"Antibiotic resistance in pathogen microorganisms is one of the major global concerns nowadays, especially the formation of biofilms. Quorum quenching has been practically used to control biolfim growth, and this indicates a promosing hope for the development of new drugs for control of biofilm forming pathogens. This book provides a single source of information about two issues, including the biology of quorum sensing and quorum quenching and the perspectives of quorum quenching in new drug development.The text covers the latest literature from the last ten years and insights into quorum quenching and its need in medicine as an anti-virulence strategy"--
This book covers the subject of quorum quenching as an anti-virulence strategy by reviewing the latest literature of the last ten years in the field of quorum sensing and quorum quenching. This text provides a single source of information about two issues, including the biology of QS and QQ and the perspectives of QQ in new drug development.
Antibiotic resistance in pathogen microorganisms is a major global concern, especially the formation of biofilms. Quorum quenching has been practically used to control biofilm growth, and this indicates a promising hope for the development of new drugs for the control of biofilm-forming pathogens. This book provides a single source of information about two issues: the biology of quorum sensing and quorum quenching, and the perspectives of quorum quenching in new drug development. The text covers the latest literature from the last ten years and insights into quorum quenching and its need in medicine as an anti-virulence strategy.
Features:
- Exclusively focuses on quorum quenching and its ability to be used as an alternative to antibiotics in the control of multidrug-resistant pathogens.
- Reviews the latest literature and case studies of the last ten years in the field of quorum sensing and quorum quenching.
- Promotes a new approach to the development of the next generation of antibacterial drugs.
- In the wake of rising antibiotic drug resistance, it is crucial to develop an alternative approach to control bacterial infection diseases and quorum quenching appears to be a promising strategy in the development of new medicines.
Chapter 1 Biofilms of Pathogenic Bacteria
Chapter 2 Biofilm regulation and Quorum sensing in Bacterial Pathogens
Chapter 3 Quorum sensing in Extremophiles
Chapter 4 Single and dual species biofilms of human pathogenic bacteria and
Application of bacteriophages on biofilms
Chapter 5 Methods for extenuating biofilms associated drug resistance by
micro and nano-tech effectiveness and progress of anti-bfs therapy stratagems
and proceeded perspective by micro-crystals and nano-crystals
Chapter 6 Ecological Relevance of Quorum Quenching
Chapter 7 Quorum Quenching in Biofilm Mitigation
Chapter 8 The Hypothalamic-Pituitary-Testicular Axis in Drug Development for
Androgens Across Sex, and Lifespan
Chapter 9 The GH-IGF1 Axis and the HypothalamusPituitaryTesticular Axis in
Drug Development
Chapter 10 Reproductive Endocrinology Drug Development Hormones, Metabolism,
and Fertility in Female Reproductive Health
Chapter 11 Novel Drugs - Clinical trials and Approval process
Chapter 12 Quorum Quenching-based drug development-Challenges and Futurity
Naga Raju Maddela received his M.Sc. (19961998) and Ph.D. (2012) in Microbiology from Sri Krishnadevaraya University, Anantapuramu, India. During his doctoral program in the area of Environmental Microbiology, he investigated the effects of industrial effluents/insecticides on soil microorganisms and their biological activities and he has been working as a Faculty in Microbiology since 1998, teaching undergraduate and postgraduate students. He received Prometeo Investigator Fellowship (20132015) from Secretarķa de Educación Superior, Ciencia, Tecnologķa e Innovación (SENESCYT), Ecuador, and Postdoctoral Fellowship (20162018) from Sun Yat-sen University, China. He also received external funding from China Postdoctoral Science Foundation in 2017, internal funding from Universidad Técnica de Manabķ in 2020, worked in the area of Environmental Biotechnology, participated in 20 national / international conferences, and presented research data in China, Cuba, Ecuador, India and Singapore. Since 2018, he is working as a Full Professor at the Facultad de Ciencias de la Salud, Universidad Técnica de Manabķ, Portoviejo, Ecuador. He has published 15 Books, 40 Chapters and 80 research papers.
Dr. Venkataramana Thiriveedi completed his Ph.D. (2018) from the University of Hyderabad in India. During his doctoral program, he focused on the biology of the electron transport chain in mitochondria. He identified an essential role for glutathionylated hMia40 (CHCHD4) in mitochondrial electron transport chain biogenesis. His studies shed light on a previously unknown post-translational modification of hMIA40 that impacts reactive oxygen species levels and cellular redox homeostasis. He received the Indian council of medical research- senior research fellowship (ICMR-SRF), India. He also received an Award of Research proficiency from the University of Hyderabad in recognition of Publishing the research article in Redox biology. He published four research papers during his doctoral program, participated in 10 national and international conferences, presented research data in India and the USA, and presented his research data in Ecuador as an invited speaker. Currently, he is working as a postdoctoral associate at Duke University medical center, USA. During his postdoctoral training, he focused on how the commensal microbiota regulates intestinal stem cell function in epithelial tissue.
Dr. Ratna Silviya Lodi has received her bachelor, masters and Ph.D. degrees in Microbiology in the years 2009, 2011 and 2017, respectively, in India. During her doctoral thesis, she worked on Molecular Detection and Evaluation of Candida sps (albicans and non-albicans) from Oral Infections of Diabetic Patients. She finished her first postdoctoral research at Jiangsu University, China during 2019-2021, where she investigated GDF-15 promotes colorectal cancer development by up- regulating immune checkpoint TIGIT/CD-155. She has hands-on experience in the microbiological and molecular biological techniques, very particularly in medical field. Currently, she is working as a postdoctoral research fellow at Shandong academy of agricultural sciences, Jinan, Shandong province, China; working on Diversity, composition, anti-microbial and anti- cancer activity of culturable microbial endophytes in Panax quinquefolius (American ginseng). To her credit, there are around 20 scientific publications, and presented her data in more than 10 international conferences.
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