Pages that link to "Q27007488"
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The following pages link to Biosynthesis and possible functions of inositol pyrophosphates in plants (Q27007488):
Displayed 17 items.
- Global Metabolic Profiling of Arabidopsis Polyamine Oxidase 4 (AtPAO4) Loss-of-Function Mutants Exhibiting Delayed Dark-Induced Senescence. (Q38540598) (← links)
- Lipid signalling in plant responses to abiotic stress (Q38618572) (← links)
- Differentially expressed genes in mycorrhized and nodulated roots of common bean are associated with defense, cell wall architecture, N metabolism, and P metabolism (Q38644381) (← links)
- Role of vacuoles in phosphorus storage and remobilization (Q38771707) (← links)
- Intimate connections: Inositol pyrophosphates at the interface of metabolic regulation and cell signaling. (Q39329205) (← links)
- Synergism between inositol polyphosphates and TOR kinase signaling in nutrient sensing, growth control and lipid metabolism in Chlamydomonas. (Q39417559) (← links)
- Phospholipase C2 Affects MAMP-Triggered Immunity by Modulating ROS Production (Q46318326) (← links)
- Disruption of OsSULTR3;3 reduces phytate and phosphorus concentrations and alters the metabolite profile in rice grains (Q47875223) (← links)
- Role for Arabidopsis in Stomatal Movement, Seed Mucilage Attachment, and Leaf Serration (Q59807360) (← links)
- Selective manipulation of the inositol metabolic pathway for induction of salt-tolerance in indica rice variety (Q64105190) (← links)
- mRNA transcription profile of potato (Solanum tuberosum L.) exposed to ultrasound during different stages of in vitro plantlet development (Q91628827) (← links)
- Minimally altering a critical kinase for low-phytate maize (Q91892627) (← links)
- PPIP5K2 and PCSK1 are Candidate Genetic Contributors to Familial Keratoconus (Q92096708) (← links)
- The Function of Inositol Phosphatases in Plant Tolerance to Abiotic Stress (Q92702442) (← links)
- Can Inositol Pyrophosphates Inform Strategies for Developing Low Phytate Crops? (Q92811191) (← links)
- Knockout of MULTI-DRUG RESISTANT PROTEIN 5 Genes Lead to Low Phytic Acid Contents in Oilseed Rape (Q96303639) (← links)
- Response of Soybean Root to Phosphorus Deficiency under Sucrose Feeding: Insight from Morphological and Metabolome Characterizations (Q99239797) (← links)