrastructural needs.

Author : Michal Polak
Publisher : Oxford University Press, USA
Page : 488 pages
File Size : 33,63 MB
Release : 2003
Category : Language Arts & Disciplines
ISBN : 9780195143454

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The field of developmental instability has generated a large amount of controversy recently, mostly because of fierce disagreement over the genetic basis of fluctuating asymmetry and its role in mate selection. This book is a timely and innovative critical evaluation of a burgeoning field. The book explores the premise that complex organismal, ecological and evolutionary processes can be understood as emergent properties of the "epigenetic machine," that is, the mechanisms fundamental to all organisms responsible for building and organizing phenotypes from information translated from DNA.

Author : Philip David Zelazo
Publisher : Oxford University Press
Page : 1049 pages
File Size : 12,90 MB
Release : 2013-03-21
Category : Medical
ISBN : 0199958459

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This handbook provides a comprehensive survey of what is now known about psychological development, from birth to biological maturity, and it highlights how cultural, social, cognitive, neural, and molecular processes work together to yield human behavior and changes in human behavior.

Author : National Research Council
Publisher : National Academies Press
Page : 429 pages
File Size : 45,20 MB
Release : 2008-01-06
Category : Social Science
ISBN : 0309108675

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Biosocial Surveys analyzes the latest research on the increasing number of multipurpose household surveys that collect biological data along with the more familiar interviewerâ€"respondent information. This book serves as a follow-up to the 2003 volume, Cells and Surveys: Should Biological Measures Be Included in Social Science Research? and asks these questions: What have the social sciences, especially demography, learned from those efforts and the greater interdisciplinary communication that has resulted from them? Which biological or genetic information has proven most useful to researchers? How can better models be developed to help integrate biological and social science information in ways that can broaden scientific understanding? This volume contains a collection of 17 papers by distinguished experts in demography, biology, economics, epidemiology, and survey methodology. It is an invaluable sourcebook for social and behavioral science researchers who are working with biosocial data.

Author : Jacob Peedicayil
Publisher : Academic Press
Page : 848 pages
File Size : 39,96 MB
Release : 2021-08-21
Category : Science
ISBN : 0128235780

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Epigenetics in Psychiatry, Second Edition covers all major areas of psychiatry in which extensive epigenetic research has been performed, fully encompassing a diverse and maturing field, including drug addiction, bipolar disorder, epidemiology, cognitive disorders, and the uses of putative epigenetic-based psychotropic drugs. Uniquely, each chapter correlates epigenetics with relevant advances across genomics, transcriptomics, and proteomics. The book acts as a catalyst for further research in this growing area of psychiatry. This new edition has been fully revised to address recent advances in epigenetic understanding of psychiatric disorders, evoking data consortia (e.g., CommonMind, ATAC-seq), single cell analysis, and epigenome-wide association studies to empower new research. The book also examines epigenetic effects of the microbiome on psychiatric disorders, and the use of neuroimaging in studying the role of epigenetic mechanisms of gene expression. Ongoing advances in epigenetic therapy are explored in-depth. Fully revised to discuss new areas of research across neuronal stem cells, cognitive disorders, and transgenerational epigenetics in psychiatric disease Relates broad advances in psychiatric epigenetics to a modern understanding of the genome, transcriptome, and proteins Catalyzes knowledge discovery in both basic epigenetic biology and epigenetic targets for drug discovery Provides guidance in research methods and protocols, as well how to employ data from consortia, single cell analysis, and epigenome-wide association studies (EWAS) Features chapter contributions from international leaders in the field

Author : National Research Council
Publisher : National Academies Press
Page : 300 pages
File Size : 36,78 MB
Release : 2007-12-19
Category : Science
ISBN : 0309112982

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The new field of toxicogenomics presents a potentially powerful set of tools to better understand the health effects of exposures to toxicants in the environment. At the request of the National Institute of Environmental Health Sciences, the National Research Council assembled a committee to identify the benefits of toxicogenomics, the challenges to achieving them, and potential approaches to overcoming such challenges. The report concludes that realizing the potential of toxicogenomics to improve public health decisions will require a concerted effort to generate data, make use of existing data, and study data in new waysâ€"an effort requiring funding, interagency coordination, and data management strategies.