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Metagenomic Systems Biology

Metagenomic Systems Biology
Author: Shailza Singh
Publisher: Springer Nature
Total Pages: 207
Release: 2020-12-07
Genre: Science
ISBN: 9811585628
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The book serves as an amalgamation of knowledge and principles used in the area of systems and synthetic biology, and targets inter-disciplinary research groups. The readers from diversified areas would be benefited by the valuable resources and information available in one book. Microbiome projects with efficient data handling can fuel progress in the area of microbial synthetic biology by providing a ready to use plug and play chassis. Advances in gene editing technology such as the use of tailor made synthetic transcription factors will further enhance the availability of synthetic devices to be applied in the fields of environment, agriculture and health. The different chapters of the book reviews a broad range of topics, including food microbiome in ecology, use of microbiome in personalized medicine, machine learning in biomedicine. The book also describes ways to harness and exploit the incredible amounts of genomic data. The book is not only limited to medicine but also caters to the needs of environmentalists, biochemical engineers etc. It will be of interest to advanced students and researchers in life sciences, computational biology, microbiology and other inter-disciplinary areas.

The New Science of Metagenomics

The New Science of Metagenomics
Author: National Research Council
Publisher: National Academies Press
Total Pages: 170
Release: 2007-06-24
Genre: Science
ISBN: 0309106761
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Although we can't usually see them, microbes are essential for every part of human life-indeed all life on Earth. The emerging field of metagenomics offers a new way of exploring the microbial world that will transform modern microbiology and lead to practical applications in medicine, agriculture, alternative energy, environmental remediation, and many others areas. Metagenomics allows researchers to look at the genomes of all of the microbes in an environment at once, providing a "meta" view of the whole microbial community and the complex interactions within it. It's a quantum leap beyond traditional research techniques that rely on studying-one at a time-the few microbes that can be grown in the laboratory. At the request of the National Science Foundation, five Institutes of the National Institutes of Health, and the Department of Energy, the National Research Council organized a committee to address the current state of metagenomics and identify obstacles current researchers are facing in order to determine how to best support the field and encourage its success. The New Science of Metagenomics recommends the establishment of a "Global Metagenomics Initiative" comprising a small number of large-scale metagenomics projects as well as many medium- and small-scale projects to advance the technology and develop the standard practices needed to advance the field. The report also addresses database needs, methodological challenges, and the importance of interdisciplinary collaboration in supporting this new field.

Introduction To Computational Metagenomics

Introduction To Computational Metagenomics
Author: Zhong Wang
Publisher: World Scientific
Total Pages: 210
Release: 2022-04-11
Genre: Science
ISBN: 9811242488
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Breakthroughs in high-throughput genome sequencing and high-performance computing technologies have empowered scientists to decode many genomes including our own. Now they have a bigger ambition: to fully understand the vast diversity of microbial communities within us and around us, and to exploit their potential for the improvement of our health and environment. In this new field called metagenomics, microbial genomes are sequenced directly from the habitats without lab cultivation. Computational metagenomics, however, faces both a data challenge that deals with tens of tera-bases of sequences and an algorithmic one that deals with the complexity of thousands of species and their interactions.This interdisciplinary book is essential reading for those who are interested in beginning their own journey in computational metagenomics. It is a prism to look through various intricate computational metagenomics problems and unravel their three distinctive aspects: metagenomics, data engineering, and algorithms. Graduate students and advanced undergraduates from genomics science or computer science fields will find that the concepts explained in this book can serve as stepping stones for more advanced topics, while metagenomics practitioners and researchers from similar disciplines may use it to broaden their knowledge or identify new research targets.

Metagenomics for Microbiology

Metagenomics for Microbiology
Author: Jacques Izard
Publisher: Academic Press
Total Pages: 188
Release: 2014-11-07
Genre: Science
ISBN: 0124105084
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Concisely discussing the application of high throughput analysis to move forward our understanding of microbial principles, Metagenomics for Microbiology provides a solid base for the design and analysis of omics studies for the characterization of microbial consortia. The intended audience includes clinical and environmental microbiologists, molecular biologists, infectious disease experts, statisticians, biostatisticians, and public health scientists. This book focuses on the technological underpinnings of metagenomic approaches and their conceptual and practical applications. With the next-generation genomic sequencing revolution increasingly permitting researchers to decipher the coding information of the microbes living with us, we now have a unique capacity to compare multiple sites within individuals and at higher resolution and greater throughput than hitherto possible. The recent articulation of this paradigm points to unique possibilities for investigation of our dynamic relationship with these cellular communities, and excitingly the probing of their therapeutic potential in disease prevention or treatment of the future. Expertly describes the latest metagenomic methodologies and best-practices, from sample collection to data analysis for taxonomic, whole shotgun metagenomic, and metatranscriptomic studies Includes clear-headed pointers and quick starts to direct research efforts and increase study efficacy, eschewing ponderous prose Presented topics include sample collection and preparation, data generation and quality control, third generation sequencing, advances in computational analyses of shotgun metagenomic sequence data, taxonomic profiling of shotgun data, hypothesis testing, and mathematical and computational analysis of longitudinal data and time series. Past-examples and prospects are provided to contextualize the applications.

Metagenomic Systems Biology

Metagenomic Systems Biology
Author: Sharon I. Greenblum
Publisher:
Total Pages: 168
Release: 2014
Genre:
ISBN:
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Though invisible to the naked eye, microbes are crucial to life as we know it. These tiny single-celled organisms are found in almost every known environment, helping to maintain balance across a vast array of ecological niches plays. Within each site, microbes may form intricate multi-species communities capable of carrying out diverse and complex metabolic processes. The set of microbes inhabiting the human gut (the human gut microbiome) comprises one of the richest and most well-studied of these communities, and shifts in the composition of this microbiome have been shown to have significant implications for host health. However, while current comparative studies mostly focus on characterizing gut microbiomes in terms of the relative abundance of individual species or genes, such profiles offer limited translation to overall community capabilities, and may thus offer limited predictive capacity for effect on the host. Here, I develop frameworks for characterizing and comparing microbiomes as integrated systems, leveraging concepts from systems biology to provide a deeper context for interpreting differences in community composition. In chapter 1, I describe current efforts to characterize microbial communities and the potential advantages of a systems-level perspective. In chapter 2, I present a method for constructing and characterizing topological network models of microbial community metabolism, and then identify specific topological differences between human gut communities from healthy, obese, and IBD-afflicted individuals. The results suggest that the gut environment plays a critical role in shaping microbiome topology, or structure. In chapter 3, I examine gut communities from host species across the mammalian phylogenetic tree and identify groups of functionally-related genes that co-occur across hosts. I term these gene groups `assembly modules', and demonstrate their value for understanding the functional units of microbiome assembly and adaptation. In chapter 4, I relate differences in community function back to individual microbial strains, focusing on functions whose representation across organisms within a given species is community-dependent. Establishing a computational pipeline to detect these strain-specific functions, and generating a database of their frequency across 109 human gut microbiomes, I show that strain-specific functions are widespread among species associated with the gut environment, and that some of the most prominent, such as virulence, antibiotic resistance, and nutrient transport, may have significance for host-microbiome stability. Finally, in chapter 5, I offer some perspective on how the systems-level frameworks presented here may be used in future studies of microbial communities, potentially incorporating burgeoning new technologies and growing data resources, and how continued work in this vein may advance our understanding of the microbial world in relation to our own.

Functional Metagenomics: Tools and Applications

Functional Metagenomics: Tools and Applications
Author: Trevor C. Charles
Publisher: Springer
Total Pages: 253
Release: 2017-10-09
Genre: Science
ISBN: 3319615106
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In this book, the latest tools available for functional metagenomics research are described.This research enables scientists to directly access the genomes from diverse microbial genomes at one time and study these “metagenomes”. Using the modern tools of genome sequencing and cloning, researchers have now been able to harness this astounding metagenomic diversity to understand and exploit the diverse functions of microorganisms. Leading scientists from around the world demonstrate how these approaches have been applied in many different settings, including aquatic and terrestrial habitats, microbiomes, and many more environments. This is a highly informative and carefully presented book, providing microbiologists with a summary of the latest functional metagenomics literature on all specific habitats.

Metagenomics

Metagenomics
Author: Diana Marco
Publisher:
Total Pages:
Release: 2011
Genre:
ISBN: 9781912530564
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Prokaryotic Systems Biology

Prokaryotic Systems Biology
Author: Nevan J. Krogan, PhD
Publisher: Springer
Total Pages: 326
Release: 2015-11-30
Genre: Science
ISBN: 3319236032
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This book focuses on innovative experimental and computational approaches for charting interaction networks in bacterial species. The first part of the volume consists of nine chapters, focusing on biochemical and genetics and genomics approaches including yeast two hybrid, metagenomics, affinity purification in combination with mass spectrometry, chromatin-immunoprecipitation coupled with sequencing, large-scale synthetic genetic screens, and quantitative-based mass spectrometry strategies for mapping the bacterial physical, functional, substrate, and regulatory interaction networks needed for interpreting biological networks, inferring gene function, enzyme discovery, and identifying new drug targets. The second part comprises five chapters, covering the network of participants for protein folding and complex enzyme maturation. It also covers the structural approaches required to understand bacterial intramembrane proteolysis and the structure and function of bacterial proteins involved in surface polysaccharides, outer membrane, and envelope assembly. This volume concludes with a focus on computational and comparative genomics approaches, especially network-based methods for predicting physical or functional interactions, and integrative analytical approaches for generating more reliable information on bacterial gene function. This book provides foundational knowledge in the understanding of prokaryotic systems biology by illuminating how bacterial genes f unction within the framework of global cellular processes. The book will enable the microbiology community to create substantive resources for addressing many pending unanswered questions, and facilitate the development of new technologies that can be applied to other bacterial species lacking experimental data. ​ ​

Computational Systems Biology

Computational Systems Biology
Author: Jean-Luc Bouchot
Publisher: Elsevier Inc. Chapters
Total Pages: 61
Release: 2013-11-26
Genre: Medical
ISBN: 0128070153
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Recent advances in next-generation sequencing have enabled high-throughput determination of biological sequences in microbial communities, also known as microbiomes. The large volume of data now presents the challenge of how to extract knowledge—recognize patterns, find similarities, and find relationships—from complex mixtures of nucleic acid sequences currently being examined. In this chapter we review basic concepts as well as state-of-the-art techniques to analyze hundreds of samples which each contain millions of DNA and RNA sequences. We describe the general character of sequence data and describe some of the processing steps that prepare raw sequence data for inference. We then describe the process of extracting features from the data, assigning taxonomic and gene labels to the sequences. Then we review methods for cross-sample comparisons: (1) using similarity measures and ordination techniques to visualize and measure differences between samples and (2) feature selection and classification to select the most relevant features for discriminating between samples. Finally, in conclusion, we outline some open research problems and challenges left for future research.