Plant Metallomics and Functional Omics: A System-Wide Perspective
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- Artikel-Nr.: 10389856
Beschreibung
Section: Importance of metals and heavy metals on crop productivity and plant biosystems
1 Metals, Crops and Agricultural Productivity: Impact of metals on crop loss
2 Metals and Crop productivity: Physiological and Genomics Interventions in Crops
3 Arsenic induced physiological changes in plants with emphasis on model plants
4 Cadmium (Cd): An emerging regulatory metal with critical role in cell signaling and plant morphogenesis
5 Role of transition metals as end point regulators in plant biology
6 Heavy Metal and their critical roles as transporters in plant biosystems
7 Heavy Metal toxicity: Physiological implications of metal toxicity in plants
8 Heavy metal toxicity and plant productivity: Role of metal scavengers Section: Genomics, Transcriptomics, Metabolomics: System Biology based approaches to understand metal tolerance
9 Genomics and Physiological Evidence of heavy metal tolerance in plants
10 Redox mechanism and plant tolerance: Genes and regulatory networks
11 Transcripomics based critical role of metals in photosynthetic state transitions
12 Transcriptomics and metals flux: Gene based plant physiologcal adaptation and tolerance
13 Transcriptomics approaches to understand metal signalling and plant productivity
14 System biology of metal tolerance in plants: An integrated view of genomics, transcriptomics, metabolomics and phenomics
15 microRNAs and metal tolerance: Role of micro-transcriptomics in metal tolerance
16 Evolutionary significance of the acquired metal tolerance through phylogenetic imprinting in plants
1 Metals, Crops and Agricultural Productivity: Impact of metals on crop loss
2 Metals and Crop productivity: Physiological and Genomics Interventions in Crops
3 Arsenic induced physiological changes in plants with emphasis on model plants
4 Cadmium (Cd): An emerging regulatory metal with critical role in cell signaling and plant morphogenesis
5 Role of transition metals as end point regulators in plant biology
6 Heavy Metal and their critical roles as transporters in plant biosystems
7 Heavy Metal toxicity: Physiological implications of metal toxicity in plants
8 Heavy metal toxicity and plant productivity: Role of metal scavengers Section: Genomics, Transcriptomics, Metabolomics: System Biology based approaches to understand metal tolerance
9 Genomics and Physiological Evidence of heavy metal tolerance in plants
10 Redox mechanism and plant tolerance: Genes and regulatory networks
11 Transcripomics based critical role of metals in photosynthetic state transitions
12 Transcriptomics and metals flux: Gene based plant physiologcal adaptation and tolerance
13 Transcriptomics approaches to understand metal signalling and plant productivity
14 System biology of metal tolerance in plants: An integrated view of genomics, transcriptomics, metabolomics and phenomics
15 microRNAs and metal tolerance: Role of micro-transcriptomics in metal tolerance
16 Evolutionary significance of the acquired metal tolerance through phylogenetic imprinting in plants
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