| TÃtulo : |
Nanomaterial Biointeractions at the Cellular, Organismal and System Levels |
| Tipo de documento: |
documento electrónico |
| Autores: |
Sharma, Nilesh, ; Sahi, Shivendra, |
| Mención de edición: |
1 ed. |
| Editorial: |
[s.l.] : Springer |
| Fecha de publicación: |
2021 |
| Número de páginas: |
XVII, 459 p. 48 ilustraciones, 35 ilustraciones en color. |
| ISBN/ISSN/DL: |
978-3-030-65792-5 |
| Nota general: |
Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos. |
| Idioma : |
Inglés (eng) |
| Palabras clave: |
Planta NanotecnologÃa quÃmica botánica BiotecnologÃa vegetal BioquÃmica Desarrollo de plantas BioquÃmica vegetal BiologÃa quÃmica Evolución de las plantas |
| Clasificación: |
571.82 |
| Resumen: |
La gama de aplicaciones de nanomateriales se ha ampliado recientemente desde la catálisis, la electrónica y la filtración hasta la terapéutica, el diagnóstico, la agricultura y la alimentación debido a las propiedades y potenciales únicos de las diferentes nanopartÃculas y nanomateriales. Las investigaciones muestran que estas exquisitas partÃculas pueden interactuar con un organismo a nivel celular, fisiológico, bioquÃmico y molecular. Nuestro conocimiento, sin embargo, de cómo afectan estos cambios, selectiva o generalmente, en diversos organismos o ecosistemas es muy limitado y está lejos de ser satisfactorio. Los datos indican que la función biológica depende en gran medida de la forma, el tamaño y las caracterÃsticas de la superficie de las nanopartÃculas utilizadas junto con las etapas del ciclo de vida de un organismo. Este libro se centra en el trabajo realizado por distinguidos investigadores utilizando diversos nanomateriales en especies tanto vegetales como animales. Incluye estudios de casos especÃficos, asà como revisiones generales que destacan aspectos de interacciones de múltiples niveles. Este volumen proporciona un recurso integral para académicos, asà como para investigadores de las industrias interesadas y responsables polÃticos. |
| Nota de contenido: |
Preface -- 1. Pros and cons of metal oxide nanomaterial use in Australian broadacre agriculture -- 2. Accumulation of metal-oxide nanomaterials by unicellular algae and their transfer within marine and aquatic food-webs -- 3. The chemistry behind nanotoxicological processes in living systems -- 4. Nanoparticles and Sustainable Agriculture: Concepts and controversies -- 5. Elucidating the role of nano-bio interactions in nanotoxicology -- 6. Potential of nonotechnology for increasing micronutrients fertilizer use efficiency in crop production -- 7. Fate and effect of engineered nanomaterials in agricultural systems -- 8. Effects of engineered nanomaterials on the alleviation of abiotic stress in plants -- 9. Titanium Dioxide Nanoparticles Interactions: I. In vitro Studies in Animal Cells -- 10. Titanium Dioxide Nanoparticles Interactions: II. An Analysis Based on Animal Organ System -- 11. Engineered nanomaterials toxicity at different growth phases of agricultural species -- 12. Nanotoxicology Research Based on Drosophila Models -- 13. Caenorhabditis elegans À“ A unique animal model to study soilÀ“nanoparticlesÀ“organism interactions -- 14. Cytotoxic efficacy of green engineered biomolecules-loaded silver nanoparticles on HeLa Cell line using leaf extracts of Leucas aspera -- 15. Zebrafish models of nanotoxicity À“ A comprehensive account -- 16. Responses of terrestrial plants to metallic nanomaterial exposure À“ a Mechanistic analysis -- Index. . |
| Tipo de medio : |
Computadora |
| Summary : |
The range of nanomaterial applications has expanded recently from catalysis, electronics, and filtration to therapeutics, diagnostics, agriculture, and food because of the unique properties and potentials of different nanoparticles and nanomaterials. Research shows that these exquisite particles can interact with an organism at the cellular, physiological, biochemical, and molecular levels. Our knowledge, however, of how they affect these changes, selectively or generally, in diverse organisms or ecosystems is very limited and far from satisfactory. Data indicate that the biological function largely depends on the shape, size, and surface characteristics of the nanoparticles used along with life cycle stages of an organism. This book focuses on the body of work carried out by distinguished investigators using diverse nanomaterials in both plant and animal species. It includes specific case studies as well as general reviews highlighting aspects of multilayeredinteractions. This volume provides a comprehensive resource for academic scholars, as well as for researchers in the concerned industries and policy makers. |
| Enlace de acceso : |
https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] |
Nanomaterial Biointeractions at the Cellular, Organismal and System Levels [documento electrónico] / Sharma, Nilesh, ; Sahi, Shivendra, . - 1 ed. . - [s.l.] : Springer, 2021 . - XVII, 459 p. 48 ilustraciones, 35 ilustraciones en color. ISBN : 978-3-030-65792-5 Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos. Idioma : Inglés ( eng)
| Palabras clave: |
Planta NanotecnologÃa quÃmica botánica BiotecnologÃa vegetal BioquÃmica Desarrollo de plantas BioquÃmica vegetal BiologÃa quÃmica Evolución de las plantas |
| Clasificación: |
571.82 |
| Resumen: |
La gama de aplicaciones de nanomateriales se ha ampliado recientemente desde la catálisis, la electrónica y la filtración hasta la terapéutica, el diagnóstico, la agricultura y la alimentación debido a las propiedades y potenciales únicos de las diferentes nanopartÃculas y nanomateriales. Las investigaciones muestran que estas exquisitas partÃculas pueden interactuar con un organismo a nivel celular, fisiológico, bioquÃmico y molecular. Nuestro conocimiento, sin embargo, de cómo afectan estos cambios, selectiva o generalmente, en diversos organismos o ecosistemas es muy limitado y está lejos de ser satisfactorio. Los datos indican que la función biológica depende en gran medida de la forma, el tamaño y las caracterÃsticas de la superficie de las nanopartÃculas utilizadas junto con las etapas del ciclo de vida de un organismo. Este libro se centra en el trabajo realizado por distinguidos investigadores utilizando diversos nanomateriales en especies tanto vegetales como animales. Incluye estudios de casos especÃficos, asà como revisiones generales que destacan aspectos de interacciones de múltiples niveles. Este volumen proporciona un recurso integral para académicos, asà como para investigadores de las industrias interesadas y responsables polÃticos. |
| Nota de contenido: |
Preface -- 1. Pros and cons of metal oxide nanomaterial use in Australian broadacre agriculture -- 2. Accumulation of metal-oxide nanomaterials by unicellular algae and their transfer within marine and aquatic food-webs -- 3. The chemistry behind nanotoxicological processes in living systems -- 4. Nanoparticles and Sustainable Agriculture: Concepts and controversies -- 5. Elucidating the role of nano-bio interactions in nanotoxicology -- 6. Potential of nonotechnology for increasing micronutrients fertilizer use efficiency in crop production -- 7. Fate and effect of engineered nanomaterials in agricultural systems -- 8. Effects of engineered nanomaterials on the alleviation of abiotic stress in plants -- 9. Titanium Dioxide Nanoparticles Interactions: I. In vitro Studies in Animal Cells -- 10. Titanium Dioxide Nanoparticles Interactions: II. An Analysis Based on Animal Organ System -- 11. Engineered nanomaterials toxicity at different growth phases of agricultural species -- 12. Nanotoxicology Research Based on Drosophila Models -- 13. Caenorhabditis elegans À“ A unique animal model to study soilÀ“nanoparticlesÀ“organism interactions -- 14. Cytotoxic efficacy of green engineered biomolecules-loaded silver nanoparticles on HeLa Cell line using leaf extracts of Leucas aspera -- 15. Zebrafish models of nanotoxicity À“ A comprehensive account -- 16. Responses of terrestrial plants to metallic nanomaterial exposure À“ a Mechanistic analysis -- Index. . |
| Tipo de medio : |
Computadora |
| Summary : |
The range of nanomaterial applications has expanded recently from catalysis, electronics, and filtration to therapeutics, diagnostics, agriculture, and food because of the unique properties and potentials of different nanoparticles and nanomaterials. Research shows that these exquisite particles can interact with an organism at the cellular, physiological, biochemical, and molecular levels. Our knowledge, however, of how they affect these changes, selectively or generally, in diverse organisms or ecosystems is very limited and far from satisfactory. Data indicate that the biological function largely depends on the shape, size, and surface characteristics of the nanoparticles used along with life cycle stages of an organism. This book focuses on the body of work carried out by distinguished investigators using diverse nanomaterials in both plant and animal species. It includes specific case studies as well as general reviews highlighting aspects of multilayeredinteractions. This volume provides a comprehensive resource for academic scholars, as well as for researchers in the concerned industries and policy makers. |
| Enlace de acceso : |
https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] |
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