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Linking the past, present and future of Colletotrichum systematics; The importance of phylogeny in understanding host relationships within Colletotrichum; Genetic regulation of sexual compatibility in Glomerella graminicola; Vegetative compatibility in Colletotrichum; Dissecting the cell biology of Colletotrichum infection processes; Early molecular communication between Colletotrichum gloeosporioides and its host; Regulation of melanin biosynthesis genes during appressorium formation by Colletotrichum lagenarium; Colletotrichum as a model system for defining the genetic basis of fungal symbiotic life styles; Genetic diversity and host specificity of Colletotrichum species on various fruits; Inter- and intra-species variation in Colletotrichum and mechanism which affect population structure; Gene transfer and expression in Colletotrichum gloeosporioides causing anthracnose on Stylosanthes;The endopolygalacturonases of Colletotrichum lindemuthianum: Molecular characterization, gene expression, and elicitor activity; Signal exchange during Colletotrichum trifolii-alfalfa interactions; Resistance mechanisms of subtropical fruits to Colletotrichum gloeosporioides; Colletotrochum strains for weed control; Potential for biological controI of diseases caused by Colletotrichum; Colletotrichum diseases of strawberries in Florida; Biology and controI of anthracnose diseases of citrus; Occurrence and management of anthracnose epidemics cause Colletotrichum species on tree fruit crops in California; Recent advances in understanding Colletotrichum diseases of some tropical perennial crops; Host-pathogen interaction and viability of Colletotrichum lindemuthianum; Colletotrichum coccodes on potato; The biology of Colletotrichum graminicola and maize anthracnose.;
"Colletotrichum" is a genus of plant pathogenic fungi of great economic importance, particularly in the tropics. This volume on the group covers topics such as taxonomy, cellular and molecular biology, epidemiology, field pathology and host resistance.
The pace of research on fungi has been accelerating over the past decade. As a result, molecular, biochemical and cell biological studies have opened up new areas of investigation for many of the most important fungal pathogens of crop plants. Similarly, these approaches have provided new information on fungal pathogens of animals and insects, and on fungal endophytes. The collection of chapters in this book provides an excellent update on recent progress for many of the important plant pathogenic fungi that either cause significant economic problems or that serve as useful experimental organisms for gaining general insights. The inclusion of chapters on other fungi will allow readers to make comparisons and draw parallels between a variety of pathogens. In this regard, this book provides a unique perspective that will be valuable to a wide range of readers from senior undergraduates to senior investigators.
Volatiles and Metabolites of Microbes compiles the latest research and advancement in the field of volatiles, metabolites synthesized from the microbial strains such as actinomycetes, bacteria, cyanobacteria, and fungal species and their potential applications in the field of healthcare issue and sustainable agriculture. There is an urgent need to explore new and advanced biological methods for health industries and sustainable agriculture and to protect the environment from environmental pollution or contaminates, global warming, and also control the health of human beings from the side effects of various pharmaceuticals products. Focusing all these factors, Volatiles and Metabolites of Microbes explores new aspects of microorganism in terms of volatiles, enzymes, bioactive compounds synthesized from the microbes and their potential applications in the field of sustainable agriculture and health-related issues - Provides a broad aspect about volatiles, bioactive compounds, and secondary metabolites of microbes compiled in one cover - Gives the latest research and advancement in the field of volatiles, secondary metabolites, and bioactive compounds synthesized from the different microbial strains - Responds to new developments in the detection of the complex compound structures of volatiles - Offers insight to a very broad audience in Biotechnology, Applied Microbiology, Agronomy, and Pathology
Zinc-Based Nanostructures for Environmental and Agricultural Applications shows how zinc nanostructures are being used in agriculture, food and the environment. The book has been divided into two parts: Part I deals with the synthesis and characterization of zinc-based nanostructures such as biogenic, plant, microbial, and actinobacteria mediated synthesis of zinc nanoparticles, Part II is focused on agri-food applications such as antibacterial, antifungal, antimicrobial, plant disease management, controlling post-harvest diseases, pesticide sensing and degradations, plant promotions, ZnO nanostructure for food packaging application, safe animal food and feed supplement, elimination of mycotoxins, and veterinary applications. Part III reviews technological developments in environmental applications such as risks and benefits for aquatic organisms and the marine environment, antiseptic activity and toxicity mechanisms, wastewater treatment, and zinc oxide-based nanomaterials for photocatalytic degradation of environmental and agricultural pollutants. The book discusses various aspects, including the application of zinc-based nanostructures to enhance plant health and growth, the effect on soil microbial activity, antimicrobial mechanism, phytotoxicity and accumulation in plants, the possible impact of zinc-based nanostructures in the agricultural sector as nanofertilizer, enhancing crop productivity, and other possible antimicrobial mechanisms of ZnO nanomaterials. - Explores the impact of a large variety of zinc-based nanostructures on agri-food and environment sectors - Outlines how the properties of zinc-based nanostructures mean they are particularly efficient in environmental and agricultural application areas - Assesses the major challenges of synthesizing and processing zinc-based nanostructured materials
This treatise is focused on early aspects of fungal pathogenesis in plant and animal hosts. Our aim in choosing the topics and contributors was to demonstrate common approaches to studies of fungal-plant and fungal-animal interactions, particularly at the biochemical and molecular Ievels. For example, the initial events of adh«sion of fungal spores to the exposed surface tissues of the host are essential for subsequent invasion of the plant or animal and establishment of pathogenesis. A point of consensus among investigators who have directed their attention to such events in plants, insects, and vertebrates isthat spore adhesion to the host cuticle or epithelium is more than a simple binding event. lt is a complex and potentially pivotal process in fungal-plant interactions which "may involve the secretion of ftuids that prepare the infection court for the development of morphological stages of the germling" and subsequent invasion of the host (Nicholson and Epstein, Chapter 1). The attachment of the fungal propagule to the arthropod cuticle is also "mediated by the chemical components present on the outer layer of the spore wall and the epicuticle . . . . Initial attachment may be reinforced further by either the active secretion of adhesive materials or the modification of spore wall materiallocated at the [fungal spore arthropod] cuticle interface (Boucias and Pendland, Chapter 5).
This volume describes different up-to-date methodological approaches, ranging from physiological assays to imaging and molecular techniques, to study a wide variety of plant responses to environmental cues. Environmental Responses in Plants: Methods and Protocols is divided into four sections: Tropisms, Photoperiodism and Circadian Rhythms, Abiotic Stress Responses, and Plant-Pathogen Interactions. The chapters in these sections include detailed protocols to investigate some of the many key biological processes underlying plant environmental responses, mostly in the model organism Arabidopsis thaliana, but also in Physcomitrella patens and in different crop species such as rice, potato, barley, or tomato. Written in the highly successful Methods in Molecular Biology series format, 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 practical, Environmental Responses in Plants: Methods and Protocols, is a great resource for plant physiologists, biochemists, and cell and molecular scientists interested in this exciting and fast-growing research topic.