Advancement in Crop Improvement Techniques
portes grátis
Advancement in Crop Improvement Techniques
Tuteja, Renu; Tuteja, Narendra; Saifi, Shabnam; Passricha, Nishat
Elsevier Science Publishing Co Inc
06/2020
442
Mole
Inglês
9780128185810
15 a 20 dias
1200
Descrição não disponível.
1. Combination of DNA markers and eQTL information for introgression of multiple salt tolerance traits in rice 2. The scope of transformation and genome editing for quantitative trait improvements in rice 3. Tweaking MicroRNA mediated gene regulation for crop improvement 4. Modern tools used in improving rice production 5. Genome Editing in the context of Seed research: How these novel biotechnology tools can change the future face of agricultural crop development 6. Molecular aspects of seed priming as means of progress in crop improvement 7. Plant Histidine kinases: targets for crop improvement 8. Recent developments on improving rice yield under drought using genomic technologies 9. Advances in genomics and molecular breeding for legume improvement 10. Advancement in plant disease control strategies 11. How Crisp is CRISPR? CRISPR-Cas mediated crop improvement with special focus on nutritional traits 12. Targeted genome editing using Crisp-Cas9: applications in fruit quality and stress resilience 13. Systems biology of crop improvement: drought tolerance as a model to integrate molecular biology, physiology, and breeding 14. The microbial symbionts: Potential for the crop improvement in changing environments 15. Reactive oxygen species (ROS) management in engineered plants for abiotic stress tolerance 16. Metabolomics assisted crop improvement 17. Improving medicinal crops through phytochemical perspective 18. Approaches for Conservation and Improvement of Himalayan Plant Genetic Resources 19. Molecular Markers as tools in Date-palm Improvement 20. Transgenic approach in crops improvement 21. In-plant transformation: a smart way of crops improvement 22. Fibre crop, Jute improvemnet by using genomics and genetic engineering 23. Harnessing protein post-translational modifications for plant improvement
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Abiotic stress; Acetylation; Agriculture; Agrobacterium; Antioxidant response; Antioxidants; Arabidopsis; Arbuscular mycorrhiza; Big data; Bioinformatics tools; Biotechnology; Biotic stress; Breeding; Brinjal; Bt jute; C4 photosynthesis; Cotton; CRISPR/Cas9; CRISPR-Cas technology; CRISPR-Cas9; Crop improvement; Crops; Date palm; Dioecious; DNA repair; Drought; Drought physiology; eQTL; Fiber crop; Food security; Fruit crops; Fruit quality; Fungus resistant; GBS; Gene editing; Genes; Genetic engineering; Genome editing; Genome editing tools; Genome-edited crops; Genome-wide analysis; Genome-wide association studies; GM crops; Grain legumes; Grain yield; GWAS; Herbicide tolerant; Histidine kinases; In planta; Insect resistant; Jute; Jute genome; KASP; Longevity; Machine learning; MAP kinase; Metabolic biomarkers; Metabolic engineering; Metabolic genome-wide association studies; Metabolic mutants; Metabolic profiling; Metabolic QTLs; Metabolomics; Methylation; Microbial symbionts; miRNAs; Molecular breeding; Molecular marker; Molecular markers; N-Glycosylation; N-Myristoylation; Nutrition; O-Glycosylation; Omics; Participatory breeding; Phoenix dactylifera L.; Phosphorylation; Phytoremediation; Piriformospora indica; Plant development; Plant transformation; Plants; Policies; Posttranslational modification; Pregerminative metabolism seed germination; Prenylation; Priming; Pyramiding; QTL; QTLs; Quantitative trait loci; Reactive oxygen species; Reactive oxygen species (ROS); Rice; Rice improvement; SCAR; Seeds; Serendipita indica; Sex-identification; Short guide-RNA; S-Palmitoylation; Stress; Sumoylation; Trait; Transformation; Transformation efficiency; Transgenic; Trichoderma; Ubiquitination
1. Combination of DNA markers and eQTL information for introgression of multiple salt tolerance traits in rice 2. The scope of transformation and genome editing for quantitative trait improvements in rice 3. Tweaking MicroRNA mediated gene regulation for crop improvement 4. Modern tools used in improving rice production 5. Genome Editing in the context of Seed research: How these novel biotechnology tools can change the future face of agricultural crop development 6. Molecular aspects of seed priming as means of progress in crop improvement 7. Plant Histidine kinases: targets for crop improvement 8. Recent developments on improving rice yield under drought using genomic technologies 9. Advances in genomics and molecular breeding for legume improvement 10. Advancement in plant disease control strategies 11. How Crisp is CRISPR? CRISPR-Cas mediated crop improvement with special focus on nutritional traits 12. Targeted genome editing using Crisp-Cas9: applications in fruit quality and stress resilience 13. Systems biology of crop improvement: drought tolerance as a model to integrate molecular biology, physiology, and breeding 14. The microbial symbionts: Potential for the crop improvement in changing environments 15. Reactive oxygen species (ROS) management in engineered plants for abiotic stress tolerance 16. Metabolomics assisted crop improvement 17. Improving medicinal crops through phytochemical perspective 18. Approaches for Conservation and Improvement of Himalayan Plant Genetic Resources 19. Molecular Markers as tools in Date-palm Improvement 20. Transgenic approach in crops improvement 21. In-plant transformation: a smart way of crops improvement 22. Fibre crop, Jute improvemnet by using genomics and genetic engineering 23. Harnessing protein post-translational modifications for plant improvement
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Abiotic stress; Acetylation; Agriculture; Agrobacterium; Antioxidant response; Antioxidants; Arabidopsis; Arbuscular mycorrhiza; Big data; Bioinformatics tools; Biotechnology; Biotic stress; Breeding; Brinjal; Bt jute; C4 photosynthesis; Cotton; CRISPR/Cas9; CRISPR-Cas technology; CRISPR-Cas9; Crop improvement; Crops; Date palm; Dioecious; DNA repair; Drought; Drought physiology; eQTL; Fiber crop; Food security; Fruit crops; Fruit quality; Fungus resistant; GBS; Gene editing; Genes; Genetic engineering; Genome editing; Genome editing tools; Genome-edited crops; Genome-wide analysis; Genome-wide association studies; GM crops; Grain legumes; Grain yield; GWAS; Herbicide tolerant; Histidine kinases; In planta; Insect resistant; Jute; Jute genome; KASP; Longevity; Machine learning; MAP kinase; Metabolic biomarkers; Metabolic engineering; Metabolic genome-wide association studies; Metabolic mutants; Metabolic profiling; Metabolic QTLs; Metabolomics; Methylation; Microbial symbionts; miRNAs; Molecular breeding; Molecular marker; Molecular markers; N-Glycosylation; N-Myristoylation; Nutrition; O-Glycosylation; Omics; Participatory breeding; Phoenix dactylifera L.; Phosphorylation; Phytoremediation; Piriformospora indica; Plant development; Plant transformation; Plants; Policies; Posttranslational modification; Pregerminative metabolism seed germination; Prenylation; Priming; Pyramiding; QTL; QTLs; Quantitative trait loci; Reactive oxygen species; Reactive oxygen species (ROS); Rice; Rice improvement; SCAR; Seeds; Serendipita indica; Sex-identification; Short guide-RNA; S-Palmitoylation; Stress; Sumoylation; Trait; Transformation; Transformation efficiency; Transgenic; Trichoderma; Ubiquitination
