Data extracted from this reference:
Inhibitors
2.4.2.30
3-aminobenzamide
1 mM, remaining activity: 3.9%
Cistus incanus
2.4.2.30
ADP-D-ribose
5 mM, remaining activity: 7.3%
Cistus incanus
2.4.2.30
AMP
1 mM, remaining activity: 3.6%
Cistus incanus
2.4.2.30
KCl
0.05 mM, remaining activity: 6.8%
Cistus incanus
2.4.2.30
N-(6-oxo-5,6-dihydrophenanthrolin-2-yl)-(N,N-dimethylamino)acetamide
0.1 mM, remaining activity: 36.2%
Cistus incanus
2.4.2.30
nicotinamide
0.05 mM, remaining activity: 27.3%
Cistus incanus
2.4.2.30
phenanthridinone
5 mM, remaining activity: 35.1%
Cistus incanus
2.4.2.30
Zinc acetate
0.1 mM, remaining activity: 0.5%
Cistus incanus
Localization
2.4.2.30
nucleus
Cistus incanus
5634
Molecular Weight [Da]
2.4.2.30
80000
Cistus incanus
Organism
Synonyms
2.4.2.30
PARP
Cistus incanus
2.4.2.30
poly (ADP-ribose) polymerase
Cistus incanus
Temperature Optimum [°C]
2.4.2.30
25
assay at
Cistus incanus
pH Optimum
2.4.2.30
8
assay at
Cistus incanus
Inhibitors (protein specific)
2.4.2.30
3-aminobenzamide
1 mM, remaining activity: 3.9%
Cistus incanus
2.4.2.30
ADP-D-ribose
5 mM, remaining activity: 7.3%
Cistus incanus
2.4.2.30
AMP
1 mM, remaining activity: 3.6%
Cistus incanus
2.4.2.30
KCl
0.05 mM, remaining activity: 6.8%
Cistus incanus
2.4.2.30
N-(6-oxo-5,6-dihydrophenanthrolin-2-yl)-(N,N-dimethylamino)acetamide
0.1 mM, remaining activity: 36.2%
Cistus incanus
2.4.2.30
nicotinamide
0.05 mM, remaining activity: 27.3%
Cistus incanus
2.4.2.30
phenanthridinone
5 mM, remaining activity: 35.1%
Cistus incanus
2.4.2.30
Zinc acetate
0.1 mM, remaining activity: 0.5%
Cistus incanus
Localization (protein specific)
2.4.2.30
nucleus
Cistus incanus
5634
Molecular Weight [Da] (protein specific)
2.4.2.30
80000
Cistus incanus
Temperature Optimum [°C] (protein specific)
2.4.2.30
25
assay at
Cistus incanus
pH Optimum (protein specific)
2.4.2.30
8
assay at
Cistus incanus
General Information
2.4.2.30
metabolism
the lowest PARP activity, as well as the lowest quantum yield of PSII linear electron transport (FPSII) and photochemical quenching (qP), is found in outdoor during winter plants. In outdoor spring plants the recovery of photochemical activity associated to a poly(ADP-ribose)polymerase activity increase of about 50%, as compared to greenhouse plants, is observed
Cistus incanus
General Information (protein specific)
2.4.2.30
metabolism
the lowest PARP activity, as well as the lowest quantum yield of PSII linear electron transport (FPSII) and photochemical quenching (qP), is found in outdoor during winter plants. In outdoor spring plants the recovery of photochemical activity associated to a poly(ADP-ribose)polymerase activity increase of about 50%, as compared to greenhouse plants, is observed
Cistus incanus