Medicinal Plants: Microbial Interactions, Molecular Techniques, and Therapeutic Trends is a comprehensive exploration of the fascinating world of medicinal plants, their therapeutic advancements, and the application of molecular techniques to unlock their full potential. This book is structured into three illuminating sections, each shedding light on different facets of this rapidly developing field. Section 1: Exploring Plant-Microbe Interactions Covers the relationship between microbes and plants, the historical context and the pivotal role of microbes in shaping the future of medicinal plants. Discover the diverse array of bacteria associated with these plants and grasp their significance in enhancing the medicinal value of plants. Section 2: Harnessing Molecular Techniques Covers cutting-edge molecular techniques such as genome editing and modern breeding methods to optimize the genetic traits of medicinal plants. By understanding these techniques, readers will learn how to enhance plant growth, yield and quality. Section 3: Nanotechnology for Therapeutic Enhancement Covers nanotechnology and its transformative impact on medicinal plants. The section highlights emerging nano-engineering technology that can revolutionize the therapeutic properties of these plants. Medicinal Plants: Microbial Interactions, Molecular Techniques, and Therapeutic Trends is a book for Interdisciplinary readers: students, scientists, academics, and industry professionals alike. Whether you're a student, scientist, academic, or industry professional, this book is your gateway to the evolving world of plant-based medicine.

Where Did They Come From? The Origins of South American Fauna offers a fascinating journey into the origins of South American flora and fauna. Exploring life on the continent before and after the breakup of Gondwana, it delves into how creatures arrived in South America, be it through drifting across oceans or traversing land bridges. From birds and reptiles to mammals and fish, this book provides a comprehensive compendium of biological diversity, discussing their origins and evolutionary paths. Readers will gain insights into the mechanisms of animal dispersal, evolution, and the impact of the Great Biotic Interchange. The book also lists references for further exploration of the subject. The book is structured into five parts: Building South America: Covers tectonic movements, climate changes, and breaching isolation. Shaping South America: Explores the landforms and diverse biomes across the continent. Vertebrates within South America: Discusses unique amphibians, reptiles, fish, mammals, and birds that evolved on the continent. Vertebrates immigrating to South America: Examines exotic reptiles, birds, and mammals that found their way to the continent. The author also lists the families of almost all genera of South American animals, while giving knowledge of their origins. Recent Arrivals - the Great Biotic Interchange: Explores the significant interchange of various species that occurred later. Ideal for students, biologists, and anyone curious about the natural world, this book is a captivating read that uncovers the incredible history of South American fauna and its evolutionary tapestry.

This monograph research presents research in applied biomathematics carried out by the author at the beginning of this millennium. Monte Carlo simulations have been widely used by computational biologists to understand stochastics of living systems in biological matter. This work demonstrates how Monte Carlo simulations can help us to understand the nucleic acid structure, biophysics and chemistry. The author presents research on methods to understand aspects of the molecular dynamics of nucleic acids, DNA melting, evolutionary genetics, protein folding of Crambin and DNA vitrification. The book consists of five chapters and an appendix on the theoretical investigation on 10-12 potential of Hydrogen-Hydrogen covalent bond. Some of the previous research published in İnternational Journal of Modern Physics C and Modern Physics Letters B is extended for additional insight. Readers will find simple computer algorithms for hard mathematical physics problems such as mesoscopic, fractals, percolation, Metropolis algorithm and Langevin dynamics – many of which are also crucial to understanding experimental results of computer-aided drug discovery and cryopreservation. The author has taken care to explain calculations in a clear manner. All simulations have been conducted using Fortran (f77).

This volume is a compilation of reviews on the industrial usage of soil microorganisms. The contents include 16 brief reviews on different soil microbe assisted industrial processes. Readers will be updated about recent applications of soil bacteria, fungi and algae in sectors such as agriculture, biotechnology, environmental management. The reviews also cover special topics like sustainable agriculture, biodiversity, ecology, and intellectual property rights of patented strains, giving a broad perspective on industrial applications of soil microbes. Volume 2 includes reviews on destructive microbes like Macrophomina Phaseolina, eco-friendly microbes like Beauveria Bassiana, the identification of fungi in the rhizosphere, the industrial application of Trichoderma, and other topics. The text is easy to understand for readers of all levels, with references provided for the benefit of advanced readers.

Molecular and Physiological Insights into Plant Stress Tolerance and Applications in Agriculture is an edited volume that presents research on plant stress responses at both molecular and physiological levels. Key Features: - Emphasizes the morphological and physiological reactions of plants and the underlying molecular mechanisms when faced with stress from environmental or pathogenic factors. - Explores microbial dynamics within the plant rhizosphere and the application of plant growth-promoting bacteria as biofertilizers and endophytes as biocontrol agents to enhance crop growth and productivity for sustainable agriculture. - Systematically summarizes molecular mechanisms in plant stress tolerance and discusses the current applications of biotechnology, nanotechnology, and precision breeding to obtain stress-tolerant crops, contributing to climate-smart agriculture and global food security. - Includes contributions and references from multidisciplinary experts in plant stress physiology, plant molecular biology, plant biotechnology, agronomy, agriculture, nanotechnology, and environmental science. The content of the book is aimed at addressing UN SDG goals 2, 12, and 15 to achieve zero hunger and responsible consumption and production, and to sustainable use of terrestrial ecosystems, respectively. This comprehensive resource is suitable for researchers, students, teachers, agriculturists, and readers in plant science, and allied disciplines.

This book explores the intricate world of livestock sciences and production through the lens of systems biology. Offering a comprehensive exploration of both fundamental and advanced aspects, it unearths the potential of systems biology in the realm of livestock. The book presents 13 edited chapters on cutting-edge knowledge about systems biology and omics technology, showcasing genomics, transcriptomics, proteomics, metabolomics, and more. It illuminates the role of systems biology in livestock and disease management. Readers will learn about power of technologies that merge computational biology, nanobiotechnology, artificial intelligence, and single-cell sequencing. Each chapter is written by scientific experts and includes references for further reading. The book covers 4 key themes: Introduction to Systems Biology in Livestock Science: Uncover the foundation of integrating systems biology with omics data for animal scientists. Multi-scale Modeling Techniques: Explore how multi-scale modeling is shaping the future of system biology. Livestock Viral Diseases: Gain insights into how systems biology is revolutionizing our understanding of livestock viral diseases. Single Cell RNA-Sequencing: Understand the potential of this advanced technique in studying livestock animals at a cellular level. This book is a timely resource for students and researchers, offering a pathway to comprehend the crucial role systems biology plays in sustainable livestock production and management.

This reference provides comprehensive insights on the harm inflicted by pests and diseases on leguminous crops. Internationally acclaimed authors provide succinct reviews on breeding and impact of biotic stress factors such as insect pests, microbial pathogens, spiders, and vertebrate pests in legumes like soybean, cowpea, and common bean. The book also contains detailed technical analysis of methods such as the PCR-based detection, next generation sequencing / marker-assisted selections, low cost lethal-non-lethal vertebrate pest control and mechanisms of climate/nutrient induced resistance. The unique feature of this book is its focus on the optimization and development of environmentally friendly methods for pest and disease control in leguminous crops. Other features include structured sections for easy reading and a list of references for advanced readers. Key themes: Biotic Stress and Plant Resistance Biotic Stress in Legumes (Cowpea and Soybean) Diagnostic and Control Methods for Microbial Plant Pathogens Viral Diseases of Legumes and Management: Vertebrate Pests in Legumes and Economic Implications Spiders in Legume Agroecosystems Climate-Driven Factors and Insect Pests of Legumes Sustainable Crop Nutrition for Biotic Stress Alleviation in Legumes Physiological Responses in Legumes to Combined Stress Factors

This reference highlights the significance of marine ecosystems, encompassing seaweed beds, seagrasses, coral reefs, mangroves, estuaries, and protected areas, as a remarkable gateway to overcoming healthcare challenges and unlocking a rich trove of bioactive compounds for drug discovery. One of the key highlights of this book is its exploration of the development of marine bio-drugs, a field that demands collaboration among scientists from both academic and industrial fronts. The editors also include a prospective review on marine environments, emphasizing the necessity for big data, collective knowledge sharing, financial support, and streamlined administrative processes, all of which contribute to enhancing innovation in the drug discovery process. Another feature includes reference lists that allow researchers to explore topics of interest in depth. With twelve comprehensive chapters, this book extensively covers marine ecosystem biodiversity, productivity, protected areas, and the intricate interplay of biotic and abiotic factors that shape these ecosystems. Readers will learn about important bioactive compounds within marine organisms and how to use this knowledge to outline a strategy for bio-drug discovery. The book caters to a diverse audience of researchers, students, ecologists, microbiologists, pharmacologists, and biotechnologists who are engaged in studying the dynamic components of marine environments. By providing the latest insights and strategies in the realm of bio-drug discovery from marine resources, this book serves as an invaluable resource for scholars and professionals seeking to tap into the potential of these unique ecosystems.

This book provides a holistic view of natural products and remedies that have been used to treat cancer. The editors aim to educate readers about the importance of the translational role of natural products in cancer treatment by compiling 14 chapters. The book emphasizes an integrative approach to the topic by blending traditional knowledge that supports alternative therapies with the science of phytochemicals and drug discovery technologies as a means to manage the disease. Key topics include alternative therapies (such as aromatherapy and immune boosting herbal medications), cytotoxic and anti-cancer phytochemicals, drug delivery and discovery technologies (including high-throughput screening) and some drug targets of interest for cancer treatment (such as topoisomerases and caspases). Readers will be able to learn about natural sources of ant-cancer compounds, and the methods used by research and development experts in pharmaceutical and nutraceutical industries to isolate and formulate these compounds. This book will be a handy resource for a wide range of readers. This includes researchers, traditional medical practitioners, PG students, Ph.D. scholars and general readers to understand the role of natural products in cancer treatment. key features - Explains the importance of alternative therapies in the management of cancer - Emphasizes the ethnopharmacological approaches to cancer - Explores natural anticancer drug libraries - Discusses the role of modern cancer targets and the importance of in-silico tools in anticancer drug discovery - Addresses modern drug discovery tools and drug delivery technologies concerning their applications in cancer treatment. - Includes references for further reading

Artificial Intelligence is playing a vital role in implementing the smart methods for the agriculture and it will change the aspects of performing agricultural activities. The objective of this book is to inform readers about how artificial intelligence is improving agriculture by exploring its applications. The book addresses several aspects of the artificial intelligence applications in the smart agriculture including, pest control, leaf disease identification, identification of weed, field security and applications of drones in smart farming. Chapters are contributed by experts in agriculture, computer science and biotechnology. Key Themes: Advanced machine learning techniques for pest control and disease identification Automated recognition and classification of plant diseases, focusing on tomatoes and pearl millet Integration of artificial intelligence for solar-powered robots to identify weeds and damages in vegetables Development of field prevention systems to deter wild animals in farming areas Utilization of machine learning for weather forecasting to facilitate smart agriculture practices Intelligent crop planning and precision farming through AI applications Integration of artificial intelligence and drones to enhance efficiency and effectiveness in smart farming operations Other features of the book include a list of references and simple summaries in each chapter to distil the information for readers. The book is a reference material for courses on automation in agriculture and as a handbook for anyone interested in new advances in farming.