Crystallization (Comment) | Organism |
---|---|
comparison of rigidity in citrate synthases from thermophiles to investgate the relationship between rigidity and thermostability. The increase in rigidity does not detract from the functional flexibility of the active site in all systems once their respective temperature range has been reached. In hyperthermophiles, salt bridges have stabilising roles in the active site, occuring in close proximity to key residues involved in catalysis and binding of the protein | Thermus thermophilus |
comparison of rigidity in citrate synthases from thermophiles to investigate the relationship between rigidity and thermostability. The increase in rigidity does not detract from the functional flexibility of the active site in all systems once their respective temperature range has been reached. In hyperthermophiles, salt bridges have stabilising roles in the active site, occuring in close proximity to key residues involved in catalysis and binding of the protein | Thermoplasma acidophilum |
comparison of rigidity in citrate synthases from thermophiles to investigate the relationship between rigidity and thermostability. The increase in rigidity does not detract from the functional flexibility of the active site in all systems once their respective temperature range has been reached. In hyperthermophiles, salt bridges have stabilising roles in the active site, occuring in close proximity to key residues involved in catalysis and binding of the protein | Saccharolobus solfataricus |
Organism | UniProt | Comment | Textmining |
---|---|---|---|
Saccharolobus solfataricus | P80148 | - |
- |
Saccharolobus solfataricus DSM 1617 | P80148 | - |
- |
Thermoplasma acidophilum | P21553 | - |
- |
Thermus thermophilus | Q5SIM6 | - |
- |
Thermus thermophilus DSM 579 | Q5SIM6 | - |
- |
Synonyms | Comment | Organism |
---|---|---|
TTHA1343 | - |
Thermus thermophilus |