EC Number |
Protein Variants |
Reference |
---|
1.13.11.12 | A420G |
the mutation leads to an enzyme variant with pronounced dual specificity favoring arachidonic acid 11R-oxygenation. The mutation impairs the catalytic activity by about 80% and leads to 2fold improved oxygen affinity compared to the wild type |
764202 |
1.13.11.12 | G567A |
site-directed mutagenesis, the mutant converts the dual positional specific LOX1:Md:1a to an enzyme with a high specificity for 9(S)-hydroperoxide formation |
742627 |
1.13.11.12 | more |
deletion of lox greatly diminishes density-dependent development of both sclerotia and conidia, resulting in an overall increase in the number of sclerotia and a decrease in the number of conidia at high cell densities. Lox mutants show decreased linoleic acid LOX activity |
701781 |
1.13.11.12 | more |
enzyme knockout in Oryza sativa by hpRNAi expression, transfection via Agrobacterium tumefaciens strain EHA105 |
742050 |
1.13.11.12 | more |
generation of transgenic tomato plants with greatly increased TomloxD content using sense constructs under the control of the CaMV 35S promoter. Expression levels of defense genes LeHSP90, LePR1, LePR6 and LeZAT in the transformants are higher than those in non-transformed plants, realtime RT-PCR expression analysis, overview. Transgenic plants harboring TomloxD are more tolerant to Cladosporium fulvum and high temperature stress than non-transformed tomato plants |
726182 |
1.13.11.12 | Q599H |
converts the enzyme to a pure 13-LOX |
706122 |