EC Number |
Application |
Reference |
---|
3.2.2.22 | agriculture |
antiviral activity toward plant viruses |
646920 |
3.2.2.22 | agriculture |
MAP shows antifungal activity |
666976 |
3.2.2.22 | agriculture |
PAP can be useful against plant virus infections |
666976 |
3.2.2.22 | agriculture |
potato plants expressing antiviral protein exhibit resistance against potato virus X, potato virus Y, and potato leafroll virus |
646920 |
3.2.2.22 | agriculture |
the enzyme shows antifungal activity |
666976 |
3.2.2.22 | agriculture |
transgenic tobacco expressing trichosanthin is completely resistant against infection by turnip mosaic virus |
646920 |
3.2.2.22 | agriculture |
transgenic tobacco plants transfected with the enzyme from barley acquire an increased resistance to Rhizoctonia solani infection. The expression of barley gene in transgenic mulberry displays enhanced tolerance against drought, salinity and cold stress |
732949 |
3.2.2.22 | analysis |
detection method based on N-glycosidase activity of ricin. Ricin is captured by a monoclonal antibody directed against the B chain and immobilized. Detection is realized via the release of adenine by the ricin A chain. Limit of detection is around 0.1 ng/ml after concentration of the toxin |
683074 |
3.2.2.22 | analysis |
detection method for ricin based on its inhibitory effects on protein synthesis. Development of an array of protein expression units to accomodate controls and multiple samples. Detection limit is around 0.01 nM ricin |
683073 |
3.2.2.22 | analysis |
electrochemiluminescence-based detection of RNA N-glycosidase activities with a limit of detection of 0.1 ng/ml of ricin |
683064 |