Biochemistry, Genetics and Molecular Biology
Transcriptome
100%
Anabolism
100%
Genetic Manipulation
100%
Metabolome
100%
Metabolite
66%
Ornithine
66%
Populus
66%
Metabolic Engineering
33%
Metabolic Pathway
33%
Genetics
33%
Evolutionary Adaptation
33%
Cell Culture
33%
Transgenics
33%
Genome Editing
33%
Metabolomics
33%
Transcriptomics
33%
Transcription
33%
Growth, Development and Aging
33%
Microarrays
33%
Transgene
33%
Upregulation
33%
Membrane Transport
33%
Gas Chromatography Mass Spectrometry
33%
Ornithine Decarboxylase
33%
Carbon Fixation
33%
Nitrogen Metabolism
33%
Transgenic Plant
33%
Biomass Production
33%
Nitrogen Assimilation
33%
Osmoregulation
33%
Plant Cell Culture
33%
Populus nigra
33%
Keyphrases
Transcriptome
100%
Metabolomics
100%
Genetic Manipulation
100%
Putrescine
100%
Polyamines
33%
Ornithine
22%
Metabolic
22%
Poplar
22%
Glutamate
11%
High Concentration
11%
Cell Culture
11%
Genome Analysis
11%
Nitrogen Metabolism
11%
Genome Editing
11%
Metabolic Engineering
11%
Microarray
11%
Biofuel
11%
Small Changes
11%
Ornithine Decarboxylase
11%
Spermidine
11%
Cellular Response
11%
Organic Acids
11%
Gas Chromatography-mass Spectrometry
11%
Genetic Perturbation
11%
Biosynthetic Pathway
11%
Growth Development
11%
Transcriptome Analysis
11%
Environmental Adaptation
11%
Spermine
11%
Membrane Transport
11%
Carbohydrates
11%
Nutritional Value
11%
Transgenic Cells
11%
Biomass Production
11%
Transcription-translation
11%
Genetic Gene
11%
Transgenic Plants
11%
Increased Nitrogen
11%
Nitrogen Use Efficiency
11%
Cell Wall Metabolism
11%
Plant Development
11%
Nitrogen Use
11%
Organic Nitrogen
11%
Nitrogen Assimilation
11%
Carbon Assimilation
11%
Osmoregulation
11%
Carbon Use
11%
Non-food
11%
Food-feed
11%
Sampling Date
11%
Growth Stress
11%
Feed Application
11%
Plant Stress Response
11%
Plant Growth Response
11%
Nitrogen-containing Metabolites
11%
Glutamate Production
11%
Populus Nigra
11%
Shock Stress
11%
Plant Cell Culture
11%
Distant Effect
11%