Antibody Protein ELISA Kit from MyBioSource header Telephone 1.858.633.0165          
1.855.MyBioSource
Fax 1.858.633.0166    Email sales@mybiosource.com 
tel/fax
menu1 Home Products Ordering Company Help menu7
bottom
   MyBioSource  rightarrow Protein Family  rightarrow Polyprenyl transferase  rightarrow LOG IN  rightarrow MY ACCOUNT  rightarrow CART CONTENTS  rightarrow CHECKOUT 
horiz bar
MyBioSource Menu separator
separator
ELISA Kit ELISA Kit
CLIA Kit CLIA Kit
PCR Kit PCR Kit
Monoclonal Antibody Monoclonal Antibody
Polyclonal Antibody Polyclonal Antibody
Secondary Antibody Secondary Antibody
Antigen Antigen
Biochemical Biochemical
cDNA Clone cDNA Clone
siRNA siRNA
Peptide Peptide
Recombinant/Purified Protein Rec./Purified Protein

Custom ELISA Kit Custom ELISA Kit
Custom Protein Custom Protein
Custom Antibody Custom Antibody
Antibody Matched Pairs Antibody Matched Pairs
Antibody & Corresponding Blocking Peptide Pairs Antibody Peptide Pairs
Phospho-Specific Antibodies Phospho Antibodies
Products by Disease Products by Disease
Products by Pathway Products by Pathway
Products by Tissue Products by Tissue

arrow Advanced Search
arrow Submit Technical Q&A
arrow International Distributors
arrow Contact Us
separator
Our Best Sellers moreseparator
separator
 • SDF-1 ELISA Kit
 • DMD - Dystrophin Antibody
 • cytochrome P450, family 2, subfamily B, polypeptide 6 (CYP2B... ELISA Kit
 • gp64 Antibody
 • Insulin-like growth factor-binding protein 3 (Igfbp3) Recombinant Protein
 • matrix metalloproteinase 1, MMP-1 ELISA Kit
 • IL-6 ELISA Set
 • PRG4 Antibody
 • fucosidase, alpha-L- 1, tissue (FUCA1) ELISA Kit
 • Interleukin-1 alpha (IL1A) ELISA Kit
 • Helicobacter pylori IgM (HP IgM) ELISA Kit
 • CD9 Antibody
 • Macrophage Inflammatory protein-5 (MIP 5) Recombinant Protein
 • EPH receptor B1 (EPHB1) ELISA Kit
 downarrow more ...
separator

Polyprenyl transferase

separator
Polyprenyl transferase; part of the gene cluster that mediates the biosynthesis of anditomin, a fungal meroterpenoid .

Below are the list of possible Polyprenyl transferase 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.
 

Polyprenyl transferase andD

 Polyprenyl transferase andD ELISA Kit
 Polyprenyl transferase andD Recombinant
 Polyprenyl transferase andD Antibody
Also known as Polyprenyl transferase andD (Anditomin synthesis protein D).
Polyprenyl transferase; 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-dimethylphthalide (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).
 andD ELISA Kit
 andD Recombinant
 andD Antibody
Table BarTOPTable Bar
 

Polyprenyl transferase ausN

 Polyprenyl transferase ausN ELISA Kit
 Polyprenyl transferase ausN Recombinant
 Polyprenyl transferase ausN Antibody
Also known as Polyprenyl transferase ausN (Austinol synthesis protein N).
Polyprenyl transferase; part of the gene cluster B that mediates the biosynthesis of austinol and dehydroaustinol, two fungal meroterpenoids (PubMed:22329759). The first step of the pathway is the synthesis of 3,5-dimethylorsellinic acid by the polyketide synthase ausA (PubMed:22329759). 3,5-dimethylorsellinic acid is the
>>>
n prenylated by the polyprenyl transferase ausN (PubMed:22329759). Further epoxidation by the FAD-dependent monooxygenase ausM and cyclization by the probable terpene cyclase ausL lead to the formation of protoaustinoid A (PubMed:22329759). Protoaustinoid A is then oxidized to spiro-lactone preaustinoid A3 by the combined action of the FAD-binding monooxygenases ausB and ausC, and the dioxygenase ausE (PubMed:22329759, PubMed:23865690). Acid-catalyzed keto-rearrangement and ring contraction of the tetraketide portion of preaustinoid A3 by ausJ lead to the formation of preaustinoid A4 (PubMed:22329759). The aldo-keto reductase ausK, with the help of ausH, is involved in the next step by transforming preaustinoid A4 into isoaustinone which is in turn hydroxylated by the P450 monooxygenase ausI to form austinolide (PubMed:22329759). Finally, the cytochrome P450 monooxygenase ausG modifies austinolide to austinol (PubMed:22329759). Austinol can be further modified to dehydroaustinol which forms a diffusible complex with diorcinol that initiates conidiation (PubMed:22234162, PubMed:22329759).
 ausN ELISA Kit
 ausN Recombinant
 ausN Antibody
 AN9259 ELISA Kit
 AN9259 Recombinant
 AN9259 Antibody
Table BarTOPTable Bar
 

Polyprenyl transferase mapA

 Polyprenyl transferase mapA ELISA Kit
 Polyprenyl transferase mapA Recombinant
 Polyprenyl transferase mapA Antibody
Also known as Polyprenyl transferase mapA (Mycophenolic acid synthesis protein A).
Polyprenyl transferase; part of the gene cluster that mediates the biosynthesis of mycophenolic acid (MPA), the first isolated antibiotic natural product in the world (PubMed:21398490, PubMed:22544261, PubMed:25630520). The first step of the pathway is the synthesis of 5-methylorsellinic acid (5MOA) by the polyke
>>>
tide synthase mpaC (PubMed:21398490). 5MOA is then converted to the phthalide compound 5,7-dihydroxy-4,6-dimethylphthalide (DHDMP) by mpaDE (PubMed:22544261). MpaDE first catalyzes hydroxylation of 5-MOA to 4,6-dihydroxy-2-(hydroxymethyl)-3-methylbenzoic acid (DHMB) (PubMed:22544261). MpaDE then acts as a lactone synthase that catalyzes the ring closure to convert DHMB is then converted to DHMP (PubMed:22544261). The next step is the prenylation of DHMP by the prenyltransferase mpaA to yield farnesyl-DHDMP (PubMed:25630520). Farnesyl-DHDMP might be a substrate of mpaH for transformation into demethylmycophenolic acid (DMMPA) (PubMed:25630520). Finally, the O-methyltransferase mpaG catalyzes the methylation DMMPA to form MPA (PubMed:25630520).
 mpaA ELISA Kit
 mpaA Recombinant
 mpaA Antibody
Table BarTOPTable Bar
 

Polyprenyl transferase pyr6

 Polyprenyl transferase pyr6 ELISA Kit
 Polyprenyl transferase pyr6 Recombinant
 Polyprenyl transferase pyr6 Antibody
Also known as Polyprenyl transferase pyr6 (Pyripyropene synthesis protein 6).
Polyprenyl transferase; part of the gene cluster that mediates the biosynthesis of pyripyropene A, a specific human acyl-coenzyme A:cholesterol acyltransferase 2 inhibitor (PubMed:20861902). The first step of the pathway is the synthesis of nicotinyl-CoA from nicotinic acid by the nicotinic acid-CoA ligase pyr1 (PubMe
>>>
d:20861902). Nicotinyl-CoA is then a substrate of polyketide synthase pyr2 to produce 4-hydroxy-6-(3-pyridinyl)-2H-pyran-2-one (HPPO) which is further prenylated by the polyprenyl transferase pyr6 to yield farnesyl-HPPO (PubMed:20861902). The next steps consist of an epoxidation of farnesyl-HPPO to epoxyfarnesyl-HPPO by FAD-dependent monooxygenase pyr5 and a cyclization of the terpenoid portion by the terpene cyclase pyr4 to yield deacetyl-pyripyropene E (PubMed:20861902). The 2 cytochrome P450 monooxygenases pyr3 and pyr9, and the 2 acetyltransferases pyr7 and pyr8 are involved in the conversion of deacetyl-pyripyropene E into pyripyropene A through several cycles of oxidation and acetylation steps (PubMed:20861902). Pyr7 acetylates deacetyl-pyripyropene E to pyripyropene E which is oxidized to 11-deacetyl-pyripyropene O by pyr3, which is in turn acetylated into pyripyropene O by pyr8 (PubMed:21224862, PubMed:26019565). Pyripyropene O is then oxidized to deacetyl-pyripyropene A by pyr9 (PubMed:21224862). Deacetyl-pyripyropene A is finally acetylated to pyripyropene A by pyr8 (PubMed:26019565).
 pyr6 ELISA Kit
 pyr6 Recombinant
 pyr6 Antibody
 AFUA_6G13980 ELISA Kit
 AFUA_6G13980 Recombinant
 AFUA_6G13980 Antibody
Table BarTOPTable Bar
 

Polyprenyl transferase trt2

 Polyprenyl transferase trt2 ELISA Kit
 Polyprenyl transferase trt2 Recombinant
 Polyprenyl transferase trt2 Antibody
Also known as Polyprenyl transferase trt2 (Terretonin synthesis protein 2).
Polyprenyl transferase; 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:23116177). 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).
 trt2 ELISA Kit
 trt2 Recombinant
 trt2 Antibody
 ATEG_10078 ELISA Kit
 ATEG_10078 Recombinant
 ATEG_10078 Antibody
Table BarTOPTable Bar
 

Polyprenyl transferase yanG

 Polyprenyl transferase yanG ELISA Kit
 Polyprenyl transferase yanG Recombinant
 Polyprenyl transferase yanG Antibody
Also known as Polyprenyl transferase yanG (Yanuthone D synthesis protein G).
Polyprenyl transferase; part of the gene cluster that mediates the biosynthesis of yanuthone D, a fungal isoprenoid epoxycyclohexenone that acts as an antibiotic against fungi and bacteria (PubMed:24684908). The first step of the pathway is the synthesis of 6-methylsalicylic acid (6-MSA) by the polyketide synthase yanA
>>>
(PubMed:24684908). 6-MSA is then converted to m-cresol by the decarboxylase yanB (PubMed:24684908). The cytochrome P450 monooxygenase yanC then catalyzes the oxidation of m-cresol to toluquinol (PubMed:24684908). Epoxidation of toluquinol is then performed by the short chain dehydrogenase yanD, with the help of yanE, and a further prenylation by yanG leads to 7-deacetoxyyanuthone A (PubMed:24684908). The next step is the hydroxylation of C-22 of 7-deacetoxyyanuthone A by the cytochrome P450 monooxygenase yanH to yield 22-deacetylyanuthone A (PubMed:24684908). O-Mevalon transferase yanI then attaches mevalon to the hydroxyl group of 22-deacetylyanuthone A to produce yanuthone E (PubMed:24684908). Finally, the FAD-dependent monooxygenase yanF oxidizes the hydroxyl group at C15 of yanuthone E to form yanuthone D (PubMed:24684908). Furthermore, several branching points in the pathway lead to the production of yanuthones F and G from 7-deacetoxyyanuthone A; yanuthones H and I from 22-deacetylyanuthone A; and yanuthone J from yanuthone E (PubMed:24684908). YanG is also involved in the synthesis of yanuthone X1 which does not have 6-methylsalicylic acid (6-MSA) as precurdor (PubMed:24684908).
 yanG ELISA Kit
 yanG Recombinant
 yanG Antibody
 ASPNIDRAFT_44964 ELISA Kit
 ASPNIDRAFT_44964 Recombinant
 ASPNIDRAFT_44964 Antibody
Table BarTOPTable Bar
Proteins Root Name Listing
horiz bar
 SSL   Follow us on Facebook Follow us onTwitter Follow us on Google Plus Connect us on LinkedIn Subscribe to our RSS Feed for latest products and special promotions