Detail Information for IndEnz0018000386
IED ID IndEnz0018000386
Enzyme Type ID peroxidase000386
Protein Name Catalase ifgD
EC 1.11.-.-
Isofumigaclavine biosynthesis cluster A protein D
Gene Name ifgD PROQFM164_S05g000508
Organism Penicillium roqueforti (strain FM164)
Taxonomic Lineage cellular organisms Eukaryota Opisthokonta Fungi Dikarya Ascomycota saccharomyceta Pezizomycotina leotiomyceta Eurotiomycetes Eurotiomycetidae Eurotiales (green and blue molds) Aspergillaceae Penicillium Penicillium roqueforti Penicillium roqueforti (strain FM164)
Enzyme Sequence MAPNYAKKCPVMGKAPSSGHSSIGPQDVHTLEVLSNFNREKIPERVVHALGAGAYGEFEVTHDISDICNIDMLLGVGKKTSLVTRFSTTGLERGSSEGVQDLKGMATKLFTSDGEWDWVFLNFPFFFIRDPVKFPDMIHSQRRDPQTNRLNPNNFWEFVTENHESIHMVLLQYSDFGRMFTWRTLSSYSGHAFKWVMPDGSFKYVHFFLSSDRGPNFKDGAGTIMDSSEPDFASRDLFEAIERGDHPSWTANVQVIDPKDAPHLGFNILDVTKHWNLGTYPQGVEKIPSRPFGKLTLNRNVKDYFSEVEQLAFSPSHLVPGIEASEDPILQARLFAYPDAQRYRLGRTLSKQASPRTSSTAEYQASLGKDFAEWVAQVSSDVWSQPHEDDYKFAREYYEILPEFRSQEFQDRMVERIVESVSQTRQDIRNKVYRTFALVSSELATRVQEGVEGAEIGQEKNVQARL
Enzyme Length 466
Uniprot Accession Number W6QJS4
Absorption
Active Site ACT_SITE 48; /evidence=ECO:0000250|UniProtKB:P15202
Activity Regulation
Binding Site
Calcium Binding
catalytic Activity
DNA Binding
EC Number 1.11.-.-
Enzyme Function FUNCTION: Catalase; part of the gene cluster that mediates the biosynthesis of isofumigaclavines, fungal ergot alkaloids (PubMed:28620689). The tryptophan dimethylallyltransferase ifgA catalyzes the first step of ergot alkaloid biosynthesis by condensing dimethylallyl diphosphate (DMAP) and tryptophan to form 4-dimethylallyl-L-tryptophan (PubMed:28620689). The second step is catalyzed by the methyltransferase ifgB that methylates 4-dimethylallyl-L-tryptophan in the presence of S-adenosyl-L-methionine, resulting in the formation of N-methyl-dimethylallyl-L-tryptophan (PubMed:28620689). The catalase ifgD and the FAD-dependent oxidoreductase ifgC then transform N-methyl-dimethylallyl-L-tryptophan to chanoclavine-I which is further oxidized by ifgE in the presence of NAD(+), resulting in the formation of chanoclavine-I aldehyde (PubMed:28902217). The chanoclavine-I aldehyde reductases ifgG and/or fgaOx3 reduce chanoclavine-I aldehyde to dihydrochanoclavine-I aldehyde that spontaneously dehydrates to form 6,8-dimethyl-6,7-didehydroergoline (PubMed:28620689, PubMed:28902217). The festuclavine dehydrogenases ifgF1 and/or ifgF2 then catalyze the reduction of 6,8-dimethyl-6,7-didehydroergoline to form festuclavine (PubMed:28620689). Hydrolysis of festuclavine by a yet undetermined cytochrome P450 monooxygenase (called ifgH) then leads to the formation of isofumigaclavine B which is in turn acetylated by ifgI to isofumigaclavine A (PubMed:28620689). Penicillium roqueforti has interestingly at least two sets of genes for the consumption of chanoclavine-I aldehyde on three different loci, the OYEs ifgG/fgaOx3 and the festuclavine synthase homologs ifgF1/ifgF2 (PubMed:28620689, PubMed:28902217). The reason for the duplication of these genes is unclear, probably to ensure the conversion of chanoclavine-I aldehyde by differential gene expression under various environmental conditions (PubMed:28902217). {ECO:0000269|PubMed:28620689, ECO:0000269|PubMed:28902217}.
Temperature Dependency
PH Dependency
Pathway PATHWAY: Alkaloid biosynthesis; ergot alkaloid biosynthesis. {ECO:0000305|PubMed:28620689}.
nucleotide Binding
Features Active site (1); Chain (1); Metal binding (1); Region (1)
Keywords Alkaloid metabolism;Heme;Hydrogen peroxide;Iron;Metal-binding;Oxidoreductase;Peroxidase;Reference proteome
Interact With
Induction
Subcellular Location
Modified Residue
Post Translational Modification
Signal Peptide
Structure 3D
Cross Reference PDB -
Mapped Pubmed ID -
Motif
Gene Encoded By
Mass 53,038
Kinetics
Metal Binding METAL 337; /note=Iron (heme axial ligand); /evidence=ECO:0000250|UniProtKB:P15202
Rhea ID
Cross Reference Brenda