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Fungal infections represent nowadays a significant burden on the healthcare system of most of the countries, and are among the infections with the highest mortality rates. This has fostered the study of the interaction of these organisms with the human host. The outer most layer of a fungal cell is the cell wall, and together with the secreted components into the extracellular compartment, are the first lines of contact with the host cells. This interaction is critical for tissue adhesion, colonization and damage. In addition, these fungal extracellular components will define the outcome of the interaction with the host immune cells, leading either to the establishment of a protective antifu...
Fungi are found in virtually every environment, and comprise a significant portion of the normal microflora of healthy individuals. Some species of fungi are aeroallergen sources capable of inducing sensitization and causing exacerbation of asthma and respiratory allergy. Others are transmissible between hosts and may cause no symptoms in healthy individuals. However, immune suppressed individuals may develop invasive disease marked by tissue invasion with a potential for widespread dissemination. Existing therapies for patients consist of antifungal drugs, yet these require prolonged administration with the possibility of adverse side effects, and may be rendered ineffective by the emergenc...
Infections caused by fungi have recently attracted the attention of both clinicians and basic researchers given the heavy burden they represent for any health system. The mortality and morbidity rates associated to mycosis are progressively rising simply because some of these diseases are still neglected by health-care workers and due to the changing sensitivity to antifungal drugs displayed by these organisms. In this book, both researchers and clinicians working in the medical mycology field explore the most recent literature about specific mycosis; placing in one concise chapter thoroughly revisions of the current knowledge on virulence factors, recognition by immune cells, immunoevasion, epidemiology, new diagnosis trends and therapeutics. This book is recommended to researchers, physicians and students interested in medical mycology.
Emerging from the protective environment of the uterus, the newborn is exposed to a myriad of microbes, and quickly establishes a complex microbiome that shapes the infant’s biology in ways that are only now beginning to come to light. Among these exposures are a number of potential pathogens. The host responses to these pathogens in the neonatal period are unique, reflecting a developing immune system even with delivery at term. Preterm infants are delivered at a time when host defense mechanisms are even less developed and therefore face additional risk. As such, the organisms that cause disease in this period are different from the pathogens that are common in other age groups, or the d...
Inborn errors of carbohydrate metabolism are a heterogeneous subgroup of inborn errors that are caused by mutations in human genes coding for proteins involved in carbohydrate catabolic and anabolic pathways. Through the breakdown of sugars, carbohydrate catabolism allows a constant supply of energy (e.g. glycolysis), but also involves the breakdown of the cell’s complex oligosaccharides (e.g. lysosomal degradation of surface glycoconjugates) allowing the recycling of monosaccharides. On the other hand, anabolism of carbohydrates (e.g. gluconeogenesis) is required to supply newly synthesized sugars to catabolic pathways, also allowing interconversion of sugars and sustaining the synthetic pathways of complex carbohydrate structures such as glycosaminoglycans and glycans that are the carbohydrate moiety of glycoconjugates involved in multiple biological functions.
Infectious diseases are caused by bacteria, fungus, viruses, and other microorganisms. Biomolecules such as proteins, DNA, and/or RNA play a crucial role in the infections of these disorders. These infectious illnesses are often transmissible, meaning they may be passed from one person to another by a variety of means. Even though medical technology has progressed, some illnesses continue to cause anxiety among individuals worldwide. If we examine the situation of COVID-19, the entire world is terrified of the pandemic. Similarly, In the last decades, other infections including Dengue, Chikungunya, Zika, Ebola, Japanese Encephalitis Virus (JEV), influenza, the common cold, tuberculosis (TB), Hepatitis A and B and human immunodeficiency syndrome (HIV) have also challenged the human population.
Biotechnology and Biology of Trichoderma serves as a comprehensive reference on the chemistry and biochemistry of one of the most important microbial agents, Trichoderma, and its use in an increased number of industrial bioprocesses for the synthesis of many biochemicals such as pharmaceuticals and biofuels. This book provides individuals working in the field of Trichoderma, especially biochemical engineers, biochemists and biotechnologists, important information on how these valuable fungi can contribute to the production of a wide range of products of commercial and ecological interest. - Provides a detailed and comprehensive coverage of the chemistry, biochemistry and biotechnology of Trichoderma, fungi present in soil and plants - Includes most important current and potential applications of Trichoderma in bioengineering, bioprocess technology including bioenergy & biofuels, biopharmaceuticals, secondary metabolites and protein engineering - Includes the most recent research advancements made on Trichoderma applications in plant biotechnology and ecology and environment
With a history that likely dates back to the dawn of human civilization more than 10,000 years ago, and a record that includes the domestication and selective breeding of plants and animals, the harnessing of fermentation process for bread, cheese, and brewage production, and the development of vaccines against infectious diseases, biotechnology has acquired a molecular focus during the 20th century, particularly following the resolution of DNA double helix in 1953, and the publication of DNA cloning protocol in 1973, and transformed our concepts and practices in disease diagnosis, treatment and prevention, pharmaceutical and industrial manufacturing, animal and plant industry, and food proc...