Screen LibraryMicrobial diversity in the genomic era /
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| Corporate Authors: | |
|---|---|
| Group Author: | ; |
| Published: |
Academic Press, an imprint of Elsevier,
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| Publisher Address: | London, United Kingdom ; San Diego, CA : |
| Publication Dates: | [2019] |
| Literature type: | eBook |
| Language: | English |
| Subjects: | |
| Online Access: |
https://www.sciencedirect.com/science/book/9780128148495 |
| Carrier Form: | 1 online resource |
| Bibliography: | Includes bibliographical references and index. |
| ISBN: |
9780128148501 0128148500 |
| Index Number: | QR73 |
| CLC: | Q938.1 |
| Contents: | Section I: Overview of microbial diversity 1.1 Methods of assessment of microbial diversity in natural environments 1.2 Metagenomic Achievements in Microbial Diversity Determination in Croplands: A Review 1.3 Genomic diversity and evolution of rhizobia 1.4 Microbial biodiversity study of a brackish water ecosystem in eastern India: The Chilika Lake 1.5 Microbial diversity and community analysis of Sundarban mangrove, the world heritage siteSection II: Molecular tools in microbial diversity2.1Analysing Functional Microbial Diversity: An Overview of Techniques 2.2 Genetic analysis of the bacterioplankton biology and ecology through next-generation high-throughput molecular techniques 2.3 Molecular tools in microbial diversity: Functional assessment tool of genome and metagenome by MAPLE 2.4 A polyphasic taxonomic approach for designation and description of novel microbial species 2.5 Biochemical strategies to counter nitrosative stress: Nanofactories for value-added products 2.6 Exploring microbial diversity and function in petroleum hydrocarbon associated environments through Omics approachesSection III: Extremophilic microbial diversity3.1 Diversity of Psychrophilic Bacteria in Sea and Glacier Ice environments -- Insights through Genomics, Metagenomics and Proteomics Approaches 3.2 Microbial diversity of thermophiles through the lens of next generation sequencing 3.3 Microbial ecology in extreme acidic environments: use of molecular tools 3.4 Alkaliphiles: Diversity and bioprospection 3.5 Cyanobacteria from Brazilian extreme environments: toward functional exploitation 3.6 Comparative genomics of Halobacterium strains from diverse locations 3.7 Microbial community dynamics of extremophiles/extreme environment 3.8 Opening the black box of thermophilic autotrophic bacterial diversitySection IV: Functional Microbial Diversity 4.1 Functional microbial diversity in context to agriculture 4.2 Functional microbial diversity in contaminated environment and application in bioremediation 4.3 Structural and functional diversity of microbial metallothionein genes 4.4 Functional diversity of bacterial strategies to cope with metal toxicity 4.5 Functional microbial diversity: Functional genomics and metagenomics using MAPLE 4.6 Linking the environmental microbial diversity and antibiotic resistance 4.7 Applications of metagenomics in microbial bioremediation of pollutants: From genomics to environmental cleanupSection V: Microbial diversity and infectious diseases 5.1 Molecular techniques for diagnosis of bacterial plant pathogens 5.2 Molecular techniques for the study of microbial diversity with special emphasis on drug resistant microbes 5.3 Exploring human bacterial diversity towards prevention of infectious disease and health promotion 5.4 Rapid Diagnosis of Septicemia in Adults by microscopic screening of WBC cells: A Prospective Evaluation 5.5 Prevalence of Multidrug Resistance Efflux Pumps (MDREPs) in Environmental Communities 5.6 Pathogenic microbial genetic diversity with reference to significant medical and public healthSection VI: Future directions of microbial diversity studies6.1 Understanding the structure and function of extreme microbiome through genomics: scope and challenges 6.2 The role and future possibilities of next-generation sequencing in studying microbial diversity 6.3 Taxonomical diversity of extremophiles in the deep biosphere 6.4 Molecular evolution of Xenobiotic-degrading genes and mobile DNA elements in soil bacteria |