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Dioxygenase

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Dioxygenase; part of the gene cluster that mediates the biosynthesis of fumagillin, a meroterpenoid that has numerous biological activities including irreversible inhibition of human type 2 methionine aminopeptidase (METAP2) .

Below are the list of possible Dioxygenase products. If you cannot find the target and/or product is not available in our catalog, please click here to contact us and request the product or submit your request for custom elisa kit production, custom recombinant protein production or custom antibody production. Custom ELISA Kits, Recombinant Proteins and Antibodies can be designed, manufactured and produced according to the researcher's specifications.
 

Dioxygenase af480

 Dioxygenase af480 ELISA Kit
 Dioxygenase af480 Recombinant
 Dioxygenase af480 Antibody
Also known as Dioxygenase af480 (Fumagillin bioynthesis cluster C-6 hydroxylase) (Fma-C6H).
Dioxygenase; part of the gene cluster that mediates the biosynthesis of fumagillin, a meroterpenoid that has numerous biological activities including irreversible inhibition of human type 2 methionine aminopeptidase (METAP2) (PubMed:23488861, PubMed:24568283). The pathway begins with the conversion of farnesyl pyrophosphate (FPP) to beta-trans-bergamotene by the membrane-bound beta-trans-bergamotene synthase af520 (PubMed:23488861). The initial oxidation of beta-trans-bergamotene by the multifunction
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al cytochrome P450 monooxygenase af510 involves C-H hydroxylation at the bridgehead C5 position to yield 5R-hydroxyl-beta-trans-bergamotene (PubMed:24568283). Subsequently, a four electron oxidation initiated at C-9 coupled to cleavage of the cyclobutane C5-C8 bond of the bicyclo[3.1.1] core yields the epoxyketone intermediate 5-keto-cordycol (PubMed:24568283). An additional epoxidation reaction also catalyzed by af510 then furnishes the characteristic bisepoxide ketone 5-keto-demethoxyfumagillol (PubMed:24568283). 5-keto-demethoxyfumagillol is then subjected to successive C-6 hydroxylation and O-methylation by the dioxygenase af480 and O-methyltransferase af390-400, respectively, to yield 5-keto-fumagillol, which is then stereoselectively reduced by the keto-reductase af490 to 5R-hydroxy-seco-sesquiterpene (PubMed:24568283). The next step is the polyketide transferase af380-catalyzed transfer of a dodecapentaenoyl group synthesized by the polyketide synthase af370 onto 5R-hydroxy-seco-sesquiterpene which leads to the production of prefumagillin (PubMed:24568283). Finally, oxidative cleavage by the monooxygenase af470 converts prefumagillin to fumagillin (PubMed:24568283).
 af480 ELISA Kit
 af480 Recombinant
 af480 Antibody
 fmaF ELISA Kit
 fmaF Recombinant
 fmaF Antibody
 AFUA_8G00480 ELISA Kit
 AFUA_8G00480 Recombinant
 AFUA_8G00480 Antibody
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Dioxygenase andA

 Dioxygenase andA ELISA Kit
 Dioxygenase andA Recombinant
 Dioxygenase andA Antibody
Also known as Dioxygenase andA (Anditomin synthesis protein A).
Dioxygenase; part of the gene cluster that mediates the biosynthesis of anditomin, a fungal meroterpenoid (PubMed:25216349). The first step of the pathway is the synthesis of 3,5-dimethylorsellinic acid (DMOA) by the polyketide synthase andM (PubMed:25216349). DMOA is then converted to the phthalide compound 5,7-dihydroxy-4,6-dimet
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hylphthalide (DHDMP) by the cytochrome P450 monooxygenase andK, which is further prenylated by the prenyltransferase andD to yield farnesyl-DHDMP (PubMed:25216349). Further epoxidation by the FAD-dependent monooxygenase andE leads to epoxyfarnesyl-DHDMP (PubMed:25216349). The next step involves the terpene cyclase andB that converts epoxyfarnesyl-DHDMP into preandiloid A through opening of the epoxide ring followed by the cyclization of the farnesyl moiety (PubMed:25216349). Preandiloid A is in turn oxidized at the C-3 hydroxyl group to yield preandiloid B by the dehydrogenase andC (PubMed:25216349). The dioxygenase andA is solely responsible for the dehydrogenation of preandiloid B leading to the enone preandiloid C, as well as for the intriguing structural rearrangement to generate the bicyclo[2.2.2]octane core, transforming preandiloid C into andiconin (PubMed:25216349). FAD-binding monooxygenase andJ then produces andilesin D which is reduced by dehydrogenase andI to yield andilesin A (PubMed:25216349). Action of acetyltransferase andG followed by a spontaneous acetate elimination leads then to andilesin B, which is in turn substrate of the short chain dehydrogenase andH to yield andilesin C (PubMed:25216349). Finally, the dioxygenase andF catalyzes the transformation of andilesin C to anditomin (PubMed:25216349).
 andA ELISA Kit
 andA Recombinant
 andA Antibody
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Dioxygenase andF

 Dioxygenase andF ELISA Kit
 Dioxygenase andF Recombinant
 Dioxygenase andF Antibody
Also known as Dioxygenase andF (Anditomin synthesis protein F).
Dioxygenase; part of the gene cluster that mediates the biosynthesis of anditomin, a fungal meroterpenoid (PubMed:25216349). The first step of the pathway is the synthesis of 3,5-dimethylorsellinic acid (DMOA) by the polyketide synthase andM (PubMed:25216349). DMOA is then converted to the phthalide compound 5,7-dihydroxy-4,6-dimet
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hylphthalide (DHDMP) by the cytochrome P450 monooxygenase andK, which is further prenylated by the prenyltransferase andD to yield farnesyl-DHDMP (PubMed:25216349). Further epoxidation by the FAD-dependent monooxygenase andE leads to epoxyfarnesyl-DHDMP (PubMed:25216349). The next step involves the terpene cyclase andB that converts epoxyfarnesyl-DHDMP into preandiloid A through opening of the epoxide ring followed by the cyclization of the farnesyl moiety (PubMed:25216349). Preandiloid A is in turn oxidized at the C-3 hydroxyl group to yield preandiloid B by the dehydrogenase andC (PubMed:25216349). The dioxygenase andA is solely responsible for the dehydrogenation of preandiloid B leading to the enone preandiloid C, as well as for the intriguing structural rearrangement to generate the bicyclo[2.2.2]octane core, transforming preandiloid C into andiconin (PubMed:25216349). FAD-binding monooxygenase andJ then produces andilesin D which is reduced by dehydrogenase andI to yield andilesin A (PubMed:25216349). Action of acetyltransferase andG followed by a spontaneous acetate elimination leads then to andilesin B, which is in turn substrate of the short chain dehydrogenase andH to yield andilesin C (PubMed:25216349). Finally, the dioxygenase andF catalyzes the transformation of andilesin C to anditomin (PubMed:25216349).
 andF ELISA Kit
 andF Recombinant
 andF Antibody
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Dioxygenase trt7

 Dioxygenase trt7 ELISA Kit
 Dioxygenase trt7 Recombinant
 Dioxygenase trt7 Antibody
Also known as Dioxygenase trt7 (Terretonin synthesis protein 7).
Dioxygenase; part of the gene cluster that mediates the biosynthesis of terretonin, a fungal meroterpenoid that acts as a mycotoxin (PubMed:22549923, PubMed:23116177, PubMed:25671343). The first step of the pathway is the synthesis of 3,5-dimethylorsellinic acid (DMOA) by the polyketide synthase trt4 (PubMed:22549923, PubMed:23116
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177). DMOA is then prenylated into farnesyl-DMOA by the polyprenyl transferase trt2 (PubMed:22549923, PubMed:22782788, PubMed:23116177). Methylation by the methyltransferase trt5 then leads to farnesyl-DMOA methyl ester which is further subject to epoxidation by the FAD-dependent monooxygenase trt8 to yield epoxyfarnesyl-DMOA methyl ester (PubMed:22549923, PubMed:22782788, PubMed:23116177). Cyclization of epoxyfarnesyl-DMOA methyl ester by the terpene cyclase trt1 leads to a tetracycle intermediate which is in turn converted to preterretonin (PubMed:22549923, PubMed:22782788, PubMed:23116177). Dehydrogenase trt9 comes next to transform preterretonin to preterrenoid (PubMed:22549923, PubMed:23116177). The FAD-dependent monooxygenase trt3 is then required for the C-hydroxylation at C16 of preterrenoid to yield terrenoid (PubMed:22549923, PubMed:23116177). The cytochrome P450 trt6 catalyzes three successive oxidations to transform terrenoid into an unstable intermediate, which then undergoes the D-ring expansion and unusual rearrangement of the methoxy group to afford the core skeleton of terretonin (PubMed:25671343). This unprecedented rearrangement is catalyzed by the isomerase trt14 (PubMed:25671343). Finally, the nonheme iron-dependent dioxygenase trt7 accomplishes the last two oxidation reactions steps to complete the biosynthesis of terretonin (PubMed:25671343). Terretonin C is produced via spontaneous decarboxylation of the terretonin precursor (PubMed:23116177). Another shunt product of the terretonin biosynthesis is dihydrofarnesyl-DMOA, derived from epoxyfarnesyl-DMOA through hydrolysis of the epoxide (PubMed:22549923, PubMed:22782788, PubMed:23116177).
 trt7 ELISA Kit
 trt7 Recombinant
 trt7 Antibody
 ATEG_10084 ELISA Kit
 ATEG_10084 Recombinant
 ATEG_10084 Antibody
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