Plant Responses to Hypoxia 

<br/><br/><br/>English[eng] 
<br/><br/><label>Subjects--Topical Terms: </label><br/>ethylene||Ein2||germination||RbohD||submergence||hypoxia||post-submergence recovery||legumes||plant water relations||shoot to root ratio||Lotus japonicus||leaf greenness||leaf desiccation||stomatal conductance||aerenchyma||auxin||rice (Oryza sativa)||root||waterlogging||leaf gas exchange||waterlogging tolerance||organic compound||plant growth||Physalis peruviana L.||anaerobiosis||anoxia||Arabidopsis||flooding||rice||development||apoplastic barrier||barrier to radial oxygen loss (ROL)||lignin||Oryza glumaepatula||O. rufipogon||rice (O. sativa)||suberin||wild rice||acetolactate synthase||ethanol fermentation||imidazolinones||mode of action||aerobic fermentation||Oryza sativa||Submergence||Activity of antioxidant enzymes||Chlorophyll content||phytoglobin||VII Ethylene Response Factor||PRT6 N-degron pathway of proteolysis||Solanum tuberosum||Solanum lycopersicum||Solanum dulcamara||coleoptile||root hypoxia||oxygen sensing||jasmonate||root meristem||abiotic stress||RNA-seq||transcription factor||fruit trees||Prunus||hypertrophied lenticels||anaerobic fermentation||energy metabolism||root respiration||anoxic signaling||potassium||pH||acidification||fluorescence microscopy||Triticum aestivum||direct seeding||anaerobic germination||low O2 stress||regulatory mechanism||metabolic adaptation||drought||alternated stress||maize||teosinte||microRNAs||metabolomics||phloem||n/a