Detail Information for IndEnz0010000649
IED ID IndEnz0010000649
Enzyme Type ID esterase000649
Protein Name Squalestatin S1 biosynthesis cluster protein L1
Gene Name L1
Organism Phoma sp. (strain ATCC 20986 / MF5453)
Taxonomic Lineage cellular organisms Eukaryota Opisthokonta Fungi Dikarya Ascomycota saccharomyceta Pezizomycotina leotiomyceta dothideomyceta Dothideomycetes Pleosporomycetidae Pleosporales Pleosporineae Didymellaceae Phoma unclassified Phoma Phoma sp. (strain ATCC 20986 / MF5453)
Enzyme Sequence MRESFASLLATGAGKLALSLLFAATPFTSAYTFNQVPSPNLDISNLGRIAFAGDFDSISLYEYEGQTQETPSRNGTLLSRYPNGVFASINTTDADIKAMCNLRINDTERIVFAGNFTGVGNMPTPGGIALLNTTDGRVRALDGLDGTVNTLYCDKSGGQVYVGGLFNGLNSSNAIIWKDGWQELDFNGFNGAVHSIAQAAGGNIIFGGEFTGIGRGNASVASENATQIIPISSANISAQTNSGLPGFTDPKVIACKSDYSSGGAGQTWLLANNAPGFWKADFGFGFEPTRLKMYNTDFEGRGTKTFRFTALPDGGIMNMSYVDPSNGRTAYCDARCPLPQGNKTAQDFTFVNVVGMNSFRVDISEWYGSGAGLNGIQLFQDAMFSYAVNDFNEAQNCGASGTLSKASSTGNWQVSPSHNSNSQYLTTVLQGDPIRPDAASVTFSPDIKQSGNYSVTIYTPGCQGDGTCGSRGRVNVTATIGQGQSEEAILWQTNNFDKYDEVYNGYIDAAGGFQPSVILRPASGQGPGPLTVVAQRVRFTLLKATSGNINGLFEYKPGEKLDENNLADSVINAAGASLDPRGKALITSVSSSGQNLYVAGNFSNNDGRNNIFSFKQGASDPTALPNRGLNRQVMTLYQNDSMLYVGGNFTNTGEGNVQGLNGVAALVNDKWQPLGAGVNGVVLYLVPFSLNVTANQPEQVLAVSGFFDSVNEFNGNPSTNVQDFAVWVPSRSNWLHNLDFFTLAMSGRLMTFADVPGGERWFGGSVSSGSLLASGTAELNNGDDALSLEAFPVNLQAQQSGEAGVPSRKRAILEGQDMSTTGVRTGKFHTEGNNNMTILAGHFSTTGTDQQNITNLVIVDGGDSDKITGFSDELDANSTFTALAVTSNNILFAGGMVTGRLDNSRVAGLVTYDLTAKRFTPVQPPPLQGPNITVNAIAPRPNSNDVFVAGQFLTAGSLGCAAVCIWNTERNQWNSPGNSLSGVVSSLTWISDTQMYISGNLTSGDNVTTILSFNPSNNQFTAIPGAINLPGPVNALTIANEDGSQFWAAGQGSDGTAYLQRYNGEQQWMPVDSALFGPGTDIRGIQVIQVSENHESSDLISDNEDLLLMGQIQIPNFGTVSAALFNGTNLVPFLLATKGADGQTTDGSLSSIFVEFPAFFSQQNGKHLALWAIVLIGLAIALVLTFLLVVAGILLEWYRNKAKGYSPAPQSYPDRMGNVGRLPPEQLFGTLSVPRSRPTNYLFTCTALCIGMDVPTIHRRCNPVAHHKQLPAWTEQVRTEQTTETRPAINEDGCGTSIGGLLFRLPFSRARRISGDDVFDTILACSS
Enzyme Length 1327
Uniprot Accession Number A0A3G1DJF1
Absorption
Active Site
Activity Regulation
Binding Site
Calcium Binding
catalytic Activity
DNA Binding
EC Number
Enzyme Function FUNCTION: Part of the gene cluster that mediates the biosynthesis of squalestatin S1 (SQS1, also known as zaragozic acid A), a lead compound for the treatment of hyper-cholesterolemia by targeting squalene synthase (SS) (PubMed:27056201). Both phenylalanine and benzoic acid are known precursors of SQS1 and so it is unsurprising that the cluster also contains genes potentially involved in benzoate production: phenyl-alanine ammonia lysase (PAL) M7, which catalyzes the first step in the degradation of phenylalanine, and the NADP-dependent dehydrogenase M3 (PubMed:27056201). The cluster contains two PKS encoding genes. The tetraketide synthase is responsible for the biosynthesis of the tetraketide sidechain of SQS1 (By similarity). The biosynthesis must involve 3 rounds of chain extension. After the first and second rounds methyl-transfer occurs, and in all rounds of extension the ketoreductase and dehydratase areactive. The enoyl reductase and C-MeT are not active in the final round of extension (By similarity). The other PKS is therefore likely to encode squalestatin hexaketide synthase (SQHKS) (PubMed:27056201). The hexaketide main chain is initiated by benzoate which is an unusual starter unit for a highly reducing polyketide synthase (PubMed:27056201). The cluster also contains a gene encoding a citrate synthase-like protein R3 presumably involved in linking the hexaketide to the oxaloacetate moiety (Probable). Formation of the tetraketide CoA may be catalyzed by the M9 CoA ligase, but the mechanism of release of the tetraketide and the hexaketide from their respective PKS remains unknown, although the cluster encodes a potential esterase (M8) and a possible hydrolase (M10) which could be involved in these processes (Probable). Two acyltransferases (AT), M4 and R4, are also encoded in the cluster. M4 is responsible for loading of the tetraketide sidechain from CoA onto the squalestatin core as the final step of biosynthesis (PubMed:27056201). M4 appears to have a broad substrate selectivity for its acyl CoA substrate, allowing the in vitro synthesis of novel squalestatins (PubMed:27056201). The biosynthesis of SQS1 requires several oxidative steps likely performed by oxidoreductases M1, R1 and R2 (Probable). Finally, in support of the identification of the cluster as being responsible for SQS1 production, the cluster contains a gene encoding a putative squalene synthase (SS) R6, suggesting a likely mechanism for self-resistance (PubMed:27056201). The function of protein L1 in the biosynthesis of squalestatin S1 has still to be determined (Probable). {ECO:0000250|UniProtKB:Q86ZD9, ECO:0000269|PubMed:27056201, ECO:0000305|PubMed:27056201}.
Temperature Dependency
PH Dependency
Pathway PATHWAY: Secondary metabolite biosynthesis. {ECO:0000305|PubMed:27056201}.
nucleotide Binding
Features Chain (1); Glycosylation (24); Repeat (4); Signal peptide (1); Transmembrane (1)
Keywords Glycoprotein;Kelch repeat;Membrane;Repeat;Signal;Transmembrane;Transmembrane helix
Interact With
Induction
Subcellular Location SUBCELLULAR LOCATION: Membrane {ECO:0000255}; Single-pass membrane protein {ECO:0000255}.
Modified Residue
Post Translational Modification
Signal Peptide SIGNAL 1..30; /evidence=ECO:0000255
Structure 3D
Cross Reference PDB -
Mapped Pubmed ID -
Motif
Gene Encoded By
Mass 141,145
Kinetics
Metal Binding
Rhea ID
Cross Reference Brenda