Pub. Date : 2022 Jun
PMID : 35487658
12 Functional Relationships(s)Download |
Sentence | Compound Name | Protein Name | Organism |
| 1 | SlDREB3, a negative regulator of ABA responses, controls seed germination, fruit size and the onset of ripening in tomato. | Abscisic Acid | dehydration-responsive element binding protein 3 | Solanum lycopersicum |
| 2 | SlDREB3 over-expression lines show higher transcript levels of the ABA metabolism genes CYP707A3 and UGT75C1 and an 85% reduction in ABA levels leading to early seed germination. | Abscisic Acid | dehydration-responsive element binding protein 3 | Solanum lycopersicum |
| 3 | SlDREB3 over-expression lines show higher transcript levels of the ABA metabolism genes CYP707A3 and UGT75C1 and an 85% reduction in ABA levels leading to early seed germination. | Abscisic Acid | dehydration-responsive element binding protein 3 | Solanum lycopersicum |
| 4 | SlDREB3 manipulation effects large scale changes in the fruit transcriptome with suppression lines showing early increase in ABA levels and activation of most ripening pathway genes that govern ethylene, carotenoids and softening. | Abscisic Acid | dehydration-responsive element binding protein 3 | Solanum lycopersicum |
| 5 | SlDREB3 manipulation effects large scale changes in the fruit transcriptome with suppression lines showing early increase in ABA levels and activation of most ripening pathway genes that govern ethylene, carotenoids and softening. | ethylene | dehydration-responsive element binding protein 3 | Solanum lycopersicum |
| 6 | SlDREB3 manipulation effects large scale changes in the fruit transcriptome with suppression lines showing early increase in ABA levels and activation of most ripening pathway genes that govern ethylene, carotenoids and softening. | Carotenoids | dehydration-responsive element binding protein 3 | Solanum lycopersicum |
| 7 | Strikingly, key transcription factors like CNR, NOR, RIN, FUL1, governing ethylene-dependent and ethylene-independent aspects of ripening, are activated early upon SlDREB3 suppression suggesting their control by ABA. | ethylene | dehydration-responsive element binding protein 3 | Solanum lycopersicum |
| 8 | Strikingly, key transcription factors like CNR, NOR, RIN, FUL1, governing ethylene-dependent and ethylene-independent aspects of ripening, are activated early upon SlDREB3 suppression suggesting their control by ABA. | ethylene | dehydration-responsive element binding protein 3 | Solanum lycopersicum |
| 9 | Strikingly, key transcription factors like CNR, NOR, RIN, FUL1, governing ethylene-dependent and ethylene-independent aspects of ripening, are activated early upon SlDREB3 suppression suggesting their control by ABA. | Abscisic Acid | dehydration-responsive element binding protein 3 | Solanum lycopersicum |
| 10 | The studies identify SlDREB3 as a negative regulator of ABA responses across tissues and a key ripening regulator controlling ethylene-dependent and ethylene-independent aspects. | Abscisic Acid | dehydration-responsive element binding protein 3 | Solanum lycopersicum |
| 11 | The studies identify SlDREB3 as a negative regulator of ABA responses across tissues and a key ripening regulator controlling ethylene-dependent and ethylene-independent aspects. | ethylene | dehydration-responsive element binding protein 3 | Solanum lycopersicum |
| 12 | The studies identify SlDREB3 as a negative regulator of ABA responses across tissues and a key ripening regulator controlling ethylene-dependent and ethylene-independent aspects. | ethylene | dehydration-responsive element binding protein 3 | Solanum lycopersicum |