EC Number |
General Information |
Reference |
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1.14.13.1 | metabolism |
strain MT1 is capable of degrading 4- and 5-chlorosalicylates via 4-chlorocatechol, 3-chloromuconate, and maleylacetate by the chlorocatechol pathway, overview |
651730 |
1.14.13.1 | metabolism |
salicylate 1-hydroxylase is not clustered with the meta cleavage pathway |
680483 |
1.14.13.1 | metabolism |
naphthalene degradation |
-, 698002 |
1.14.13.1 | physiological function |
expression of enzyme gene in Arabidopsis thaliana, with chloroplast targeting sequence. Plants expressing NahG gene in the chloroplasts are unable to accumulate salicylic acid induced after pathogen or UV exposure. The decreased levels in chloroplast-targeted NahG are in the same range as those observed in transgenic plants expressing NahG in the cytosol. Data infer that salicylic acid is initially located in the chloroplasts |
-, 725001 |
1.14.13.1 | physiological function |
enzyme activity is needed for growth on plates with salicylic acid as a sole carbon source. Enzyme does not contribute significantly to virulence in a seedling infection assay |
-, 726011 |
1.14.13.1 | malfunction |
deletion of shyA, dhbA, and crcA in Aspergillus niger results in reduced growth on salicylic acid, 2,3-dihydroxybenzoic acid, and catechol, respectively, confirming their in vivo roles |
-, 763980 |
1.14.13.1 | metabolism |
in the filamentous fungus Aspergillus niger, two salicylic acid metabolic pathways have been suggested. The first pathway converts salicylic acid to catechol by a salicylate hydroxylase (ShyA). In the second pathway, salicylic acid is 3-hydroxylated to 2,3-dihydroxybenzoic acid, followed by decarboxylation to catechol by 2,3-dihydroxybenzoate decarboxylase (DhbA). ShyA, DhbA, and CrcA are involved in the fungal salicylic acid pathway, overview. The recombinant ShyA and CrcA together can efficiently convert salicylic acid into cis,cis-muconic acid through catechol as an intermediate. NRRL3_43 is suggested to be a salicylic acid hydroxylase-like enzyme |
-, 763980 |
1.14.13.1 | evolution |
phylogenetic analysis and tree, salicylate hydroxylase homologue FgShy1 is most closely related to NahG from Pseudomonas putida and Shy1 from Ustilago maydis |
-, 764734 |
1.14.13.1 | evolution |
phylogenetic analysis and tree, salicylate hydroxylase homologue FgShyC is unique to the North American population 2 (NA2), FgShyC is present only in NA2 strains |
-, 764734 |
1.14.13.1 | physiological function |
FgShy1 is not essential for the growth of Fusarium graminearum on agar medium with SA, suggesting additional enzymes or other SA degradation pathways exist |
-, 764734 |