EC Number   |
Expression |
Reference |
|---|
   2.3.2.8 | down |
the enzyme is downregulated in several types of human cancer samples at the protein level |
736911 |
| 2.3.2.8 | more |
enzyme expression is not induced by abscisic acid or cytokinin |
736896 |
| 2.3.2.8 | up |
ATE abundance is increased in moss (Physcomitrella patens) leafy gametophores after application of the stress hormone abscisic acid (ABA), in darkness or in red light, using a translational ATE:GUS fusion at the endogenous locus |
759770 |
| 2.3.2.8 | up |
Ate1 and arginylation are upregulated during stress and are responsible for cell death, stress is caused by e.g. H2O2, CdCl2, heat, high salt, or staurosporine, overview |
759021 |
| 2.3.2.8 | up |
Ate1 and arginylation are upregulated during stress and are responsible for cell death, stress is caused by e.g. H2O2, CdCl2, heat, high salt, or staurosporine. In wild-type cells responding to stress, there is an increase of cellular Ate1 protein level and arginylation activity, overview. The increase of Ate1 protein directly promotes cell death in a manner dependent on its arginylation activity. The wild-type and ate1DELTA yeast are challenged with high-temperature conditions: at 40°C, a heat-stress temperature for yeast, the mutant ate1DELTA yeast grows significantly faster than the wild-type. Buut when these yeast cultures are transferred from 40°C to room temperature, a non-stressing temperature for recovery, similar numbers of colonies eventually form in both the ate1DELTA and wild-type yeast. This suggests that both yeast strains are equally viable, and their difference in growth at 40°C is mainly due to a difference in growth arrest |
-, 759021 |
| 2.3.2.8 | up |
ATE1 expression is upregulated by hypertrophic stimuli, increase in ATE1 expression upon hypertrophic stress |
760135 |
| 2.3.2.8 | up |
enzyme expression is 2fold induced after 3 days and 7-8fold after 7 days of auxin application |
736896 |
