Transgenic plant technology for remediation of toxic metals and metalloids/ edited by Majeti Narasimha Vara Prasad.

Contributor(s): Prasad, MNV, edMaterial type: TextTextPublication details: Elsevier, 2019Description: 564 pISBN: 9780128143896Subject(s): Semimetals | Genetic engineeringOnline resources: Click here to access online
Contents:
Chapter 1 - Transgenics in Phytoremediation of Metals and Metalloids: From Laboratory to Field Chapter 2 - Genetic Engineering for Metal and Metalloid Detoxification Chapter 3 - Emerging Trends in Transgenic Technology for Phytoremediation of Toxic Metals and Metalloids Chapter 4 - Emerging Trends and Tools in Transgenic Plant Technology for Phytoremediation of Toxic Metals and Metalloids Chapter 5 - Transgenic Plants: Benefits, Applications, and Potential Risks in Phytoremediation Chapter 6 - Remediation of Potentially Toxic Elements Through Transgenic Plants: In Vitro Studies and the Way Forward Chapter 7 - Approaches for Genetic Improvement and Transformation of Jatropha curcas and Ricinus communis for Efficient Remediation of Toxic Chapter 8 - Transgenic Approach for Mercury Detoxification in Plants Chapter 9 - Transgenics for Arsenic and Chromium Phytoremediation Chapter 10 - Transgenic Plants for Remediation of Radionuclides Chapter 11 - Transgenic Brassicaceae: A Promising Approach for Phytoremediation of Heavy Metals Chapter 12 - Restoration of Metalliferous Mine Waste Through Genetically Modified Crops Chapter 13 - Transgenic Tobacco for Phytoremediation of Metals and Metalloids Chapter 14 - Metabolic Engineering of Rhizobacteria Associated With Plants for Remediation of Toxic Metals and Metalloids Chapter 15 - Transgenic Energy Plants for Phytoremediation of Toxic Metals and Metalloids Chapter 16 - Transgenic Fiber Crops for Phytoremediation of Metals and Metalloids Chapter 17 - Plant Genetic Engineering Approach for the Pb and Zn Remediation: Defense Reactions and Detoxification Mechanisms Chapter 18 - Prosopis juliflora: A Potential Plant for Mining of Genes for Genetic Engineering to Enhance Phytoremediation of Metals Chapter 19 - Prospects for Manipulation of Molecular Mechanisms and Transgenic Approaches in Aquatic Macrophytes for Remediation of Toxic Chapter 20 - Scope for Applying Transgenic Plant Technology for Remediation and Fortification of Selenium Chapter 21 - Genetic Engineering in Plants for Enhancing Arsenic Tolerance Chapter 22 - Transgenic Ornamentals for Phytoremediation of Metals and Metalloids Chapter 23 - Expression of Pea (Pisum sativum) Seed Ferritin Gene in Indian Mustard (Brassica juncea) Enhances Accumulation of Iron and Cadmium
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Chapter 1 - Transgenics in Phytoremediation of Metals and Metalloids: From Laboratory to Field

Chapter 2 - Genetic Engineering for Metal and Metalloid Detoxification

Chapter 3 - Emerging Trends in Transgenic Technology for Phytoremediation of Toxic Metals and Metalloids

Chapter 4 - Emerging Trends and Tools in Transgenic Plant Technology for Phytoremediation of Toxic Metals and Metalloids

Chapter 5 - Transgenic Plants: Benefits, Applications, and Potential Risks in Phytoremediation

Chapter 6 - Remediation of Potentially Toxic Elements Through Transgenic Plants: In Vitro Studies and the Way Forward

Chapter 7 - Approaches for Genetic Improvement and Transformation of Jatropha curcas and Ricinus communis for Efficient Remediation of Toxic

Chapter 8 - Transgenic Approach for Mercury Detoxification in Plants

Chapter 9 - Transgenics for Arsenic and Chromium Phytoremediation

Chapter 10 - Transgenic Plants for Remediation of Radionuclides

Chapter 11 - Transgenic Brassicaceae: A Promising Approach for Phytoremediation of Heavy Metals

Chapter 12 - Restoration of Metalliferous Mine Waste Through Genetically Modified Crops

Chapter 13 - Transgenic Tobacco for Phytoremediation of Metals and Metalloids

Chapter 14 - Metabolic Engineering of Rhizobacteria Associated With Plants for Remediation of Toxic Metals and Metalloids

Chapter 15 - Transgenic Energy Plants for Phytoremediation of Toxic Metals and Metalloids

Chapter 16 - Transgenic Fiber Crops for Phytoremediation of Metals and Metalloids

Chapter 17 - Plant Genetic Engineering Approach for the Pb and Zn Remediation: Defense Reactions and Detoxification Mechanisms

Chapter 18 - Prosopis juliflora: A Potential Plant for Mining of Genes for Genetic Engineering to Enhance Phytoremediation of Metals

Chapter 19 - Prospects for Manipulation of Molecular Mechanisms and Transgenic Approaches in Aquatic Macrophytes for Remediation of Toxic

Chapter 20 - Scope for Applying Transgenic Plant Technology for Remediation and Fortification of Selenium

Chapter 21 - Genetic Engineering in Plants for Enhancing Arsenic Tolerance

Chapter 22 - Transgenic Ornamentals for Phytoremediation of Metals and Metalloids

Chapter 23 - Expression of Pea (Pisum sativum) Seed Ferritin Gene in Indian Mustard (Brassica juncea) Enhances Accumulation of Iron and Cadmium

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