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Emerging Concepts in Bacterial Biofilms
The ability to form biofilms is a universal attribute of bacteria. Bacteria are able to grow on almost every surface, forming these architecturally complex communities. In biofilms, the cells grow in multicellular aggregates, encased in an extracellular matrix produced by the bacteria themselves. They impact humans in many ways, and can form in natural, medical and industrial settings. For example, the formation of biofilms on medical devices such as catheters or implants often results in difficult-to-treat chronic infections. This book focuses on emerging concepts in bacterial biofilm research, such as the different mechanisms of biofilm formation in Gram negative and Gram positive bacteria, and the burden of biofilm associated infections. It also highlights the various anti-biofilm strategies that can be translated to curb biofilm-associated infections and the escalation of antimicrobial resistance determinants.
Advances in Applied Microbiology
Advances in Applied Microbiology, Volume 112, continues the comprehensive reach of this widely read and authoritative review source in microbiology. Users will find invaluable references and information on a variety of areas. Chapters in this new release include discussions of Microbial mercury transformation: focus on molecules and functions, Peptidoglycan Biosynthesis, Clockwork microbial worlds , Molecular engineering to improve the levels of bioproducts from agricultural and forestry waste by filamentous fungi, Multi-species Biofilms for Resource Recovery from Wastewater, Evasion of host defenses by intracellular Staphylococcus aureus, A genomic analysis on stress-responses in C. glabrata and their relevance in pathogenesis and drug resistance, and more. - Contains contributions from leading authorities in the field - Informs and updates on all the latest developments in the field of microbiology - Includes discussions on the role of specific molecules in pathogen life stages and interactions, and much more
Multiplex Biomarker Techniques
This detailed volume explores the application of multiplex biomarker methods in the critical area of COVID-19 research through state-of-the-art technologies in the fields of genomics, proteomics, transcriptomics, metabolomics, and imaging. The book features a series of protocols from labs across the globe employing multiplex molecular approaches, which can be applied to accelerate progress in the research of SARS-CoV-2 and other infectious illnesses. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and essential, Multiplex Biomarker Techniques: Methods and Applications for COVID-19 Disease Diagnosis and Risk Stratification serves as a vital resource for researchers in the areas of virology, metabolic diseases, respiratory disorders, as well as to clinical scientists, physicians, pharmacologists, and the healthcare services.
NTM – The New Uber-Bugs
Incidence of pulmonary disease caused by nontuberculous mycobacteria (NTM), such as Mycobacterium abscessus and M. avium, is increasing at an alarming rate, surpassing tuberculosis (TB) in many countries. Treatment durations are extremely long. With low sputum conversion rates, the outcomes are often disappointing. Thus, NTM disease resembles extremely drug resistant TB. There is an urgent need for increased research on this dreadful disease. For this book we brought together experts from a wide range of disciplines addressing current status, gaps and needs, and new developments in several NTM-relevant research areas. We start with the discussion of NTM disease presentations and clinical research. This is followed by contributions on epidemiology, antibiotic resistance mechanisms, drug discovery and development, bacteriology and targets, and new diagnostic tools. We would like to thank the 130 authors for sharing their work and insights. We hope that this collection of articles will stimulate discussions and research activities on the challenging lung disease caused by the diverse group of pathogens called NTM.
Wits University at 100
Maps the university’s current and future vision as it marks its centenary in 2022 The University of the Witwatersrand occupies a special place in the hearts and minds of South Africans. It is a leading university renowned for its commitment to academic excellence, social justice and the advancement of the public good. Its history is inextricably linked with the development of Johannesburg, with mining and economic development, and with political and social activism across the country. Wits University at 100: From Excavation to Innovation captures important moments of Wits’ story in celebration of the university’s centenary in 2022. It explores Wits’ origins, the space and place that ...
Diagnostic Devices with Microfluidics
Focuses specifically on diagnostic applications. Explores the commercial aspects of developing microfluidic diagnostic device. Highlights the growing field and presents a selection of important topics making it an excellent introductory reading for graduate students in bioengineering and related disciplines. Teaches the reader how to fabricate, apply, and market microfludic diagnostic chips for lab and at home use. Discusses patient-focused development of diagnostics devices.
Communicating Science
Modern science communication has emerged in the twentieth century as a field of study, a body of practice and a profession—and it is a practice with deep historical roots. We have seen the birth of interactive science centres, the first university actions in teaching and conducting research, and a sharp growth in employment of science communicators. This collection charts the emergence of modern science communication across the world. This is the first volume to map investment around the globe in science centres, university courses and research, publications and conferences as well as tell the national stories of science communication. How did it all begin? How has development varied from one country to another? What motivated governments, institutions and people to see science communication as an answer to questions of the social place of science? Communicating Science describes the pathways followed by 39 different countries. All continents and many cultures are represented. For some countries, this is the first time that their science communication story has been told.
