Biotechnological strategies for the conservation of medicinal and ornamental climbers (eBook, PDF)
149,79 €
inkl. MwSt.
Sofort per Download lieferbar
Biotechnological strategies for the conservation of medicinal and ornamental climbers (eBook, PDF)
- Format: PDF
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
Bitte loggen Sie sich zunächst in Ihr Kundenkonto ein oder registrieren Sie sich bei
bücher.de, um das eBook-Abo tolino select nutzen zu können.
Hier können Sie sich einloggen
Hier können Sie sich einloggen
Sie sind bereits eingeloggt. Klicken Sie auf 2. tolino select Abo, um fortzufahren.
Bitte loggen Sie sich zunächst in Ihr Kundenkonto ein oder registrieren Sie sich bei bücher.de, um das eBook-Abo tolino select nutzen zu können.
The book provides an overview on adoption of biotechnological approaches for the conservation, micropropagation, synseed production of various medicinal and ornamental climbers. The work includes a brief chapter on evolution and diversification of climbers. Other chapters give insights on protocols for in vitro propagation and synseed production of selected threatened medicinal and ornamental climbers. Informative chapter on the production of bioactive compound and their enhancement through genetic transformation and elicitation have been incorporated to cover latest advancement in the field…mehr
- Geräte: PC
- ohne Kopierschutz
- eBook Hilfe
- Größe: 7.51MB
- Upload möglich
Andere Kunden interessierten sich auch für
- Medicinal Plants - Recent Advances in Research and Development (eBook, PDF)234,33 €
- Plant and Human Health, Volume 1 (eBook, PDF)213,99 €
- Bettina RahfeldMikroskopischer Farbatlas pflanzlicher Drogen (eBook, PDF)22,99 €
- Plant and Human Health, Volume 2 (eBook, PDF)213,99 €
- Teucrium Species: Biology and Applications (eBook, PDF)160,49 €
- Plant and Human Health, Volume 3 (eBook, PDF)149,79 €
- Sergio Rosales-MendozaAlgae-Based Biopharmaceuticals (eBook, PDF)96,29 €
-
-
-
The book provides an overview on adoption of biotechnological approaches for the conservation, micropropagation, synseed production of various medicinal and ornamental climbers. The work includes a brief chapter on evolution and diversification of climbers. Other chapters give insights on protocols for in vitro propagation and synseed production of selected threatened medicinal and ornamental climbers. Informative chapter on the production of bioactive compound and their enhancement through genetic transformation and elicitation have been incorporated to cover latest advancement in the field of plant biotechnology. This book also explores the use of molecular marker technique for the desired improvement/magnification of medicinal and aesthetic value of climbing plants.
Produktdetails
- Produktdetails
- Verlag: Springer International Publishing
- Erscheinungstermin: 24. Dezember 2015
- Englisch
- ISBN-13: 9783319192888
- Artikelnr.: 44485470
- Verlag: Springer International Publishing
- Erscheinungstermin: 24. Dezember 2015
- Englisch
- ISBN-13: 9783319192888
- Artikelnr.: 44485470
Prof. Shahzad is the co-Editor of: Recent Trends in Biotechnology and Therapeutic Applications of Medicinal Plants Shahid, M., Shahzad, A., Malik, A., Sahai, A. (Eds.) 978-94-007-6602-0, May 2013, 137,79, 357 pp, HB sold: 103 copies, 8,876 downloads According to the 2013 Book Performance Report the above listed book was one of the top 25% most downloaded eBooks in the relevant Springer eBook Collection in 2013."
1: Climbers: Evolution and Diversification in Angiosperm
1.1 Introduction
1.2 Climbing habitat
1.3 Climbing and attachment mechanisms
1.4 Types of climber
1.5 General taxonomy of climbing plants
1.6 Some general properties of climbing plants
1.7 Role of climbers in ecosystem
1.8 Climber’s evolution
1.9 How long ago were climbing plants common in forested ecosystems?
2: Biodiversity Conservation with Special Reference to Medicinal Climbers: Present Scenario, Challenges, Strategies and Policies
2.1 Biodiversity: Natural Capital of The Earth
2.2 Types of Biodiversity (Diversity Indices)
2.3 Levels of Biodiversity
2.4 The Mega Diversity Regions
2.5 Hotspots of Biodiversity
2.6 Loss of Biodiversity
2.7 Threats to Biodiversity: Causes
2.8 IUCN Threat Categories
2.9 IUCN Threat Criteria
2.10 Market Scenario for Medicinal Plant
2.11 Loss of Biodiversity and Challenges
2.12 Climbing Phytodiversity in India
2.13 List of Climbers (Medicinal and Ornamental) Facing Threat
2.14 Global Strategy for Biodiversity Conservation
2.15 Strategies Used for Biodiversity Conservation
2.16 Policies for Biodiversity Conservation
3: Medicinal Importance of Climbers Used In Unani System of Medicine
3.1 Introduction
3.2 Ghonghchi
3.3 Zaravand Taweel
3.4 Zaravand Modahraj
3.5
Satavar
3.6 Asfanakh
3.7 Habb-ul-Qiliqil
3.8 Malkangani
3.9 Hadjod
3.10 Hirankhur
3.11 ftimun Vilayati
3.12 Baobarang/Barang Kabuli
3.13 Gurmaar Booti
3.14 Ushba Hindi
3.15 Turbud
3.16 Bandaal
3.17 Karela
3.18 Konch
3.19 Paan
3.20 Kabab Chini/Kababah
3.21 Filfil Seyah
3.22 Gilo
3.23 Maweez
4: Climber Plants: Medicinal Importance and Conservation Strategies
4.1 Introduction
4.2 History
4.3 Habitat and Distribution
4.4 Medicinal Application and Drug Discovery
4.5 Threats
4.6 Conservation Strategies
4.7 Role of Biotechnology on Their Conservation
4.8 Some Selected Climbing Plant Families
4.9 Conclusion
5: Plant Tissue Culture: Profile of Pioneers
5.1 Introduction
5.2 History of Plant Tissue Culture
5.3 Profile of Pioneers
6: Mircopropagation: A Boon for Conservation of Valuable Vines and Lianas
6.1 Introduction
6.2
Basic Plant Tissue Culture Techniques
6.3 Steps of Culturing Plant Tissue
6.4 Development of Nutrient Media
6.5 Advantages of Micropropagation Over Conventional Cultivation
6.6 Drawbacks of Plant Tissue Culture
6.7 Micropropagation Protocols For Some Threatened And Endangered Medicinal Lianas
6.8 Future Prospects
7: Somatic Embryogenesis: A Valuable Strategy for Phyto-Climbing Diversity Conservation
7.1 Introduction
7.2 Terminology
7.3 Zygotic embryogenesis versus somatic embryogenesis
7.4 Different phases of somatic embryogenesis
7.5 Factors affecting somatic embryogenesis
7.6 Important genes related to somatic embryogenesis
7.7 Applications of somatic
embryogenesis
7.8 Limitations of somatic embryogenesis
7.9 Types of somatic embryogenesis
7.10 Somatic embryogenesis in medicinal climbers
7.11 Future prospects
8: Biotechnological Perspectives towards Improvement of Decalepishamiltonii, Potential Applications of Its tubers And Bioactive Compounds of Nutraceuticals for Value Addition
8.1 Introduction
8.2 Ethnobotanical information
8.3 Production
8.4 Phytoconstituents of tubers
8.5 Biotechnological intervention for mass multiplication
8.6 Germination studies
8.7 In vitro propagation methods
8.8 In vitro production of flavour metabolite 2H4MB
8.9 Augmentation of flavour metabolite in tubers
8.10 Applications of tubers
8.11 Other applications
8.12 Insecticidal activity
8.13 Antimicrobial activity
8.14 Medicinal applications
8.15 Bioactivity studies in cell cultures and experimental animals
8.16
Future prospects
9: Tylophora indica (Burm. f.) Merrill: Medicinal Uses, Propagation and Replenishment
9.1 Introduction: Vernacular Names, Habitat, Habit, Taxonomy
9.2 Chemical Constituents
9.3 Medicinal Properties
9.4 Plant Tissue Culture Studies
10: In Vitro Strategies for the Conservation of Some Medicinal and Horticultural Climbers
10.1 Introduction
10.1.1 Cardiospermumhalicacabum Linn
10.1.2 BenincasahispidaCogn.
10.1.3. TylophoraindicaBurm. f. Merrill.
10.1.4 SarcostemmabrevistigmaWight.
10.1.5 CycleapeltataLam.
10.1.6 Caesalpiniabonduc (L.)Roxb.
10.1.7 Clitoriaternatea L.
10.1.8 HemidesmusindicusL. R. Br.
10.1.9 Momordicacharantia L.
10.1.10
Embeliaribes Burm F.
11: Advancement in Encapsulation Techniques for Conservation of Climbers
11.1 Introduction
11.2 Advantages of Synthetic Seed Technology
11.3 Encapsulation Procedure
11.4 Studies Conducted So Far for Synthetic Seed Production of Woody Climbers
11.5 Concluding Remarks and Future Prospects
12: Secondary Metabolite Enhancement in Medicinal Climbers through the Intervention of Abiotic and Biotic Elicitors
12.1 Introduction
12.2 Classification of elicitors
12.3 Mechanism of Elicitation: the biochemical pathway
12.4 Elicitors: Effect and Outcome in Enhanced Alkaloid Production
13: Basic Principles behind Genetic Transformation in Plants
13.1 Introduction
13.2 Methods of Genetic Transformation
13.3 Gene Expression in Transgenic Plants
13.4 Engineering Plants for Useful Agronomic Traits
13.5 Future Implications of Plant Transformation
13.6 Conclusion
14: Genetic Transformation for Quality Improvement of Ornamental Climbers
14.1 Introduction
14.2 Type Study
14.3 Future Prospects
14.3 Conclusion
15: Advances in Molecular Approaches for the Integrative Genetic Transformation of Highly Important Climbers
15.1 Introduction
15.2 Future Prospects and Conclusion
16: Molecular Markers and their Applications in Plant Biotechnology
16.1 Molecular Markers: An Introduction
16.2 Restriction Fragment Length Polymorphism (RFLP)
16.3 Randomly Amplified Polymorphic DNA Markers (RAPD)
16.4 Amplified Fragment Length Polymorphism (AFLP)
16.5 Inter Simple Sequence
Repeats (ISSR)
16.6 Minisatellites, Variable Number of Tandem Repeats (VNTR)
16.7 Microsatellites or Simple Sequence Repeat (SSR)
16.8 Single-Strand Conformation Polymorphism (SSCP)16.9 Cleaved Amplified Polymorphic Sequence (CAPS)
16.11 Single Nucleotide Polymorphism (SNP)
16.12 Sequence-Specific Amplified Polymorphism (S-SAP)
16.13 DNA amplification fingerprinting (DAF)
16.14 Arbitrary primed polymerase chain reaction (AP-PCR)
16.15 Interretrotransposon Amplified Polymorphism (IRAP) and Retrotransposon- Microsatellite Amplified Polymorphism (REMAP)
16.16 Retrotransposon-Based Insertional Polymorphism (RBIP)
16.17 Applications of Molecular Markers In Plant Genome Analysis and Breeding
16.18 Conclusions
16.19 Future Prospects
17: Use of Molecular
Markers in Medicinal Climber
17.1 Introduction
17.2 Application of Molecular Markers in Genetic Studies of Some Important Medicinal Climbers
17.3 Conclusions
17.4 Future prospects
18: Selective Protocols for In Vitro Propagation of Threatened Medicinal Climbers
18.1 Introduction
18.2 Climber
18.3 Importance of Ornamental Plants
18.4 Plant Tissue Culture
18.5 Advancement in Production of Secondary Metabolites via Plant Tissue Culture
18.6 Conclusions
19: In Vitro Protocols for Ornamental Climbers
19.1 Introduction
19.2 Type Studies
19.3 Concluding Remarks and Future Prospects
20: Contribution of Biotechnology in the Enhancement of Secondary Metabolites in Selected Medicinal Climbers
20.1 Introduction
20.2 Biotechnological Tools
20.3 Medicinal Climbers and Use of Biotechnological
Tools
20.4 Future Prospects for Improvement of Important Bioactive Molecules of Medicinal Climbers
20.6 Conclusions
1.1 Introduction
1.2 Climbing habitat
1.3 Climbing and attachment mechanisms
1.4 Types of climber
1.5 General taxonomy of climbing plants
1.6 Some general properties of climbing plants
1.7 Role of climbers in ecosystem
1.8 Climber’s evolution
1.9 How long ago were climbing plants common in forested ecosystems?
2: Biodiversity Conservation with Special Reference to Medicinal Climbers: Present Scenario, Challenges, Strategies and Policies
2.1 Biodiversity: Natural Capital of The Earth
2.2 Types of Biodiversity (Diversity Indices)
2.3 Levels of Biodiversity
2.4 The Mega Diversity Regions
2.5 Hotspots of Biodiversity
2.6 Loss of Biodiversity
2.7 Threats to Biodiversity: Causes
2.8 IUCN Threat Categories
2.9 IUCN Threat Criteria
2.10 Market Scenario for Medicinal Plant
2.11 Loss of Biodiversity and Challenges
2.12 Climbing Phytodiversity in India
2.13 List of Climbers (Medicinal and Ornamental) Facing Threat
2.14 Global Strategy for Biodiversity Conservation
2.15 Strategies Used for Biodiversity Conservation
2.16 Policies for Biodiversity Conservation
3: Medicinal Importance of Climbers Used In Unani System of Medicine
3.1 Introduction
3.2 Ghonghchi
3.3 Zaravand Taweel
3.4 Zaravand Modahraj
3.5
Satavar
3.6 Asfanakh
3.7 Habb-ul-Qiliqil
3.8 Malkangani
3.9 Hadjod
3.10 Hirankhur
3.11 ftimun Vilayati
3.12 Baobarang/Barang Kabuli
3.13 Gurmaar Booti
3.14 Ushba Hindi
3.15 Turbud
3.16 Bandaal
3.17 Karela
3.18 Konch
3.19 Paan
3.20 Kabab Chini/Kababah
3.21 Filfil Seyah
3.22 Gilo
3.23 Maweez
4: Climber Plants: Medicinal Importance and Conservation Strategies
4.1 Introduction
4.2 History
4.3 Habitat and Distribution
4.4 Medicinal Application and Drug Discovery
4.5 Threats
4.6 Conservation Strategies
4.7 Role of Biotechnology on Their Conservation
4.8 Some Selected Climbing Plant Families
4.9 Conclusion
5: Plant Tissue Culture: Profile of Pioneers
5.1 Introduction
5.2 History of Plant Tissue Culture
5.3 Profile of Pioneers
6: Mircopropagation: A Boon for Conservation of Valuable Vines and Lianas
6.1 Introduction
6.2
Basic Plant Tissue Culture Techniques
6.3 Steps of Culturing Plant Tissue
6.4 Development of Nutrient Media
6.5 Advantages of Micropropagation Over Conventional Cultivation
6.6 Drawbacks of Plant Tissue Culture
6.7 Micropropagation Protocols For Some Threatened And Endangered Medicinal Lianas
6.8 Future Prospects
7: Somatic Embryogenesis: A Valuable Strategy for Phyto-Climbing Diversity Conservation
7.1 Introduction
7.2 Terminology
7.3 Zygotic embryogenesis versus somatic embryogenesis
7.4 Different phases of somatic embryogenesis
7.5 Factors affecting somatic embryogenesis
7.6 Important genes related to somatic embryogenesis
7.7 Applications of somatic
embryogenesis
7.8 Limitations of somatic embryogenesis
7.9 Types of somatic embryogenesis
7.10 Somatic embryogenesis in medicinal climbers
7.11 Future prospects
8: Biotechnological Perspectives towards Improvement of Decalepishamiltonii, Potential Applications of Its tubers And Bioactive Compounds of Nutraceuticals for Value Addition
8.1 Introduction
8.2 Ethnobotanical information
8.3 Production
8.4 Phytoconstituents of tubers
8.5 Biotechnological intervention for mass multiplication
8.6 Germination studies
8.7 In vitro propagation methods
8.8 In vitro production of flavour metabolite 2H4MB
8.9 Augmentation of flavour metabolite in tubers
8.10 Applications of tubers
8.11 Other applications
8.12 Insecticidal activity
8.13 Antimicrobial activity
8.14 Medicinal applications
8.15 Bioactivity studies in cell cultures and experimental animals
8.16
Future prospects
9: Tylophora indica (Burm. f.) Merrill: Medicinal Uses, Propagation and Replenishment
9.1 Introduction: Vernacular Names, Habitat, Habit, Taxonomy
9.2 Chemical Constituents
9.3 Medicinal Properties
9.4 Plant Tissue Culture Studies
10: In Vitro Strategies for the Conservation of Some Medicinal and Horticultural Climbers
10.1 Introduction
10.1.1 Cardiospermumhalicacabum Linn
10.1.2 BenincasahispidaCogn.
10.1.3. TylophoraindicaBurm. f. Merrill.
10.1.4 SarcostemmabrevistigmaWight.
10.1.5 CycleapeltataLam.
10.1.6 Caesalpiniabonduc (L.)Roxb.
10.1.7 Clitoriaternatea L.
10.1.8 HemidesmusindicusL. R. Br.
10.1.9 Momordicacharantia L.
10.1.10
Embeliaribes Burm F.
11: Advancement in Encapsulation Techniques for Conservation of Climbers
11.1 Introduction
11.2 Advantages of Synthetic Seed Technology
11.3 Encapsulation Procedure
11.4 Studies Conducted So Far for Synthetic Seed Production of Woody Climbers
11.5 Concluding Remarks and Future Prospects
12: Secondary Metabolite Enhancement in Medicinal Climbers through the Intervention of Abiotic and Biotic Elicitors
12.1 Introduction
12.2 Classification of elicitors
12.3 Mechanism of Elicitation: the biochemical pathway
12.4 Elicitors: Effect and Outcome in Enhanced Alkaloid Production
13: Basic Principles behind Genetic Transformation in Plants
13.1 Introduction
13.2 Methods of Genetic Transformation
13.3 Gene Expression in Transgenic Plants
13.4 Engineering Plants for Useful Agronomic Traits
13.5 Future Implications of Plant Transformation
13.6 Conclusion
14: Genetic Transformation for Quality Improvement of Ornamental Climbers
14.1 Introduction
14.2 Type Study
14.3 Future Prospects
14.3 Conclusion
15: Advances in Molecular Approaches for the Integrative Genetic Transformation of Highly Important Climbers
15.1 Introduction
15.2 Future Prospects and Conclusion
16: Molecular Markers and their Applications in Plant Biotechnology
16.1 Molecular Markers: An Introduction
16.2 Restriction Fragment Length Polymorphism (RFLP)
16.3 Randomly Amplified Polymorphic DNA Markers (RAPD)
16.4 Amplified Fragment Length Polymorphism (AFLP)
16.5 Inter Simple Sequence
Repeats (ISSR)
16.6 Minisatellites, Variable Number of Tandem Repeats (VNTR)
16.7 Microsatellites or Simple Sequence Repeat (SSR)
16.8 Single-Strand Conformation Polymorphism (SSCP)16.9 Cleaved Amplified Polymorphic Sequence (CAPS)
16.11 Single Nucleotide Polymorphism (SNP)
16.12 Sequence-Specific Amplified Polymorphism (S-SAP)
16.13 DNA amplification fingerprinting (DAF)
16.14 Arbitrary primed polymerase chain reaction (AP-PCR)
16.15 Interretrotransposon Amplified Polymorphism (IRAP) and Retrotransposon- Microsatellite Amplified Polymorphism (REMAP)
16.16 Retrotransposon-Based Insertional Polymorphism (RBIP)
16.17 Applications of Molecular Markers In Plant Genome Analysis and Breeding
16.18 Conclusions
16.19 Future Prospects
17: Use of Molecular
Markers in Medicinal Climber
17.1 Introduction
17.2 Application of Molecular Markers in Genetic Studies of Some Important Medicinal Climbers
17.3 Conclusions
17.4 Future prospects
18: Selective Protocols for In Vitro Propagation of Threatened Medicinal Climbers
18.1 Introduction
18.2 Climber
18.3 Importance of Ornamental Plants
18.4 Plant Tissue Culture
18.5 Advancement in Production of Secondary Metabolites via Plant Tissue Culture
18.6 Conclusions
19: In Vitro Protocols for Ornamental Climbers
19.1 Introduction
19.2 Type Studies
19.3 Concluding Remarks and Future Prospects
20: Contribution of Biotechnology in the Enhancement of Secondary Metabolites in Selected Medicinal Climbers
20.1 Introduction
20.2 Biotechnological Tools
20.3 Medicinal Climbers and Use of Biotechnological
Tools
20.4 Future Prospects for Improvement of Important Bioactive Molecules of Medicinal Climbers
20.6 Conclusions
1: Climbers: Evolution and Diversification in Angiosperm
1.1 Introduction
1.2 Climbing habitat
1.3 Climbing and attachment mechanisms
1.4 Types of climber
1.5 General taxonomy of climbing plants
1.6 Some general properties of climbing plants
1.7 Role of climbers in ecosystem
1.8 Climber's evolution
1.9 How long ago were climbing plants common in forested ecosystems?
2: Biodiversity Conservation with Special Reference to Medicinal Climbers: Present Scenario, Challenges, Strategies and Policies
2.1 Biodiversity: Natural Capital of The Earth
2.2 Types of Biodiversity (Diversity Indices)
2.3 Levels of Biodiversity
2.4 The Mega Diversity Regions
2.5 Hotspots of Biodiversity
2.6 Loss of Biodiversity
2.7 Threats to Biodiversity: Causes
2.8 IUCN Threat Categories
2.9 IUCN Threat Criteria
2.10 Market Scenario for Medicinal Plant
2.11 Loss of Biodiversity and Challenges
2.12 Climbing Phytodiversity in India
2.13 List of Climbers (Medicinal and Ornamental) Facing Threat
2.14 Global Strategy for Biodiversity Conservation
2.15 Strategies Used for Biodiversity Conservation
2.16 Policies for Biodiversity Conservation
3: Medicinal Importance of Climbers Used In Unani System of Medicine
3.1 Introduction
3.2 Ghonghchi
3.3 Zaravand Taweel
3.4 Zaravand Modahraj
3.5
Satavar
3.6 Asfanakh
3.7 Habb-ul-Qiliqil
3.8 Malkangani
3.9 Hadjod
3.10 Hirankhur
3.11 ftimun Vilayati
3.12 Baobarang/Barang Kabuli
3.13 Gurmaar Booti
3.14 Ushba Hindi
3.15 Turbud
3.16 Bandaal
3.17 Karela
3.18 Konch
3.19 Paan
3.20 Kabab Chini/Kababah
3.21 Filfil Seyah
3.22 Gilo
3.23 Maweez
4: Climber Plants: Medicinal Importance and Conservation Strategies
4.1 Introduction
4.2 History
4.3 Habitat and Distribution
4.4 Medicinal Application and Drug Discovery
4.5 Threats
4.6 Conservation Strategies
4.7 Role of Biotechnology on Their Conservation
4.8 Some Selected Climbing Plant Families
4.9 Conclusion
5: Plant Tissue Culture: Profile of Pioneers
5.1 Introduction
5.2 History of Plant Tissue Culture
5.3 Profile of Pioneers
6: Mircopropagation: A Boon for Conservation of Valuable Vines and Lianas
6.1 Introduction
6.2
Basic Plant Tissue Culture Techniques
6.3 Steps of Culturing Plant Tissue
6.4 Development of Nutrient Media
6.5 Advantages of Micropropagation Over Conventional Cultivation
6.6 Drawbacks of Plant Tissue Culture
6.7 Micropropagation Protocols For Some Threatened And Endangered Medicinal Lianas
6.8 Future Prospects
7: Somatic Embryogenesis: A Valuable Strategy for Phyto-Climbing Diversity Conservation
7.1 Introduction
7.2 Terminology
7.3 Zygotic embryogenesis versus somatic embryogenesis
7.4 Different phases of somatic embryogenesis
7.5 Factors affecting somatic embryogenesis
7.6 Important genes related to somatic embryogenesis
7.7 Applications of somatic
embryogenesis
7.8 Limitations of somatic embryogenesis
7.9 Types of somatic embryogenesis
7.10 Somatic embryogenesis in medicinal climbers
7.11 Future prospects
8: Biotechnological Perspectives towards Improvement of Decalepishamiltonii, Potential Applications of Its tubers And Bioactive Compounds of Nutraceuticals for Value Addition
8.1 Introduction
8.2 Ethnobotanical information
8.3 Production
8.4 Phytoconstituents of tubers
8.5 Biotechnological intervention for mass multiplication
8.6 Germination studies
8.7 In vitro propagation methods
8.8 In vitro production of flavour metabolite 2H4MB
8.9 Augmentation of flavour metabolite in tubers
8.10 Applications of tubers
8.11 Other applications
8.12 Insecticidal activity
8.13 Antimicrobial activity
8.14 Medicinal applications
8.15 Bioactivity studies in cell cultures and experimental animals
8.16
Future prospects
9: Tylophora indica (Burm. f.) Merrill: Medicinal Uses, Propagation and Replenishment
9.1 Introduction: Vernacular Names, Habitat, Habit, Taxonomy
9.2 Chemical Constituents
9.3 Medicinal Properties
9.4 Plant Tissue Culture Studies
10: In Vitro Strategies for the Conservation of Some Medicinal and Horticultural Climbers
10.1 Introduction
10.1.1 Cardiospermumhalicacabum Linn
10.1.2 BenincasahispidaCogn.
10.1.3. TylophoraindicaBurm. f. Merrill.
10.1.4 SarcostemmabrevistigmaWight.
10.1.5 CycleapeltataLam.
10.1.6 Caesalpiniabonduc (L.)Roxb.
10.1.7 Clitoriaternatea L.
10.1.8 HemidesmusindicusL. R. Br.
10.1.9 Momordicacharantia L.
10.1.10
EmbeliaribesBurm F.
11: Advancement in Encapsulation Techniques for Conservation of Climbers
11.1 Introduction
11.2 Advantages of Synthetic Seed Technology
11.3 Encapsulation Procedure
11.4 Studies Conducted So Far for Synthetic Seed Production of Woody Climbers
11.5 Concluding Remarks and Future Prospects
12: Secondary Metabolite Enhancement in Medicinal Climbers through the Intervention of Abiotic and Biotic Elicitors
12.1 Introduction
12.2 Classification of elicitors
12.3 Mechanism of Elicitation: the biochemical pathway
12.4 Elicitors: Effect and Outcome in Enhanced Alkaloid Production
13: Basic Principles behind Genetic Transformation in Plants
13.1 Introduction
13.2 Methods of Genetic Transformation
13.3 Gene Expression in Transgenic Plants
13.4 Engineering Plants for Useful Agronomic Traits
13.5 Future Implications of Plant Transformation
13.6 Conclusion
14: Genetic Transformation for Quality Improvement of Ornamental Climbers
14.1 Introduction
14.2 Type Study
14.3 Future Prospects
14.3 Conclusion
15: Advances in Molecular Approaches for the Integrative Genetic Transformation of Highly Important Climbers
15.1 Introduction
15.2 Future Prospects and Conclusion
16: Molecular Markers and their Applications in Plant Biotechnology
16.1 Molecular Markers: An Introduction
16.2 Restriction Fragment Length Polymorphism (RFLP)
16.3 Randomly Amplified Polymorphic DNA Markers (RAPD)
16.4 Amplified Fragment Length Polymorphism (AFLP)
16.5 Inter Simple Sequence
Repeats (ISSR)
16.6 Minisatellites, Variable Number of Tandem Repeats (VNTR)
16.7 Microsatellites or Simple Sequence Repeat (SSR)
16.8 Single-Strand Conformation Polymorphism (SSCP)16.9 Cleaved Amplified Polymorphic Sequence (CAPS)
16.11 Single Nucleotide Polymorphism (SNP)
16.12 Sequence-Specific Amplified Polymorphism (S-SAP)
16.13 DNA amplification fingerprinting (DAF)
16.14 Arbitrary primed polymerase chain reaction (AP-PCR)
16.15 Interretrotransposon Amplified Polymorphism (IRAP) and Retrotransposon- Microsatellite Amplified Polymorphism (REMAP)
16.16 Retrotransposon-Based Insertional Polymorphism (RBIP)
16.17 Applications of Molecular Markers In Plant Genome Analysis and Breeding
16.18 Conclusions
16.19 Future Prospects
17: Use of Molecular
Markers in Medicinal Climber
17.1 Introduction
17.2 Application of Molecular Markers in Genetic Studies of Some Important Medicinal Climbers
17.3 Conclusions
17.4 Future prospects
18: Selective Protocols for In Vitro Propagation of Threatened Medicinal Climbers
18.1 Introduction
18.2 Climber
18.3 Importance of Ornamental Plants
18.4 Plant Tissue Culture
18.5 Advancement in Production of Secondary Metabolites via Plant Tissue Culture
18.6 Conclusions
19: In Vitro Protocols for Ornamental Climbers
19.1 Introduction
19.2 Type Studies
19.3 Concluding Remarks and Future Prospects
20: Contribution of Biotechnology in the Enhancement of Secondary Metabolites in Selected Medicinal Climbers
20.1 Introduction
20.2 Biotechnological Tools
20.3 Medicinal Climbers and Use of Biotechnological
Tools
20.4 Future Prospects for Improvement of Important Bioactive Molecules of Medicinal Climbers
20.6 Conclusions
1.1 Introduction
1.2 Climbing habitat
1.3 Climbing and attachment mechanisms
1.4 Types of climber
1.5 General taxonomy of climbing plants
1.6 Some general properties of climbing plants
1.7 Role of climbers in ecosystem
1.8 Climber's evolution
1.9 How long ago were climbing plants common in forested ecosystems?
2: Biodiversity Conservation with Special Reference to Medicinal Climbers: Present Scenario, Challenges, Strategies and Policies
2.1 Biodiversity: Natural Capital of The Earth
2.2 Types of Biodiversity (Diversity Indices)
2.3 Levels of Biodiversity
2.4 The Mega Diversity Regions
2.5 Hotspots of Biodiversity
2.6 Loss of Biodiversity
2.7 Threats to Biodiversity: Causes
2.8 IUCN Threat Categories
2.9 IUCN Threat Criteria
2.10 Market Scenario for Medicinal Plant
2.11 Loss of Biodiversity and Challenges
2.12 Climbing Phytodiversity in India
2.13 List of Climbers (Medicinal and Ornamental) Facing Threat
2.14 Global Strategy for Biodiversity Conservation
2.15 Strategies Used for Biodiversity Conservation
2.16 Policies for Biodiversity Conservation
3: Medicinal Importance of Climbers Used In Unani System of Medicine
3.1 Introduction
3.2 Ghonghchi
3.3 Zaravand Taweel
3.4 Zaravand Modahraj
3.5
Satavar
3.6 Asfanakh
3.7 Habb-ul-Qiliqil
3.8 Malkangani
3.9 Hadjod
3.10 Hirankhur
3.11 ftimun Vilayati
3.12 Baobarang/Barang Kabuli
3.13 Gurmaar Booti
3.14 Ushba Hindi
3.15 Turbud
3.16 Bandaal
3.17 Karela
3.18 Konch
3.19 Paan
3.20 Kabab Chini/Kababah
3.21 Filfil Seyah
3.22 Gilo
3.23 Maweez
4: Climber Plants: Medicinal Importance and Conservation Strategies
4.1 Introduction
4.2 History
4.3 Habitat and Distribution
4.4 Medicinal Application and Drug Discovery
4.5 Threats
4.6 Conservation Strategies
4.7 Role of Biotechnology on Their Conservation
4.8 Some Selected Climbing Plant Families
4.9 Conclusion
5: Plant Tissue Culture: Profile of Pioneers
5.1 Introduction
5.2 History of Plant Tissue Culture
5.3 Profile of Pioneers
6: Mircopropagation: A Boon for Conservation of Valuable Vines and Lianas
6.1 Introduction
6.2
Basic Plant Tissue Culture Techniques
6.3 Steps of Culturing Plant Tissue
6.4 Development of Nutrient Media
6.5 Advantages of Micropropagation Over Conventional Cultivation
6.6 Drawbacks of Plant Tissue Culture
6.7 Micropropagation Protocols For Some Threatened And Endangered Medicinal Lianas
6.8 Future Prospects
7: Somatic Embryogenesis: A Valuable Strategy for Phyto-Climbing Diversity Conservation
7.1 Introduction
7.2 Terminology
7.3 Zygotic embryogenesis versus somatic embryogenesis
7.4 Different phases of somatic embryogenesis
7.5 Factors affecting somatic embryogenesis
7.6 Important genes related to somatic embryogenesis
7.7 Applications of somatic
embryogenesis
7.8 Limitations of somatic embryogenesis
7.9 Types of somatic embryogenesis
7.10 Somatic embryogenesis in medicinal climbers
7.11 Future prospects
8: Biotechnological Perspectives towards Improvement of Decalepishamiltonii, Potential Applications of Its tubers And Bioactive Compounds of Nutraceuticals for Value Addition
8.1 Introduction
8.2 Ethnobotanical information
8.3 Production
8.4 Phytoconstituents of tubers
8.5 Biotechnological intervention for mass multiplication
8.6 Germination studies
8.7 In vitro propagation methods
8.8 In vitro production of flavour metabolite 2H4MB
8.9 Augmentation of flavour metabolite in tubers
8.10 Applications of tubers
8.11 Other applications
8.12 Insecticidal activity
8.13 Antimicrobial activity
8.14 Medicinal applications
8.15 Bioactivity studies in cell cultures and experimental animals
8.16
Future prospects
9: Tylophora indica (Burm. f.) Merrill: Medicinal Uses, Propagation and Replenishment
9.1 Introduction: Vernacular Names, Habitat, Habit, Taxonomy
9.2 Chemical Constituents
9.3 Medicinal Properties
9.4 Plant Tissue Culture Studies
10: In Vitro Strategies for the Conservation of Some Medicinal and Horticultural Climbers
10.1 Introduction
10.1.1 Cardiospermumhalicacabum Linn
10.1.2 BenincasahispidaCogn.
10.1.3. TylophoraindicaBurm. f. Merrill.
10.1.4 SarcostemmabrevistigmaWight.
10.1.5 CycleapeltataLam.
10.1.6 Caesalpiniabonduc (L.)Roxb.
10.1.7 Clitoriaternatea L.
10.1.8 HemidesmusindicusL. R. Br.
10.1.9 Momordicacharantia L.
10.1.10
EmbeliaribesBurm F.
11: Advancement in Encapsulation Techniques for Conservation of Climbers
11.1 Introduction
11.2 Advantages of Synthetic Seed Technology
11.3 Encapsulation Procedure
11.4 Studies Conducted So Far for Synthetic Seed Production of Woody Climbers
11.5 Concluding Remarks and Future Prospects
12: Secondary Metabolite Enhancement in Medicinal Climbers through the Intervention of Abiotic and Biotic Elicitors
12.1 Introduction
12.2 Classification of elicitors
12.3 Mechanism of Elicitation: the biochemical pathway
12.4 Elicitors: Effect and Outcome in Enhanced Alkaloid Production
13: Basic Principles behind Genetic Transformation in Plants
13.1 Introduction
13.2 Methods of Genetic Transformation
13.3 Gene Expression in Transgenic Plants
13.4 Engineering Plants for Useful Agronomic Traits
13.5 Future Implications of Plant Transformation
13.6 Conclusion
14: Genetic Transformation for Quality Improvement of Ornamental Climbers
14.1 Introduction
14.2 Type Study
14.3 Future Prospects
14.3 Conclusion
15: Advances in Molecular Approaches for the Integrative Genetic Transformation of Highly Important Climbers
15.1 Introduction
15.2 Future Prospects and Conclusion
16: Molecular Markers and their Applications in Plant Biotechnology
16.1 Molecular Markers: An Introduction
16.2 Restriction Fragment Length Polymorphism (RFLP)
16.3 Randomly Amplified Polymorphic DNA Markers (RAPD)
16.4 Amplified Fragment Length Polymorphism (AFLP)
16.5 Inter Simple Sequence
Repeats (ISSR)
16.6 Minisatellites, Variable Number of Tandem Repeats (VNTR)
16.7 Microsatellites or Simple Sequence Repeat (SSR)
16.8 Single-Strand Conformation Polymorphism (SSCP)16.9 Cleaved Amplified Polymorphic Sequence (CAPS)
16.11 Single Nucleotide Polymorphism (SNP)
16.12 Sequence-Specific Amplified Polymorphism (S-SAP)
16.13 DNA amplification fingerprinting (DAF)
16.14 Arbitrary primed polymerase chain reaction (AP-PCR)
16.15 Interretrotransposon Amplified Polymorphism (IRAP) and Retrotransposon- Microsatellite Amplified Polymorphism (REMAP)
16.16 Retrotransposon-Based Insertional Polymorphism (RBIP)
16.17 Applications of Molecular Markers In Plant Genome Analysis and Breeding
16.18 Conclusions
16.19 Future Prospects
17: Use of Molecular
Markers in Medicinal Climber
17.1 Introduction
17.2 Application of Molecular Markers in Genetic Studies of Some Important Medicinal Climbers
17.3 Conclusions
17.4 Future prospects
18: Selective Protocols for In Vitro Propagation of Threatened Medicinal Climbers
18.1 Introduction
18.2 Climber
18.3 Importance of Ornamental Plants
18.4 Plant Tissue Culture
18.5 Advancement in Production of Secondary Metabolites via Plant Tissue Culture
18.6 Conclusions
19: In Vitro Protocols for Ornamental Climbers
19.1 Introduction
19.2 Type Studies
19.3 Concluding Remarks and Future Prospects
20: Contribution of Biotechnology in the Enhancement of Secondary Metabolites in Selected Medicinal Climbers
20.1 Introduction
20.2 Biotechnological Tools
20.3 Medicinal Climbers and Use of Biotechnological
Tools
20.4 Future Prospects for Improvement of Important Bioactive Molecules of Medicinal Climbers
20.6 Conclusions
1: Climbers: Evolution and Diversification in Angiosperm
1.1 Introduction
1.2 Climbing habitat
1.3 Climbing and attachment mechanisms
1.4 Types of climber
1.5 General taxonomy of climbing plants
1.6 Some general properties of climbing plants
1.7 Role of climbers in ecosystem
1.8 Climber’s evolution
1.9 How long ago were climbing plants common in forested ecosystems?
2: Biodiversity Conservation with Special Reference to Medicinal Climbers: Present Scenario, Challenges, Strategies and Policies
2.1 Biodiversity: Natural Capital of The Earth
2.2 Types of Biodiversity (Diversity Indices)
2.3 Levels of Biodiversity
2.4 The Mega Diversity Regions
2.5 Hotspots of Biodiversity
2.6 Loss of Biodiversity
2.7 Threats to Biodiversity: Causes
2.8 IUCN Threat Categories
2.9 IUCN Threat Criteria
2.10 Market Scenario for Medicinal Plant
2.11 Loss of Biodiversity and Challenges
2.12 Climbing Phytodiversity in India
2.13 List of Climbers (Medicinal and Ornamental) Facing Threat
2.14 Global Strategy for Biodiversity Conservation
2.15 Strategies Used for Biodiversity Conservation
2.16 Policies for Biodiversity Conservation
3: Medicinal Importance of Climbers Used In Unani System of Medicine
3.1 Introduction
3.2 Ghonghchi
3.3 Zaravand Taweel
3.4 Zaravand Modahraj
3.5
Satavar
3.6 Asfanakh
3.7 Habb-ul-Qiliqil
3.8 Malkangani
3.9 Hadjod
3.10 Hirankhur
3.11 ftimun Vilayati
3.12 Baobarang/Barang Kabuli
3.13 Gurmaar Booti
3.14 Ushba Hindi
3.15 Turbud
3.16 Bandaal
3.17 Karela
3.18 Konch
3.19 Paan
3.20 Kabab Chini/Kababah
3.21 Filfil Seyah
3.22 Gilo
3.23 Maweez
4: Climber Plants: Medicinal Importance and Conservation Strategies
4.1 Introduction
4.2 History
4.3 Habitat and Distribution
4.4 Medicinal Application and Drug Discovery
4.5 Threats
4.6 Conservation Strategies
4.7 Role of Biotechnology on Their Conservation
4.8 Some Selected Climbing Plant Families
4.9 Conclusion
5: Plant Tissue Culture: Profile of Pioneers
5.1 Introduction
5.2 History of Plant Tissue Culture
5.3 Profile of Pioneers
6: Mircopropagation: A Boon for Conservation of Valuable Vines and Lianas
6.1 Introduction
6.2
Basic Plant Tissue Culture Techniques
6.3 Steps of Culturing Plant Tissue
6.4 Development of Nutrient Media
6.5 Advantages of Micropropagation Over Conventional Cultivation
6.6 Drawbacks of Plant Tissue Culture
6.7 Micropropagation Protocols For Some Threatened And Endangered Medicinal Lianas
6.8 Future Prospects
7: Somatic Embryogenesis: A Valuable Strategy for Phyto-Climbing Diversity Conservation
7.1 Introduction
7.2 Terminology
7.3 Zygotic embryogenesis versus somatic embryogenesis
7.4 Different phases of somatic embryogenesis
7.5 Factors affecting somatic embryogenesis
7.6 Important genes related to somatic embryogenesis
7.7 Applications of somatic
embryogenesis
7.8 Limitations of somatic embryogenesis
7.9 Types of somatic embryogenesis
7.10 Somatic embryogenesis in medicinal climbers
7.11 Future prospects
8: Biotechnological Perspectives towards Improvement of Decalepishamiltonii, Potential Applications of Its tubers And Bioactive Compounds of Nutraceuticals for Value Addition
8.1 Introduction
8.2 Ethnobotanical information
8.3 Production
8.4 Phytoconstituents of tubers
8.5 Biotechnological intervention for mass multiplication
8.6 Germination studies
8.7 In vitro propagation methods
8.8 In vitro production of flavour metabolite 2H4MB
8.9 Augmentation of flavour metabolite in tubers
8.10 Applications of tubers
8.11 Other applications
8.12 Insecticidal activity
8.13 Antimicrobial activity
8.14 Medicinal applications
8.15 Bioactivity studies in cell cultures and experimental animals
8.16
Future prospects
9: Tylophora indica (Burm. f.) Merrill: Medicinal Uses, Propagation and Replenishment
9.1 Introduction: Vernacular Names, Habitat, Habit, Taxonomy
9.2 Chemical Constituents
9.3 Medicinal Properties
9.4 Plant Tissue Culture Studies
10: In Vitro Strategies for the Conservation of Some Medicinal and Horticultural Climbers
10.1 Introduction
10.1.1 Cardiospermumhalicacabum Linn
10.1.2 BenincasahispidaCogn.
10.1.3. TylophoraindicaBurm. f. Merrill.
10.1.4 SarcostemmabrevistigmaWight.
10.1.5 CycleapeltataLam.
10.1.6 Caesalpiniabonduc (L.)Roxb.
10.1.7 Clitoriaternatea L.
10.1.8 HemidesmusindicusL. R. Br.
10.1.9 Momordicacharantia L.
10.1.10
Embeliaribes Burm F.
11: Advancement in Encapsulation Techniques for Conservation of Climbers
11.1 Introduction
11.2 Advantages of Synthetic Seed Technology
11.3 Encapsulation Procedure
11.4 Studies Conducted So Far for Synthetic Seed Production of Woody Climbers
11.5 Concluding Remarks and Future Prospects
12: Secondary Metabolite Enhancement in Medicinal Climbers through the Intervention of Abiotic and Biotic Elicitors
12.1 Introduction
12.2 Classification of elicitors
12.3 Mechanism of Elicitation: the biochemical pathway
12.4 Elicitors: Effect and Outcome in Enhanced Alkaloid Production
13: Basic Principles behind Genetic Transformation in Plants
13.1 Introduction
13.2 Methods of Genetic Transformation
13.3 Gene Expression in Transgenic Plants
13.4 Engineering Plants for Useful Agronomic Traits
13.5 Future Implications of Plant Transformation
13.6 Conclusion
14: Genetic Transformation for Quality Improvement of Ornamental Climbers
14.1 Introduction
14.2 Type Study
14.3 Future Prospects
14.3 Conclusion
15: Advances in Molecular Approaches for the Integrative Genetic Transformation of Highly Important Climbers
15.1 Introduction
15.2 Future Prospects and Conclusion
16: Molecular Markers and their Applications in Plant Biotechnology
16.1 Molecular Markers: An Introduction
16.2 Restriction Fragment Length Polymorphism (RFLP)
16.3 Randomly Amplified Polymorphic DNA Markers (RAPD)
16.4 Amplified Fragment Length Polymorphism (AFLP)
16.5 Inter Simple Sequence
Repeats (ISSR)
16.6 Minisatellites, Variable Number of Tandem Repeats (VNTR)
16.7 Microsatellites or Simple Sequence Repeat (SSR)
16.8 Single-Strand Conformation Polymorphism (SSCP)16.9 Cleaved Amplified Polymorphic Sequence (CAPS)
16.11 Single Nucleotide Polymorphism (SNP)
16.12 Sequence-Specific Amplified Polymorphism (S-SAP)
16.13 DNA amplification fingerprinting (DAF)
16.14 Arbitrary primed polymerase chain reaction (AP-PCR)
16.15 Interretrotransposon Amplified Polymorphism (IRAP) and Retrotransposon- Microsatellite Amplified Polymorphism (REMAP)
16.16 Retrotransposon-Based Insertional Polymorphism (RBIP)
16.17 Applications of Molecular Markers In Plant Genome Analysis and Breeding
16.18 Conclusions
16.19 Future Prospects
17: Use of Molecular
Markers in Medicinal Climber
17.1 Introduction
17.2 Application of Molecular Markers in Genetic Studies of Some Important Medicinal Climbers
17.3 Conclusions
17.4 Future prospects
18: Selective Protocols for In Vitro Propagation of Threatened Medicinal Climbers
18.1 Introduction
18.2 Climber
18.3 Importance of Ornamental Plants
18.4 Plant Tissue Culture
18.5 Advancement in Production of Secondary Metabolites via Plant Tissue Culture
18.6 Conclusions
19: In Vitro Protocols for Ornamental Climbers
19.1 Introduction
19.2 Type Studies
19.3 Concluding Remarks and Future Prospects
20: Contribution of Biotechnology in the Enhancement of Secondary Metabolites in Selected Medicinal Climbers
20.1 Introduction
20.2 Biotechnological Tools
20.3 Medicinal Climbers and Use of Biotechnological
Tools
20.4 Future Prospects for Improvement of Important Bioactive Molecules of Medicinal Climbers
20.6 Conclusions
1.1 Introduction
1.2 Climbing habitat
1.3 Climbing and attachment mechanisms
1.4 Types of climber
1.5 General taxonomy of climbing plants
1.6 Some general properties of climbing plants
1.7 Role of climbers in ecosystem
1.8 Climber’s evolution
1.9 How long ago were climbing plants common in forested ecosystems?
2: Biodiversity Conservation with Special Reference to Medicinal Climbers: Present Scenario, Challenges, Strategies and Policies
2.1 Biodiversity: Natural Capital of The Earth
2.2 Types of Biodiversity (Diversity Indices)
2.3 Levels of Biodiversity
2.4 The Mega Diversity Regions
2.5 Hotspots of Biodiversity
2.6 Loss of Biodiversity
2.7 Threats to Biodiversity: Causes
2.8 IUCN Threat Categories
2.9 IUCN Threat Criteria
2.10 Market Scenario for Medicinal Plant
2.11 Loss of Biodiversity and Challenges
2.12 Climbing Phytodiversity in India
2.13 List of Climbers (Medicinal and Ornamental) Facing Threat
2.14 Global Strategy for Biodiversity Conservation
2.15 Strategies Used for Biodiversity Conservation
2.16 Policies for Biodiversity Conservation
3: Medicinal Importance of Climbers Used In Unani System of Medicine
3.1 Introduction
3.2 Ghonghchi
3.3 Zaravand Taweel
3.4 Zaravand Modahraj
3.5
Satavar
3.6 Asfanakh
3.7 Habb-ul-Qiliqil
3.8 Malkangani
3.9 Hadjod
3.10 Hirankhur
3.11 ftimun Vilayati
3.12 Baobarang/Barang Kabuli
3.13 Gurmaar Booti
3.14 Ushba Hindi
3.15 Turbud
3.16 Bandaal
3.17 Karela
3.18 Konch
3.19 Paan
3.20 Kabab Chini/Kababah
3.21 Filfil Seyah
3.22 Gilo
3.23 Maweez
4: Climber Plants: Medicinal Importance and Conservation Strategies
4.1 Introduction
4.2 History
4.3 Habitat and Distribution
4.4 Medicinal Application and Drug Discovery
4.5 Threats
4.6 Conservation Strategies
4.7 Role of Biotechnology on Their Conservation
4.8 Some Selected Climbing Plant Families
4.9 Conclusion
5: Plant Tissue Culture: Profile of Pioneers
5.1 Introduction
5.2 History of Plant Tissue Culture
5.3 Profile of Pioneers
6: Mircopropagation: A Boon for Conservation of Valuable Vines and Lianas
6.1 Introduction
6.2
Basic Plant Tissue Culture Techniques
6.3 Steps of Culturing Plant Tissue
6.4 Development of Nutrient Media
6.5 Advantages of Micropropagation Over Conventional Cultivation
6.6 Drawbacks of Plant Tissue Culture
6.7 Micropropagation Protocols For Some Threatened And Endangered Medicinal Lianas
6.8 Future Prospects
7: Somatic Embryogenesis: A Valuable Strategy for Phyto-Climbing Diversity Conservation
7.1 Introduction
7.2 Terminology
7.3 Zygotic embryogenesis versus somatic embryogenesis
7.4 Different phases of somatic embryogenesis
7.5 Factors affecting somatic embryogenesis
7.6 Important genes related to somatic embryogenesis
7.7 Applications of somatic
embryogenesis
7.8 Limitations of somatic embryogenesis
7.9 Types of somatic embryogenesis
7.10 Somatic embryogenesis in medicinal climbers
7.11 Future prospects
8: Biotechnological Perspectives towards Improvement of Decalepishamiltonii, Potential Applications of Its tubers And Bioactive Compounds of Nutraceuticals for Value Addition
8.1 Introduction
8.2 Ethnobotanical information
8.3 Production
8.4 Phytoconstituents of tubers
8.5 Biotechnological intervention for mass multiplication
8.6 Germination studies
8.7 In vitro propagation methods
8.8 In vitro production of flavour metabolite 2H4MB
8.9 Augmentation of flavour metabolite in tubers
8.10 Applications of tubers
8.11 Other applications
8.12 Insecticidal activity
8.13 Antimicrobial activity
8.14 Medicinal applications
8.15 Bioactivity studies in cell cultures and experimental animals
8.16
Future prospects
9: Tylophora indica (Burm. f.) Merrill: Medicinal Uses, Propagation and Replenishment
9.1 Introduction: Vernacular Names, Habitat, Habit, Taxonomy
9.2 Chemical Constituents
9.3 Medicinal Properties
9.4 Plant Tissue Culture Studies
10: In Vitro Strategies for the Conservation of Some Medicinal and Horticultural Climbers
10.1 Introduction
10.1.1 Cardiospermumhalicacabum Linn
10.1.2 BenincasahispidaCogn.
10.1.3. TylophoraindicaBurm. f. Merrill.
10.1.4 SarcostemmabrevistigmaWight.
10.1.5 CycleapeltataLam.
10.1.6 Caesalpiniabonduc (L.)Roxb.
10.1.7 Clitoriaternatea L.
10.1.8 HemidesmusindicusL. R. Br.
10.1.9 Momordicacharantia L.
10.1.10
Embeliaribes Burm F.
11: Advancement in Encapsulation Techniques for Conservation of Climbers
11.1 Introduction
11.2 Advantages of Synthetic Seed Technology
11.3 Encapsulation Procedure
11.4 Studies Conducted So Far for Synthetic Seed Production of Woody Climbers
11.5 Concluding Remarks and Future Prospects
12: Secondary Metabolite Enhancement in Medicinal Climbers through the Intervention of Abiotic and Biotic Elicitors
12.1 Introduction
12.2 Classification of elicitors
12.3 Mechanism of Elicitation: the biochemical pathway
12.4 Elicitors: Effect and Outcome in Enhanced Alkaloid Production
13: Basic Principles behind Genetic Transformation in Plants
13.1 Introduction
13.2 Methods of Genetic Transformation
13.3 Gene Expression in Transgenic Plants
13.4 Engineering Plants for Useful Agronomic Traits
13.5 Future Implications of Plant Transformation
13.6 Conclusion
14: Genetic Transformation for Quality Improvement of Ornamental Climbers
14.1 Introduction
14.2 Type Study
14.3 Future Prospects
14.3 Conclusion
15: Advances in Molecular Approaches for the Integrative Genetic Transformation of Highly Important Climbers
15.1 Introduction
15.2 Future Prospects and Conclusion
16: Molecular Markers and their Applications in Plant Biotechnology
16.1 Molecular Markers: An Introduction
16.2 Restriction Fragment Length Polymorphism (RFLP)
16.3 Randomly Amplified Polymorphic DNA Markers (RAPD)
16.4 Amplified Fragment Length Polymorphism (AFLP)
16.5 Inter Simple Sequence
Repeats (ISSR)
16.6 Minisatellites, Variable Number of Tandem Repeats (VNTR)
16.7 Microsatellites or Simple Sequence Repeat (SSR)
16.8 Single-Strand Conformation Polymorphism (SSCP)16.9 Cleaved Amplified Polymorphic Sequence (CAPS)
16.11 Single Nucleotide Polymorphism (SNP)
16.12 Sequence-Specific Amplified Polymorphism (S-SAP)
16.13 DNA amplification fingerprinting (DAF)
16.14 Arbitrary primed polymerase chain reaction (AP-PCR)
16.15 Interretrotransposon Amplified Polymorphism (IRAP) and Retrotransposon- Microsatellite Amplified Polymorphism (REMAP)
16.16 Retrotransposon-Based Insertional Polymorphism (RBIP)
16.17 Applications of Molecular Markers In Plant Genome Analysis and Breeding
16.18 Conclusions
16.19 Future Prospects
17: Use of Molecular
Markers in Medicinal Climber
17.1 Introduction
17.2 Application of Molecular Markers in Genetic Studies of Some Important Medicinal Climbers
17.3 Conclusions
17.4 Future prospects
18: Selective Protocols for In Vitro Propagation of Threatened Medicinal Climbers
18.1 Introduction
18.2 Climber
18.3 Importance of Ornamental Plants
18.4 Plant Tissue Culture
18.5 Advancement in Production of Secondary Metabolites via Plant Tissue Culture
18.6 Conclusions
19: In Vitro Protocols for Ornamental Climbers
19.1 Introduction
19.2 Type Studies
19.3 Concluding Remarks and Future Prospects
20: Contribution of Biotechnology in the Enhancement of Secondary Metabolites in Selected Medicinal Climbers
20.1 Introduction
20.2 Biotechnological Tools
20.3 Medicinal Climbers and Use of Biotechnological
Tools
20.4 Future Prospects for Improvement of Important Bioactive Molecules of Medicinal Climbers
20.6 Conclusions
1: Climbers: Evolution and Diversification in Angiosperm
1.1 Introduction
1.2 Climbing habitat
1.3 Climbing and attachment mechanisms
1.4 Types of climber
1.5 General taxonomy of climbing plants
1.6 Some general properties of climbing plants
1.7 Role of climbers in ecosystem
1.8 Climber's evolution
1.9 How long ago were climbing plants common in forested ecosystems?
2: Biodiversity Conservation with Special Reference to Medicinal Climbers: Present Scenario, Challenges, Strategies and Policies
2.1 Biodiversity: Natural Capital of The Earth
2.2 Types of Biodiversity (Diversity Indices)
2.3 Levels of Biodiversity
2.4 The Mega Diversity Regions
2.5 Hotspots of Biodiversity
2.6 Loss of Biodiversity
2.7 Threats to Biodiversity: Causes
2.8 IUCN Threat Categories
2.9 IUCN Threat Criteria
2.10 Market Scenario for Medicinal Plant
2.11 Loss of Biodiversity and Challenges
2.12 Climbing Phytodiversity in India
2.13 List of Climbers (Medicinal and Ornamental) Facing Threat
2.14 Global Strategy for Biodiversity Conservation
2.15 Strategies Used for Biodiversity Conservation
2.16 Policies for Biodiversity Conservation
3: Medicinal Importance of Climbers Used In Unani System of Medicine
3.1 Introduction
3.2 Ghonghchi
3.3 Zaravand Taweel
3.4 Zaravand Modahraj
3.5
Satavar
3.6 Asfanakh
3.7 Habb-ul-Qiliqil
3.8 Malkangani
3.9 Hadjod
3.10 Hirankhur
3.11 ftimun Vilayati
3.12 Baobarang/Barang Kabuli
3.13 Gurmaar Booti
3.14 Ushba Hindi
3.15 Turbud
3.16 Bandaal
3.17 Karela
3.18 Konch
3.19 Paan
3.20 Kabab Chini/Kababah
3.21 Filfil Seyah
3.22 Gilo
3.23 Maweez
4: Climber Plants: Medicinal Importance and Conservation Strategies
4.1 Introduction
4.2 History
4.3 Habitat and Distribution
4.4 Medicinal Application and Drug Discovery
4.5 Threats
4.6 Conservation Strategies
4.7 Role of Biotechnology on Their Conservation
4.8 Some Selected Climbing Plant Families
4.9 Conclusion
5: Plant Tissue Culture: Profile of Pioneers
5.1 Introduction
5.2 History of Plant Tissue Culture
5.3 Profile of Pioneers
6: Mircopropagation: A Boon for Conservation of Valuable Vines and Lianas
6.1 Introduction
6.2
Basic Plant Tissue Culture Techniques
6.3 Steps of Culturing Plant Tissue
6.4 Development of Nutrient Media
6.5 Advantages of Micropropagation Over Conventional Cultivation
6.6 Drawbacks of Plant Tissue Culture
6.7 Micropropagation Protocols For Some Threatened And Endangered Medicinal Lianas
6.8 Future Prospects
7: Somatic Embryogenesis: A Valuable Strategy for Phyto-Climbing Diversity Conservation
7.1 Introduction
7.2 Terminology
7.3 Zygotic embryogenesis versus somatic embryogenesis
7.4 Different phases of somatic embryogenesis
7.5 Factors affecting somatic embryogenesis
7.6 Important genes related to somatic embryogenesis
7.7 Applications of somatic
embryogenesis
7.8 Limitations of somatic embryogenesis
7.9 Types of somatic embryogenesis
7.10 Somatic embryogenesis in medicinal climbers
7.11 Future prospects
8: Biotechnological Perspectives towards Improvement of Decalepishamiltonii, Potential Applications of Its tubers And Bioactive Compounds of Nutraceuticals for Value Addition
8.1 Introduction
8.2 Ethnobotanical information
8.3 Production
8.4 Phytoconstituents of tubers
8.5 Biotechnological intervention for mass multiplication
8.6 Germination studies
8.7 In vitro propagation methods
8.8 In vitro production of flavour metabolite 2H4MB
8.9 Augmentation of flavour metabolite in tubers
8.10 Applications of tubers
8.11 Other applications
8.12 Insecticidal activity
8.13 Antimicrobial activity
8.14 Medicinal applications
8.15 Bioactivity studies in cell cultures and experimental animals
8.16
Future prospects
9: Tylophora indica (Burm. f.) Merrill: Medicinal Uses, Propagation and Replenishment
9.1 Introduction: Vernacular Names, Habitat, Habit, Taxonomy
9.2 Chemical Constituents
9.3 Medicinal Properties
9.4 Plant Tissue Culture Studies
10: In Vitro Strategies for the Conservation of Some Medicinal and Horticultural Climbers
10.1 Introduction
10.1.1 Cardiospermumhalicacabum Linn
10.1.2 BenincasahispidaCogn.
10.1.3. TylophoraindicaBurm. f. Merrill.
10.1.4 SarcostemmabrevistigmaWight.
10.1.5 CycleapeltataLam.
10.1.6 Caesalpiniabonduc (L.)Roxb.
10.1.7 Clitoriaternatea L.
10.1.8 HemidesmusindicusL. R. Br.
10.1.9 Momordicacharantia L.
10.1.10
EmbeliaribesBurm F.
11: Advancement in Encapsulation Techniques for Conservation of Climbers
11.1 Introduction
11.2 Advantages of Synthetic Seed Technology
11.3 Encapsulation Procedure
11.4 Studies Conducted So Far for Synthetic Seed Production of Woody Climbers
11.5 Concluding Remarks and Future Prospects
12: Secondary Metabolite Enhancement in Medicinal Climbers through the Intervention of Abiotic and Biotic Elicitors
12.1 Introduction
12.2 Classification of elicitors
12.3 Mechanism of Elicitation: the biochemical pathway
12.4 Elicitors: Effect and Outcome in Enhanced Alkaloid Production
13: Basic Principles behind Genetic Transformation in Plants
13.1 Introduction
13.2 Methods of Genetic Transformation
13.3 Gene Expression in Transgenic Plants
13.4 Engineering Plants for Useful Agronomic Traits
13.5 Future Implications of Plant Transformation
13.6 Conclusion
14: Genetic Transformation for Quality Improvement of Ornamental Climbers
14.1 Introduction
14.2 Type Study
14.3 Future Prospects
14.3 Conclusion
15: Advances in Molecular Approaches for the Integrative Genetic Transformation of Highly Important Climbers
15.1 Introduction
15.2 Future Prospects and Conclusion
16: Molecular Markers and their Applications in Plant Biotechnology
16.1 Molecular Markers: An Introduction
16.2 Restriction Fragment Length Polymorphism (RFLP)
16.3 Randomly Amplified Polymorphic DNA Markers (RAPD)
16.4 Amplified Fragment Length Polymorphism (AFLP)
16.5 Inter Simple Sequence
Repeats (ISSR)
16.6 Minisatellites, Variable Number of Tandem Repeats (VNTR)
16.7 Microsatellites or Simple Sequence Repeat (SSR)
16.8 Single-Strand Conformation Polymorphism (SSCP)16.9 Cleaved Amplified Polymorphic Sequence (CAPS)
16.11 Single Nucleotide Polymorphism (SNP)
16.12 Sequence-Specific Amplified Polymorphism (S-SAP)
16.13 DNA amplification fingerprinting (DAF)
16.14 Arbitrary primed polymerase chain reaction (AP-PCR)
16.15 Interretrotransposon Amplified Polymorphism (IRAP) and Retrotransposon- Microsatellite Amplified Polymorphism (REMAP)
16.16 Retrotransposon-Based Insertional Polymorphism (RBIP)
16.17 Applications of Molecular Markers In Plant Genome Analysis and Breeding
16.18 Conclusions
16.19 Future Prospects
17: Use of Molecular
Markers in Medicinal Climber
17.1 Introduction
17.2 Application of Molecular Markers in Genetic Studies of Some Important Medicinal Climbers
17.3 Conclusions
17.4 Future prospects
18: Selective Protocols for In Vitro Propagation of Threatened Medicinal Climbers
18.1 Introduction
18.2 Climber
18.3 Importance of Ornamental Plants
18.4 Plant Tissue Culture
18.5 Advancement in Production of Secondary Metabolites via Plant Tissue Culture
18.6 Conclusions
19: In Vitro Protocols for Ornamental Climbers
19.1 Introduction
19.2 Type Studies
19.3 Concluding Remarks and Future Prospects
20: Contribution of Biotechnology in the Enhancement of Secondary Metabolites in Selected Medicinal Climbers
20.1 Introduction
20.2 Biotechnological Tools
20.3 Medicinal Climbers and Use of Biotechnological
Tools
20.4 Future Prospects for Improvement of Important Bioactive Molecules of Medicinal Climbers
20.6 Conclusions
1.1 Introduction
1.2 Climbing habitat
1.3 Climbing and attachment mechanisms
1.4 Types of climber
1.5 General taxonomy of climbing plants
1.6 Some general properties of climbing plants
1.7 Role of climbers in ecosystem
1.8 Climber's evolution
1.9 How long ago were climbing plants common in forested ecosystems?
2: Biodiversity Conservation with Special Reference to Medicinal Climbers: Present Scenario, Challenges, Strategies and Policies
2.1 Biodiversity: Natural Capital of The Earth
2.2 Types of Biodiversity (Diversity Indices)
2.3 Levels of Biodiversity
2.4 The Mega Diversity Regions
2.5 Hotspots of Biodiversity
2.6 Loss of Biodiversity
2.7 Threats to Biodiversity: Causes
2.8 IUCN Threat Categories
2.9 IUCN Threat Criteria
2.10 Market Scenario for Medicinal Plant
2.11 Loss of Biodiversity and Challenges
2.12 Climbing Phytodiversity in India
2.13 List of Climbers (Medicinal and Ornamental) Facing Threat
2.14 Global Strategy for Biodiversity Conservation
2.15 Strategies Used for Biodiversity Conservation
2.16 Policies for Biodiversity Conservation
3: Medicinal Importance of Climbers Used In Unani System of Medicine
3.1 Introduction
3.2 Ghonghchi
3.3 Zaravand Taweel
3.4 Zaravand Modahraj
3.5
Satavar
3.6 Asfanakh
3.7 Habb-ul-Qiliqil
3.8 Malkangani
3.9 Hadjod
3.10 Hirankhur
3.11 ftimun Vilayati
3.12 Baobarang/Barang Kabuli
3.13 Gurmaar Booti
3.14 Ushba Hindi
3.15 Turbud
3.16 Bandaal
3.17 Karela
3.18 Konch
3.19 Paan
3.20 Kabab Chini/Kababah
3.21 Filfil Seyah
3.22 Gilo
3.23 Maweez
4: Climber Plants: Medicinal Importance and Conservation Strategies
4.1 Introduction
4.2 History
4.3 Habitat and Distribution
4.4 Medicinal Application and Drug Discovery
4.5 Threats
4.6 Conservation Strategies
4.7 Role of Biotechnology on Their Conservation
4.8 Some Selected Climbing Plant Families
4.9 Conclusion
5: Plant Tissue Culture: Profile of Pioneers
5.1 Introduction
5.2 History of Plant Tissue Culture
5.3 Profile of Pioneers
6: Mircopropagation: A Boon for Conservation of Valuable Vines and Lianas
6.1 Introduction
6.2
Basic Plant Tissue Culture Techniques
6.3 Steps of Culturing Plant Tissue
6.4 Development of Nutrient Media
6.5 Advantages of Micropropagation Over Conventional Cultivation
6.6 Drawbacks of Plant Tissue Culture
6.7 Micropropagation Protocols For Some Threatened And Endangered Medicinal Lianas
6.8 Future Prospects
7: Somatic Embryogenesis: A Valuable Strategy for Phyto-Climbing Diversity Conservation
7.1 Introduction
7.2 Terminology
7.3 Zygotic embryogenesis versus somatic embryogenesis
7.4 Different phases of somatic embryogenesis
7.5 Factors affecting somatic embryogenesis
7.6 Important genes related to somatic embryogenesis
7.7 Applications of somatic
embryogenesis
7.8 Limitations of somatic embryogenesis
7.9 Types of somatic embryogenesis
7.10 Somatic embryogenesis in medicinal climbers
7.11 Future prospects
8: Biotechnological Perspectives towards Improvement of Decalepishamiltonii, Potential Applications of Its tubers And Bioactive Compounds of Nutraceuticals for Value Addition
8.1 Introduction
8.2 Ethnobotanical information
8.3 Production
8.4 Phytoconstituents of tubers
8.5 Biotechnological intervention for mass multiplication
8.6 Germination studies
8.7 In vitro propagation methods
8.8 In vitro production of flavour metabolite 2H4MB
8.9 Augmentation of flavour metabolite in tubers
8.10 Applications of tubers
8.11 Other applications
8.12 Insecticidal activity
8.13 Antimicrobial activity
8.14 Medicinal applications
8.15 Bioactivity studies in cell cultures and experimental animals
8.16
Future prospects
9: Tylophora indica (Burm. f.) Merrill: Medicinal Uses, Propagation and Replenishment
9.1 Introduction: Vernacular Names, Habitat, Habit, Taxonomy
9.2 Chemical Constituents
9.3 Medicinal Properties
9.4 Plant Tissue Culture Studies
10: In Vitro Strategies for the Conservation of Some Medicinal and Horticultural Climbers
10.1 Introduction
10.1.1 Cardiospermumhalicacabum Linn
10.1.2 BenincasahispidaCogn.
10.1.3. TylophoraindicaBurm. f. Merrill.
10.1.4 SarcostemmabrevistigmaWight.
10.1.5 CycleapeltataLam.
10.1.6 Caesalpiniabonduc (L.)Roxb.
10.1.7 Clitoriaternatea L.
10.1.8 HemidesmusindicusL. R. Br.
10.1.9 Momordicacharantia L.
10.1.10
EmbeliaribesBurm F.
11: Advancement in Encapsulation Techniques for Conservation of Climbers
11.1 Introduction
11.2 Advantages of Synthetic Seed Technology
11.3 Encapsulation Procedure
11.4 Studies Conducted So Far for Synthetic Seed Production of Woody Climbers
11.5 Concluding Remarks and Future Prospects
12: Secondary Metabolite Enhancement in Medicinal Climbers through the Intervention of Abiotic and Biotic Elicitors
12.1 Introduction
12.2 Classification of elicitors
12.3 Mechanism of Elicitation: the biochemical pathway
12.4 Elicitors: Effect and Outcome in Enhanced Alkaloid Production
13: Basic Principles behind Genetic Transformation in Plants
13.1 Introduction
13.2 Methods of Genetic Transformation
13.3 Gene Expression in Transgenic Plants
13.4 Engineering Plants for Useful Agronomic Traits
13.5 Future Implications of Plant Transformation
13.6 Conclusion
14: Genetic Transformation for Quality Improvement of Ornamental Climbers
14.1 Introduction
14.2 Type Study
14.3 Future Prospects
14.3 Conclusion
15: Advances in Molecular Approaches for the Integrative Genetic Transformation of Highly Important Climbers
15.1 Introduction
15.2 Future Prospects and Conclusion
16: Molecular Markers and their Applications in Plant Biotechnology
16.1 Molecular Markers: An Introduction
16.2 Restriction Fragment Length Polymorphism (RFLP)
16.3 Randomly Amplified Polymorphic DNA Markers (RAPD)
16.4 Amplified Fragment Length Polymorphism (AFLP)
16.5 Inter Simple Sequence
Repeats (ISSR)
16.6 Minisatellites, Variable Number of Tandem Repeats (VNTR)
16.7 Microsatellites or Simple Sequence Repeat (SSR)
16.8 Single-Strand Conformation Polymorphism (SSCP)16.9 Cleaved Amplified Polymorphic Sequence (CAPS)
16.11 Single Nucleotide Polymorphism (SNP)
16.12 Sequence-Specific Amplified Polymorphism (S-SAP)
16.13 DNA amplification fingerprinting (DAF)
16.14 Arbitrary primed polymerase chain reaction (AP-PCR)
16.15 Interretrotransposon Amplified Polymorphism (IRAP) and Retrotransposon- Microsatellite Amplified Polymorphism (REMAP)
16.16 Retrotransposon-Based Insertional Polymorphism (RBIP)
16.17 Applications of Molecular Markers In Plant Genome Analysis and Breeding
16.18 Conclusions
16.19 Future Prospects
17: Use of Molecular
Markers in Medicinal Climber
17.1 Introduction
17.2 Application of Molecular Markers in Genetic Studies of Some Important Medicinal Climbers
17.3 Conclusions
17.4 Future prospects
18: Selective Protocols for In Vitro Propagation of Threatened Medicinal Climbers
18.1 Introduction
18.2 Climber
18.3 Importance of Ornamental Plants
18.4 Plant Tissue Culture
18.5 Advancement in Production of Secondary Metabolites via Plant Tissue Culture
18.6 Conclusions
19: In Vitro Protocols for Ornamental Climbers
19.1 Introduction
19.2 Type Studies
19.3 Concluding Remarks and Future Prospects
20: Contribution of Biotechnology in the Enhancement of Secondary Metabolites in Selected Medicinal Climbers
20.1 Introduction
20.2 Biotechnological Tools
20.3 Medicinal Climbers and Use of Biotechnological
Tools
20.4 Future Prospects for Improvement of Important Bioactive Molecules of Medicinal Climbers
20.6 Conclusions