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Literature summary for 4.2.3.48 extracted from
- Three-step pathway engineering results in more incidence rate and higher emission of nerolidol and improved attraction of Diadegma semiclausum (2013), Metab. Eng., 15, 88-97.
Application
| Application | Comment | Organism |
|---|---|---|
| agriculture | introduction of the mitochondrial nerolidol synthase gene to Arabidopsis thaliana mediates de novo emission of (E)-nerolidol and linalool. Co-expression of the nerolidol synthase FPS1 and cytosolic 3-hydroxy-3-methylglutaryl coenzyme A reductase 1 increases the number of emitting transgenic plants (incidence rate) and the emission rate of both volatiles. No association between the emission rate of transgenic volatiles and their growth inhibitory effect can be established.(E)-Nerolidol is to a large extent metabolized to non-volatile conjugates | Fragaria x ananassa |
Organism
| Organism | UniProt | Comment | Textmining |
|---|---|---|---|
| Fragaria x ananassa | P0CV94 | - |
- |
Synonyms
| Synonyms | Comment | Organism |
|---|---|---|
| NES1 | - |
Fragaria x ananassa |
General Information
| General Information | Comment | Organism |
|---|---|---|
| physiological function | introduction of the mitochondrial nerolidol synthase gene to Arabidopsis thaliana mediates de novo emission of (E)-nerolidol and linalool. Co-expression of the nerolidol synthase FPS1 and cytosolic 3-hydroxy-3-methylglutaryl coenzyme A reductase 1 increases the number of emitting transgenic plants (incidence rate) and the emission rate of both volatiles. No association between the emission rate of transgenic volatiles and their growth inhibitory effect can be established.(E)-Nerolidol is to a large extent metabolized to non-volatile conjugates | Fragaria x ananassa |
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