This book will cover several topics to elaborate how proteomics may contribute in our understanding of mechanisms involved in stress adaptation. The knowledge being accumulated by a wide range of proteomics technologies may eventually be utilized in breeding programs to enhance stress tolerance. This book presents comprehensive reviews about responses of crop and farm animals to environmental stresses. Challenges related to stress phenotyping and integration of proteomics and other omics data have also been addressed.
This book will cover several topics to elaborate how proteomics may contribute in our understanding of mechanisms involved in stress adaptation. The knowledge being accumulated by a wide range of proteomics technologies may eventually be utilized in breeding programs to enhance stress tolerance. This book presents comprehensive reviews about responses of crop and farm animals to environmental stresses. Challenges related to stress phenotyping and integration of proteomics and other omics data have also been addressed.
Dr. Ghasem Hosseini Salekdeh received his PhD from International Rice Research Institute (IRRI). He is currently Associate Professor at Agricultural Biotechnology Research Institute of Iran. His research focuses on discovering novel pathways and genes using proteomics and genomics approaches. He also works on recombinant protein expression technologies.
Inhaltsangabe
1. Well-designed experiments make proteomic studies on stressed plants meaningful.- 2. Cereal Root Proteomics for Complementing the Mechanistic Understanding of Plant Abiotic Stress Tolerance.- 3. A proteomic view of the cereal and vegetable crop response to salinity stress.- 4. Proteomics of Flooding-Stressed Plants.- 5. Proteomic analysis of crop plants under low temperature: a review of cold responsive proteins.- 6. How proteomics contributes to our understanding of drought tolerance?.- 7. The impact of heat stress on the proteome of crop species.- 8. Proteomics approach for identification of nutrient deficiency related proteins in crop plants.- 9. Plant response to bacterial pathogens: A proteomics view.- 10. Plant fungus interaction proteomics: an update.- 11. Insight into physiological, molecular, and proteomic changes associated with phytoplasma infection in crop plants.- 12. Insect pest proteomics and its potential application in pest control management.- 13. Proteomic Researchon Honeybee Diseases.- 14 Application of Proteomic Biomarkers in Livestock Disease Management.
1. Well-designed experiments make proteomic studies on stressed plants meaningful.- 2. Cereal Root Proteomics for Complementing the Mechanistic Understanding of Plant Abiotic Stress Tolerance.- 3. A proteomic view of the cereal and vegetable crop response to salinity stress.- 4. Proteomics of Flooding-Stressed Plants.- 5. Proteomic analysis of crop plants under low temperature: a review of cold responsive proteins.- 6. How proteomics contributes to our understanding of drought tolerance?.- 7. The impact of heat stress on the proteome of crop species.- 8. Proteomics approach for identification of nutrient deficiency related proteins in crop plants.- 9. Plant response to bacterial pathogens: A proteomics view.- 10. Plant fungus interaction proteomics: an update.- 11. Insight into physiological, molecular, and proteomic changes associated with phytoplasma infection in crop plants.- 12. Insect pest proteomics and its potential application in pest control management.- 13. Proteomic Researchon Honeybee Diseases.- 14 Application of Proteomic Biomarkers in Livestock Disease Management.
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