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Literature summary for 1.15.1.1 extracted from
- Characterization of copper/zinc and manganese superoxide dismutase in green bamboo (Bambusa oldhamii): Cloning, expression and regulation (2011), Plant Physiol. Biochem., 49, 195-200.
Cloned(Commentary)
| Cloned (Comment) | Organism |
|---|---|
| gene CSD1, DNA and amino acid sequence determination and analysis, expression as GST-tagged protein in Escherichia coli strain BL21(DE3) | Bambusa oldhamii |
| gene MSD1, DNA and amino acid sequence determination and analysis, expression as GST-tagged protein in Escherichia coli strain BL21(DE3) | Bambusa oldhamii |
Inhibitors
| Inhibitors | Comment | Organism | Structure |
|---|---|---|---|
| KCN | inhibits Cu,Zn-SOD | Bambusa oldhamii |  |
| additional information | no inhibition by KCN of MnSOD | Bambusa oldhamii |
Metals/Ions
| Metals/Ions | Comment | Organism | Structure |
|---|---|---|---|
| Cu2+ | 7 isozymes of CuZnSOD | Bambusa oldhamii | |
| Mn2+ | 1 isozyme of MnSOD | Bambusa oldhamii | |
| Zn2+ | 7 isozymes of CuZnSOD | Bambusa oldhamii | |
Organism
| Organism | UniProt | Comment | Textmining |
|---|---|---|---|
| Bambusa oldhamii | D0UXW7 | 5 genes and 7 isozymes of CuZnSOD | - |
| Bambusa oldhamii | D0UXW8 | 4 genes and 1 isozyme of MnSOD | - |
Purification (Commentary)
| Purification (Comment) | Organism |
|---|---|
| recombinant Cu,ZnSOD from Escherichia coli strain BL21(DE3) by glutathione affinity chromatography, cleavage of the GST fusion protein | Bambusa oldhamii |
| recombinant MnSOD from Escherichia coli strain BL21(DE3) by glutathione affinity chromatography, cleavage of the GST fusion protein | Bambusa oldhamii |
Source Tissue
| Source Tissue | Comment | Organism | Textmining |
|---|---|---|---|
| additional information | bamboo SODs show developmental and tissue-specific regulation, unique fast-growth phenotype of green bamboo | Bambusa oldhamii | - |
| shoot | the higher SOD activity in the middle part of the shoots can scavenge the fast-producing reactive oxygen species because it is the most abundant cell-division region | Bambusa oldhamii | - |
| shoot | the higher SOD activity in the middle part of the shoots can scavenge the fast-producing Rreactive oxygen species because it is the most abundant cell-division region | Bambusa oldhamii | - |
Storage Stability
| Storage Stability | Organism |
|---|---|
| isolated CuZnSOD shows activity that is stable under a broad range of pH and temperature treatments, even at room temperature for more than 3 days | Bambusa oldhamii |
| isolated MnSOD shows activity that is stable under a broad range of pH and temperature treatments, even at room temperature for more than 3 days | Bambusa oldhamii |
Synonyms
| Synonyms | Comment | Organism |
|---|---|---|
| CuZnSOD | - |
Bambusa oldhamii |
| MnSOD | - |
Bambusa oldhamii |
Expression
| Organism | Comment | Expression |
|---|---|---|
| Bambusa oldhamii | KCN inhibits Cu,Zn-SOD expression | down |
| Bambusa oldhamii | no suppression of MnSOD by KCN | additional information |
General Information
| General Information | Comment | Organism |
|---|---|---|
| physiological function | different SOD isozymes might play different roles in the developmental and tissue-specific regulation, the higher SOD activity in the middle part of the shoots can scavenge the fast-producing reactive oxygen species because it is the most abundant cell-division region | Bambusa oldhamii |
| physiological function | different SOD isozymes might play different roles in these developmental, the higher SOD activity in the middle part of the shoots can scavenge the fast-producing reactive oxygen species because it is the most abundant cell-division region | Bambusa oldhamii |
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