Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

"Soil Systems is a new journal devoted to publishing articles focused on biological, chemical, and physical processes operating within soils and sediments. We are particularly interested in studies or review articles that examine (or describe) coupled processes operating within these complex media that control element cycling. Processes that impact on retention and release, transport, and microbial interactions in soils are also of interest"--About, viewed March 27, 2020.

soils --- sediments --- microbial interaction --- chemical processes --- biological processes --- physical processes --- Soils --- Chemistry --- Physical geography

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Since its early days in the 1990s, the Quorum Sensing (QS) field has grown from a few dozen laboratories, investigating the pathways, proteins, and chemicals that facilitate signaling in bacteria, to hundreds of groups that have integrated evolutionary biology, computer science, mathematics, engineering, and metagenomics to create an ever-expanding and dynamic field. In Quorum Sensing: Methods and Protocols, expert researchers provide an in-depth set of diverse protocols that span this broad area of study. Broken into three detailed sections, the volume covers the detection, isolation, and characterization of the QS signals made by both Gram- and Gram+ bacteria, determination of the function of QS signals in vivo, and the development of QS disruption strategies. Written in the highly successful Methods in Molecular Biology™ series format, chapters include brief introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and expert tips on troubleshooting and avoiding known experimental pitfalls. Comprehensive and cutting-edge, Quorum Sensing: Methods and Protocols serves as an invaluable collection of easily accessible techniques for scientists seeking to further our knowledge about bacterial communication and its relation to humanity.

Quorum Sensing --- Quorum sensing (Microbiology) --- Détection du quorum --- methods. --- Microbial Interactions --- Cell Communication --- Microbiological Processes --- Cell Physiological Processes --- Cell Physiological Phenomena --- Microbiological Phenomena --- Phenomena and Processes --- Biology --- Health & Biological Sciences --- Microbiology & Immunology --- Détection du quorum --- Microbial Concepts --- Microbial Phenomena --- Microbiologic Concepts --- Microbiological Phenomenon --- Microbiological Process --- Phenomena, Microbiologic --- Microbiologic Phenomena --- Concept, Microbial --- Concept, Microbiologic --- Concepts, Microbial --- Concepts, Microbiologic --- Microbial Concept --- Microbiologic Concept --- Phenomena, Microbial --- Phenomena, Microbiological --- Phenomenon, Microbiological --- Process, Microbiological --- Processes, Microbiological --- Cell Physiological Phenomenon --- Cell Physiological Process --- Physiology, Cell --- Cell Physiology --- Phenomena, Cell Physiological --- Phenomenon, Cell Physiological --- Physiological Process, Cell --- Physiological Processes, Cell --- Process, Cell Physiological --- Processes, Cell Physiological --- Cells --- Quorum Quenching --- Quenching, Quorum --- Quenchings, Quorum --- Quorum Quenchings --- Sensing, Quorum --- Cell Interaction --- Cell-to-Cell Interaction --- Cell Communications --- Cell Interactions --- Cell to Cell Interaction --- Cell-to-Cell Interactions --- Communication, Cell --- Communications, Cell --- Interaction, Cell --- Interaction, Cell-to-Cell --- Interactions, Cell --- Interactions, Cell-to-Cell --- Competitive Behavior, Microbial --- Cooperative Behavior, Microbial --- Behavior, Microbial Competitive --- Behavior, Microbial Cooperative --- Behaviors, Microbial Competitive --- Behaviors, Microbial Cooperative --- Competitive Behaviors, Microbial --- Cooperative Behaviors, Microbial --- Interaction, Microbial --- Interactions, Microbial --- Microbial Competitive Behavior --- Microbial Competitive Behaviors --- Microbial Cooperative Behavior --- Microbial Cooperative Behaviors --- Microbial Interaction --- Sensing, Quorum (Microbiology) --- physiology --- Microbiology. --- Bacteriology. --- Medical laboratories. --- Laboratory Medicine. --- Microbiology --- Microbial biology --- Microorganisms --- Diagnosis, Laboratory --- Health facilities --- Laboratories

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This volume discusses the interactions between viruses and their host cells, and explores the roles of host and viral genes and non-coding RNAs in the virus replication cycle. During infection, viruses express a variety of genes, encoding proteins and RNAs that serve to subjugate the cell – by redirecting cellular processes to support viral replication and, at the same time, by mitigating the cellular response to infection. In this book, experts discuss these interactions in depth, and elaborate on our current understanding of virus-cell interactions for a diverse range of viruses, including positive and negative sense RNA viruses, DNA viruses, and a vector-borne virus. The roles of non-coding RNAs are also discussed. While each class of viruses has distinct replication requirements, this volume reveals unique features and commonalities in viral replication cycles. Accordingly, it represents a valuable source of information for researchers and clinicians alike.

Viral genetics --- Virus genetics --- Viruses --- Microbial genetics --- Mathematical models. --- Genetics --- Medical virology. --- Emerging infectious diseases. --- Virology. --- Infectious Diseases. --- Emerging infections --- New infectious diseases --- Re-emerging infectious diseases --- Reemerging infectious diseases --- Communicable diseases --- Medical microbiology --- Virology --- Virus diseases --- RNA, Untranslated --- Virus Replication --- Host Microbial Interactions --- Virus Diseases --- genetics --- Bacteria Host Interactions --- Bacterial-Host Interactions --- Bacterium-Host Interactions --- Host Bacteria Interactions --- Host Microbe Interactions --- Host Microbiota Interactions --- Host Virus Interactions --- Host-Fungal Interactions --- Host-Microbial Interface --- Microbe Host Interactions --- Microbial Host Interactions --- Microbiota Host Interactions --- Viral-Host Interactions --- Virus Host Interactions --- Bacteria Host Interaction --- Bacterial Host Interactions --- Bacterial-Host Interaction --- Bacterium Host Interactions --- Bacterium-Host Interaction --- Host Bacteria Interaction --- Host Fungal Interactions --- Host Microbe Interaction --- Host Microbial Interaction --- Host Microbial Interface --- Host Microbiota Interaction --- Host Virus Interaction --- Host-Fungal Interaction --- Host-Microbial Interfaces --- Microbe Host Interaction --- Microbial Host Interaction --- Microbiota Host Interaction --- Viral Host Interactions --- Viral-Host Interaction --- Virus Host Interaction --- Noncoding RNA --- RNA, Non-Coding --- RNA, Non-Peptide-Coding --- RNA, Non-Protein-Coding --- RNA, Noncoding --- RNA, Nontranslated --- npcRNA --- Non-Coding RNA --- Non-Peptide-Coding RNA --- Non-Protein-Coding RNA --- Nontranslated RNA --- RNA, Non Coding --- RNA, Non Peptide Coding --- RNA, Non Protein Coding --- Untranslated RNA --- Infectious diseases. --- Microbiology