5kbz
From Proteopedia
Structure of the PksA Product Template domain in complex with a phosphopantetheine mimetic
Structural highlights
FunctionAFLC_ASPPU Norsolorinic acid synthase; part of the gene cluster that mediates the biosynthesis of aflatoxins, a group of polyketide-derived furanocoumarins, and part of the most toxic and carcinogenic compounds among the known mycotoxins (PubMed:7592391, PubMed:15094053, PubMed:7565588, PubMed:15006741, PubMed:17086560, PubMed:18403714). The four major aflatoxins produced by A.parasiticus are aflatoxin B1 (AFB1), aflatoxin B2 (AFB2), aflatoxin G1 (AFG1) and aflatoxin G2 (AFG2) (PubMed:15006741). Within the aflatoxin pathway, the norsolorinic acid synthase aflC combines a hexanoyl starter unit provided to the acyl-carrier protein (ACP) domain by the fungal fatty acid synthase aflA/aflB, and 7 malonyl-CoA extender units to synthesize the precursor norsolorinic acid (NOR) (PubMed:17086560, PubMed:18403714). The biosynthesis of aflatoxins begins with the norsolorinic acid synthase aflC that combines a hexanoyl starter unit produced by the fatty acid synthase aflA/aflB and 7 malonyl-CoA extender units to synthesize the precursor NOR. The second step is the conversion of NOR to averantin (AVN) and requires the norsolorinic acid ketoreductase aflD, which catalyzes the dehydration of norsolorinic acid to form (1'S)-averantin. The norsolorinic acid reductases aflE and aflF may also play a role in the conversion of NOR to AVN. The cytochrome P450 monooxygenase aflG then catalyzes the hydroxylation of AVN to 5'hydroxyaverantin (HAVN). The next step is performed by the 5'-hydroxyaverantin dehydrogenase aflH that transforms HAVN to 5'-oxoaverantin (OAVN) which is further converted to averufin (AVF) by aflK that plays a dual role in the pathway, as a 5'-oxoaverantin cyclase that mediates conversion of 5'-oxoaverantin, as well as a versicolorin B synthase in a later step in the pathway. The averufin oxidase aflI catalyzes the conversion of AVF to versiconal hemiacetal acetate (VHA). VHA is then the substrate for the versiconal hemiacetal acetate esterase aflJ to yield versiconal (VAL). Versicolorin B synthase aflK then converts VAL to versicolorin B (VERB) by closing the bisfuran ring of aflatoxin which is required for DNA-binding, thus giving to aflatoxin its activity as a mutagen. Then, the activity of the versicolorin B desaturase aflL leads to versicolorin A (VERA). A branch point starts from VERB since it can also be converted to dihydrodemethylsterigmatocystin (DMDHST), probably also by aflL, VERA being a precursor for aflatoxins B1 and G1, and DMDHST for aflatoxins B2 and G2. Next, the versicolorin reductase aflM and the cytochrome P450 monooxygenase aflN are involved in conversion of VERA to demethylsterigmatocystin (DMST). AflX and aflY seem also involved in this step, through probable aflX-mediated epoxide ring-opening step following versicolorin A oxidation and aflY-mediated Baeyer-Villiger oxidation required for the formation of the xanthone ring. The methyltransferase aflO then leads to the modification of DMST to sterigmatocystin (ST), and of DMDHST to dihydrosterigmatocystin (DHST). Both ST and DHST are then substrates of the O-methyltransferase aflP to yield O-methylsterigmatocystin (OMST) and dihydro-O-methylsterigmatocystin (DHOMST), respectively. Finally OMST is converted to aflatoxins B1 and G1, and DHOMST to aflatoxins B2 and G2, via the action of several enzymes including O-methylsterigmatocystin oxidoreductase aflQ, the cytochrome P450 monooxygenase aflU, but also the NADH-dependent flavin oxidoreductase nadA which is specifically required for the synthesis of AFG1 (PubMed:15006741).[1] [2] [3] [4] [5] [6] Publication Abstract from PubMedProduct template (PT) domains from fungal nonreducing polyketide synthases (NR-PKSs) are responsible for controlling the aldol cyclizations of poly-beta-ketone intermediates assembled during the catalytic cycle. Our ability to understand the high regioselective control that PT domains exert is hindered by the inaccessibility of intrinsically unstable poly-beta-ketones for in vitro studies. We describe here the crystallographic application of "atom replacement" mimetics in which isoxazole rings linked by thioethers mimic the alternating sites of carbonyls in the poly-beta-ketone intermediates. We report the 1.8-A cocrystal structure of the PksA PT domain from aflatoxin biosynthesis with a heptaketide mimetic tethered to a stably modified 4'-phosphopantetheine, which provides important empirical evidence for a previously proposed mechanism of PT-catalyzed cyclization. Key observations support the proposed deprotonation at C4 of the nascent polyketide by the catalytic His1345 and the role of a protein-coordinated water network to selectively activate the C9 carbonyl for nucleophilic addition. The importance of the 4'-phosphate at the distal end of the pantetheine arm is demonstrated to both facilitate delivery of the heptaketide mimetic deep into the PT active site and anchor one end of this linear array to precisely meter C4 into close proximity to the catalytic His1345. Additional structural features, docking simulations, and mutational experiments characterize protein-substrate mimic interactions, which likely play roles in orienting and stabilizing interactions during the native multistep catalytic cycle. These findings afford a view of a polyketide "atom-replaced" mimetic in a NR-PKS active site that could prove general for other PKS domains. Polyketide mimetics yield structural and mechanistic insights into product template domain function in nonreducing polyketide synthases.,Barajas JF, Shakya G, Moreno G, Rivera H Jr, Jackson DR, Topper CL, Vagstad AL, La Clair JJ, Townsend CA, Burkart MD, Tsai SC Proc Natl Acad Sci U S A. 2017 May 8. pii: 201609001. doi:, 10.1073/pnas.1609001114. PMID:28484029[7] From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine. References
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Categories: Aspergillus parasiticus | Large Structures | Barajas JF | Burkart MD | Jackson DR | La Clair JJ | Moreno G | Rivera H | Shakya G | Topper CL | Townsend CA | Tsai SC | Vagstad A
