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E-raamat: Sustainable Agriculture: Advances in Plant Metabolome and Microbiome

(Assistant Professor and Head of the Department of Environmental Science, Govt. SAM Degree College - Budgam, India), (Assistant Professor, Department of Environmental Science, Cluster University Srinagar Jammu and Kashmir, India)
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 21-Nov-2019
  • Kirjastus: Academic Press Inc
  • Keel: eng
  • ISBN-13: 9780128173749
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Sustainable Agriculture: Advances in Plant Metabolome and MicrobiomeSuurem pilt
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 21-Nov-2019
  • Kirjastus: Academic Press Inc
  • Keel: eng
  • ISBN-13: 9780128173749
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Sustainable Agriculture: Advances in Plant Metabolome and Microbiome focuses on the advancement of basic and applied research related to plant-microbe interaction and their implementation in progressive agricultural sustainability. The book also highlights the developing area of bioinformatics tools for the interpretation of metabolome, the integration of statistical and bioinformatics tools to manage huge generating data, metabolite profiling, and key signaling-driven substances, along with a section on the role of key biosynthetic pathways. Focused on selecting positive and effective interactive core-microbiome which will be adaptive and sustainable, this book will help researchers further improve the quality and productivity of crops through sustainable agriculture.

  • Details the two-way interactive approach to both plants and microbes
  • Describes setting up core and functional microbiomes
  • Presents the relationship of metabolomics and biocontrol
Preface xi
1 Metabolomics for crop improvement: Quality and productivity
1(42)
1.1 Introduction
1(1)
1.2 Metabolome studies: Challenges and perspectives
2(1)
1.3 Analytical challenges in plant metabolomics
3(5)
1.4 Metabolic perspectives
8(1)
1.5 Metabolomics and crop improvement
9(10)
1.6 Metabolome and its networking
19(2)
1.7 Model building algorithm---Tissue-specific metabolic network
21(1)
1.8 Metabolism, metabolomics, and expression moderated inactivation of the gene (GIM3E)---Network-specific model of expulsion
21(1)
1.9 Integration of kinetic and stoichiometry---Modeling
22(2)
1.10 Genome sequencing model for metabolite networking
24(2)
1.11 Plant bioactive metabolites and soil microbial community
26(3)
1.12 Perspective, conclusion, and future
29(1)
References
30(12)
Further reading
42(1)
2 Core microbiomes: Characterization and identification
43(42)
2.1 Rhizomicrobiome: Role and functions
43(5)
2.2 Core microbiome for agriculture: A taxonomic and functional aspect
48(6)
2.3 Agricultural system relevance and status: Crop yield and quality
54(3)
2.4 Conservative approaches to core plant microbiomes
57(5)
2.5 Microbiome and plant health
62(5)
2.6 Conclusion and future perspective
67(1)
References
68(14)
Further reading
82(3)
3 Molecular mechanism of plant-microbe interactions
85(52)
3.1 Introduction
85(1)
3.2 Emerging approaches for enhancing microbe-microbe and microbe-plant interaction
85(5)
3.3 Modulation of microbiome by plant metabolites
90(7)
3.4 Microbiome of plants: Biotic and abiotic stress resilience
97(7)
3.5 Assessment of plant metabolome flux and root microbiome in agriculture
104(2)
3.6 Nature of response with co-inoculation of microbes for agricultural production
106(4)
3.7 Relevance of omic approaches toward plant microbe interaction: Plant health
110(3)
3.8 Conclusion and future perspectives
113(1)
References
114(16)
Further reading
130(7)
4 Signalome: Communication between crops and microbiomes
137(44)
4.1 Signaling in the microbiome
137(3)
4.2 Microbial signal: Crop growth and growth
140(3)
4.3 Bacterial quorum sensing
143(5)
4.4 Concept of signal molecules
148(12)
4.5 Expression of protective genes under abiotic stress in plant crops
160(4)
4.6 Conclusion and future perspectives
164(1)
References
164(14)
Further reading
178(3)
5 Metabolomics and microbial biocontrol agents
181(50)
5.1 Plant metabolites and microbiome health
181(5)
5.2 Pseudomonas and Bacilli as biocontrol agents
186(4)
5.3 Antimicrobial peptides for disease control
190(4)
5.4 Disease-suppressive soils (DSS) and their microbiome
194(5)
5.5 Antimicrobial traits within plant associated microbes: biodiversity of genes
199(10)
References
209(16)
Further reading
225(6)
6 Sustainable engineering technologies to promote activities of beneficial microbiome
231(46)
6.1 Analytical technologies for studying metabolic flux
231(2)
6.2 Microbial wealth mining
233(16)
6.3 Studies of microbes in metabolic engineering: Microbial cell factories
249(2)
6.4 Validation and production of beneficial soil microbes on a large scale
251(2)
6.5 Effects of biomolecules (proteins and peptides) on plant growth and development
253(4)
6.6 Summary and perspectives for the future
257(1)
References
257(16)
Further reading
273(4)
7 Bioinformatics and emerging statistical tools for plant metabolome and microbiome
277(48)
7.1 Metabolic pathway conception and scrutiny plant-microbe metabolome
277(4)
7.2 Biomarker identification: Software and statistical tools in metabolite profiles
281(2)
7.3 Computing tools available to predict protein from effectors/other plant disease control substances
283(9)
7.4 Integrating approaches for new metabolomics applications in sustainable agriculture
292(5)
7.5 Approaches to integrate genotype information with metabolite data to improve crop production
297(6)
7.6 Conclusion and future perspectives
303(1)
References
303(15)
Further reading
318(7)
Index 325
Javid A Parray is currently teaching at the Department of Environmental Science, GDC Eidgah, affiliated to Cluster University, Srinagar. His research interests include ecological and agricultural microbiology, climate change, microbial biotechnology, and environmental microbiomes. He has also done his Post Doctorate Research from the University of Kashmir. Dr Parray was also awarded a Fast Track Young Scientist Project by SERB DST, GoI New Delhi. Dr Javid was also awarded as Emerging scientist year Gold Medal” for the year 2018 by Indian Academy of Environmental Science. Dr Parray is the course coordinator for the UG- Programmes for CeC-MOOCS Swayam in Environmental Science. Dr Parray is an expert review member in the field of environmental science in the CSTT, Ministry of Education, GoI New Delhi.

Assistant professor in Department of Environmental Science Cluster University Srinagar, Jammu and Kashmir, India, Dr. Shameems experience includes Project associate in DBT Sanctioned project entitled spawn production for the entrepreneurs of Kashmir Valley” at CORD, University of Kashmir.
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