EC Number | Organism | UniProt | Comment | Textmining |
---|---|---|---|---|
3.1.3.8 | Aspergillus niger | P34752 | - |
- |
3.1.3.26 | Escherichia coli | P07102 | - |
- |
EC Number | Source Tissue | Comment | Organism | Textmining |
---|
EC Number | Synonyms | Comment | Organism |
---|---|---|---|
3.1.3.8 | 3-phytase A | - |
Aspergillus niger |
EC Number | General Information | Comment | Organism |
---|---|---|---|
3.1.3.8 | physiological function | transgenic expression in Brassica napus with a signal peptide sequence. Transgenic lines exhibit significantly higher exuded phytase activity when compared to wild-type controls. Transgenic Brassica napus has significantly improved phosphate uptake and plant biomass. Seed yields of transgenic increase by 20.9% when compared to wild-type. When phytate is used as the sole phosphate source, phosphate accumulation in seeds increases by 20.6. Phytase activities in transgenic canola seeds range from 1,138 to 1,605 U/kg seeds, while no phytase activity is detected in wild-type seeds. Phytic acid content in seeds is significantly lower than in wild-type | Aspergillus niger |
3.1.3.26 | physiological function | transgenic expression in Brassica napus. Transgenic lines exhibit significantly higher exuded phytase activity when compared to wild-type controls. Transgenic Brassica napus has significantly improved phosphate uptake and plant biomass. Seed yields of transgenic increase by 59% when compared to wild-type. When phytate is used as the sole phosphate source, phosphate accumulation in seeds increases by 47. Phytase activities in transgenic canola seeds range from 1,138 to 1,605 U/kg seeds, while no phytase activity is detected in wild-type seeds. Phytic acid content in seeds is significantly lower than in wild-type | Escherichia coli |