EC Number   |
General Information  |
Reference |
|---|
   1.14.19.25 | malfunction |
accumulation of linoleoyl (18:2) groups at the expense of linolenoyl groups (18:3) is the only substantial difference in membrane lipid biosynthesis in leaves and roots of fad3-2 plants relative to wild type |
732019 |
| 1.14.19.25 | metabolism |
regulation of the enzyme through synergistic and antagonistic hormonal interactions, overview |
-, 734987 |
| 1.14.19.25 | more |
fatty acid profile of wild-type and fad3 mutant roots in response to several plant hormones, overview |
-, 734987 |
| 1.14.19.25 | more |
the enzyme contains the conserved His box of plant omega-3 FA desaturase. One amino acid residue, Asn or Ser, is different at 61 position of PfrFAD3-1 and PfrFAD3-2, respectively. Both PfrFAD3-1 and -2 have the function of omega-3 FA desaturases |
746058 |
| 1.14.19.25 | physiological function |
OMEGA-3 fatty acid desaturase converts exogenous arachidonic acid, an OMEGA-6 PUFA, into eicosapentaenoic acid (EPA). Gene sdd17 from EPA-rich fungus is expressed at high levels and increases OMEGA-3 fatty acid concentrations in mammalian cells |
745935 |
| 1.14.19.25 | physiological function |
the omega-3 FAD gene expression product and its enzymatic product C18:3n3 are crucial to the microalgae cell system |
-, 743983 |
| 1.14.19.25 | physiological function |
tomato endoplasmic reticulum-type omega-3 fatty acid desaturase functions in early seedling tolerance to salinity stress |
746051 |
