Fungi in Extreme Environments: Ecological Role and Biotechnological Significance
portes grátis
Fungi in Extreme Environments: Ecological Role and Biotechnological Significance
Tiquia-Arashiro, Sonia M.; Grube, Martin
Springer Nature Switzerland AG
08/2020
626
Mole
Inglês
9783030190323
15 a 20 dias
973
Descrição não disponível.
Preface.- Part 1. Biodiversity, Ecology, Genetics and Physiology of Extremophilic Fungi.- Chapter 1. Biodiversity and ecology of extremophilic fungi in natural CO2 springs.- Chapter 2. Eukaryotic life in extreme environments: acidophilic fungi.- Chapter 3. Ecology of thermophilic fungi.- Chapter 4. New perspectives on the distribution and roles of thermophilic fungi.- Chapter 5. Ecology and biotechnology of thermophilic/thermotolerant fungi on crops under global warming.- Chapter 6. Soil microfungi of Israeli deserts: adaptations to environmental stress.- Chapter 7. Extremotolerant fungi from lichens and rocks.- Chapter 8. Antarctic basidiomycetous yeast.- Chapter 9. Adaptation mechanisms and applications of psychrophilic fungi.- Chapter 10. Melanin and resistance to ionizing radiation in fungi.- Chapter 11. Fungi in biofilms of highly acidic soils.- Chapter 12. Global Proteomics of Extremophile Fungi: Mission Accomplished?.- Part 2. Biotechnological Applications of Extremophilic Fungi.- Chapter 13. Yeast thriving in cold terrestrial habitats: Biodiversity and industrial/biotechnological applications.- Chapter 14. Pharmaceutical and biotechnological application of thermophilic fungi.- Chapter 15. Biotechnological applications of halophilic fungi; past, present and future.- Chapter 16. Biotechnological applications of xylanases from thermophilic fungi Sporotrichum thermophile.- Part 3. Biosynthesis of Novel Biomolecules and Extremozymes.- Chapter 17. Diversity and biotechnological applications of deep-sea fungi.- Chapter 18. Bioactive compounds from marine extremophilic fungi.- Chapter 19. Synthesis of Metallic Nanoparticles by Halotolerant Fungi.- Chapter 20. Cellulases from thermophilic fungi: Recent Insights and Biotechnological Potential.- Chapter 21. ?-Galactosidases from an acidophilic fungus, Teratosphaeria acidotherma AIU BGA-1.- Chapter 22. Fungi from extreme environments: A potential source of laccases group of extremozymes.- Part 4. Bioenergy andBiofuel synthesis.- Chapter 23. Lignocellulose Degrading Thermophilic Fungi and Their Prospects in Natural Rubber Extraction from Plants.- Chapter 24. Thermophilic fungi and their enzymes for biorefineries.- Part 5. Bioremediation and Biosolids Treatment.- Chapter 25. Acidomyces acidophilus: Ecology, biochemical properties, and application to bioremediation.- Chapter 26. Bioremediation abilities of Antarctic fungi.- Chapter 27. Haloalkaliphilic fungi and their roles in the treatment of saline-alkali soil.- Chapter 28. Potential role of extremophilic fungus for extra-heavy crude oil bioconversion and the sustainable development of the petroleum industry.- Chapter 29. Thermophilic Fungi: Their Role in Composting and Industrial Processes.- Index.
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Fungal ecology;Biotechnology;Extremophilic fungi;Fungal extremozymes;Extremophiles;Biocatalysis;Extremophilic fungal ecology
Preface.- Part 1. Biodiversity, Ecology, Genetics and Physiology of Extremophilic Fungi.- Chapter 1. Biodiversity and ecology of extremophilic fungi in natural CO2 springs.- Chapter 2. Eukaryotic life in extreme environments: acidophilic fungi.- Chapter 3. Ecology of thermophilic fungi.- Chapter 4. New perspectives on the distribution and roles of thermophilic fungi.- Chapter 5. Ecology and biotechnology of thermophilic/thermotolerant fungi on crops under global warming.- Chapter 6. Soil microfungi of Israeli deserts: adaptations to environmental stress.- Chapter 7. Extremotolerant fungi from lichens and rocks.- Chapter 8. Antarctic basidiomycetous yeast.- Chapter 9. Adaptation mechanisms and applications of psychrophilic fungi.- Chapter 10. Melanin and resistance to ionizing radiation in fungi.- Chapter 11. Fungi in biofilms of highly acidic soils.- Chapter 12. Global Proteomics of Extremophile Fungi: Mission Accomplished?.- Part 2. Biotechnological Applications of Extremophilic Fungi.- Chapter 13. Yeast thriving in cold terrestrial habitats: Biodiversity and industrial/biotechnological applications.- Chapter 14. Pharmaceutical and biotechnological application of thermophilic fungi.- Chapter 15. Biotechnological applications of halophilic fungi; past, present and future.- Chapter 16. Biotechnological applications of xylanases from thermophilic fungi Sporotrichum thermophile.- Part 3. Biosynthesis of Novel Biomolecules and Extremozymes.- Chapter 17. Diversity and biotechnological applications of deep-sea fungi.- Chapter 18. Bioactive compounds from marine extremophilic fungi.- Chapter 19. Synthesis of Metallic Nanoparticles by Halotolerant Fungi.- Chapter 20. Cellulases from thermophilic fungi: Recent Insights and Biotechnological Potential.- Chapter 21. ?-Galactosidases from an acidophilic fungus, Teratosphaeria acidotherma AIU BGA-1.- Chapter 22. Fungi from extreme environments: A potential source of laccases group of extremozymes.- Part 4. Bioenergy andBiofuel synthesis.- Chapter 23. Lignocellulose Degrading Thermophilic Fungi and Their Prospects in Natural Rubber Extraction from Plants.- Chapter 24. Thermophilic fungi and their enzymes for biorefineries.- Part 5. Bioremediation and Biosolids Treatment.- Chapter 25. Acidomyces acidophilus: Ecology, biochemical properties, and application to bioremediation.- Chapter 26. Bioremediation abilities of Antarctic fungi.- Chapter 27. Haloalkaliphilic fungi and their roles in the treatment of saline-alkali soil.- Chapter 28. Potential role of extremophilic fungus for extra-heavy crude oil bioconversion and the sustainable development of the petroleum industry.- Chapter 29. Thermophilic Fungi: Their Role in Composting and Industrial Processes.- Index.
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