Pub. Date : 1983 Sep
PMID : 16663185
6 Functional Relationships(s)Download |
Sentence | Compound Name | Protein Name | Organism |
| 1 | Induction of nitrate reductase activity in norflurazon-treated cotyledons had an absolute requirement for NO(3) (-) and was completely inhibited by tungstate. | norflurazone | inducible nitrate reductase [NADH] 1 | Glycine max |
| 2 | The optimum pH for cotyledon nitrate reductase activity from norflurazon-treated seedlings was at pH 7.5, and near that for root nitrate reductase activity, whereas the optimum pH for nitrate reductase activity from greening cotyledons was pH 6.5. | norflurazone | chalcone reductase CHR1 | Glycine max |
| 3 | The optimum pH for cotyledon nitrate reductase activity from norflurazon-treated seedlings was at pH 7.5, and near that for root nitrate reductase activity, whereas the optimum pH for nitrate reductase activity from greening cotyledons was pH 6.5. | norflurazone | chalcone reductase CHR1 | Glycine max |
| 4 | The optimum pH for cotyledon nitrate reductase activity from norflurazon-treated seedlings was at pH 7.5, and near that for root nitrate reductase activity, whereas the optimum pH for nitrate reductase activity from greening cotyledons was pH 6.5. | norflurazone | inducible nitrate reductase [NADH] 1 | Glycine max |
| 5 | Induction of root nitrate reductase activity was also inhibited by tungstate and was dependent on the presence of NO(3) (-), further indicating that the isoform of nitrate reductase induced in norflurazon-treated cotyledons is the same or similar to that found in roots. | norflurazone | chalcone reductase CHR1 | Glycine max |
| 6 | Induction of root nitrate reductase activity was also inhibited by tungstate and was dependent on the presence of NO(3) (-), further indicating that the isoform of nitrate reductase induced in norflurazon-treated cotyledons is the same or similar to that found in roots. | norflurazone | chalcone reductase CHR1 | Glycine max |