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(+)-2-epi-prezizaene is a major sesquiterpene hydrocarbon product derived from the cisoid cyclization pathway catalyzed by tobacco 5-epi-aristolochene synthase (TEAS) when using (2Z,6E)-farnesyl diphosphate as a substrate. It is structurally related to the tricyclic alcohol jinkohol (2-epi-prezizaan-7β-ol) and was obtained in high yield (44%) during enzymatic cyclization. Its formation is proposed to originate from a common (7R)-β-bisabolyl cation intermediate. (+)-2-epi-prezizaene's structure, stereochemistry, and enantiopurity were confirmed through spectroscopic analysis, optical rotation measurements, and comparisons with known sesquiterpenes.

1220474-11-2

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1220474-11-2 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 1220474-11-2 includes 10 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 7 digits, 1,2,2,0,4,7 and 4 respectively; the second part has 2 digits, 1 and 1 respectively.
Calculate Digit Verification of CAS Registry Number 1220474-11:
(9*1)+(8*2)+(7*2)+(6*0)+(5*4)+(4*7)+(3*4)+(2*1)+(1*1)=102
102 % 10 = 2
So 1220474-11-2 is a valid CAS Registry Number.

1220474-11-2Downstream Products

1220474-11-2Relevant academic research and scientific papers

Bisabolyl-derived sesquiterpenes from tobacco 5-epi-aristolochene synthase-catalyzed cyclization of (2Z,6E)-farnesvl diohosohate

Faraldos, Juan A.,O'Maille, Paul E.,Dellas, Nikki,Noel, Joseph P.,Coates, Robert M.

, p. 4281 - 4289 (2010)

We report the structures and stereochemistry of seven bisabolyl-derived sesquiterpenes arising from an unprecedented 1,6-cyclization (cisoid pathway) efficiently catalyzed by tobacco 5-epi-aristolochene synthase (TEAS). The use of (2Z,6E)-farnesyl diphosphate as an alternate substrate for recombinant TEAS resulted in a robust enzymatic cyclization to an array of products derived exclusively (≥99.5%) from the cisoid pathway, whereas these same products account for ca. 2.5% of the total hydrocarbons obtained using (2E,6E)-farnesyl diphosphate. Chromatographic fractionations of extracts from preparative incubations with the 2Z,6E substrate afforded, in addition to the acyclic allylic alcohols (2Z,6E)-farnesol (6.7%) and nerolidol (3.6%), five cyclic sesquiterpene hydrocarbons and two cyclic sesquiterpene alcohols: (+)-2-epiprezizaene (44%), (-)-α-cedrene (21.5%), (R)-(-)-β-curcumene (15.5%), R-acoradiene (3.9%), 4-epi-α-acoradiene (1.3%), and equal amounts of α-bisabolol (1.8%) and epi-R-bisalolol (1.8%). The structures, stereochemistry, and enantiopurities were established by comprehensive spectroscopic analyses, optical rotations, chemical correlations with known sesquiterpenes, comparisons with literature data, and GC analyses. The major product, (+)-2-epi-prezizaene, is structurally related to the naturally occurring tricyclic alcohol, jinkohol (2-epi-prezizaan-7 β-ol). Cisoid cyclization pathways are proposed by which all five sesquiterpene hydrocarbons are derived from a common (7R)-β-bisabolyl+/pyrophosphate - ion pair intermediate. The implications of the cisoid catalytic activity of TEAS are discussed.

Structural elucidation of cisoid and transoid cyclization pathways of a sesquiterpene synthase using 2-fluorofarnesyl diphosphates

Noel, Joseph P.,Dellas, Nikki,Faraldos, Juan A.,Zhao, Marylin,Hess, B. Andes,Smentek, Lidia,Coates, Robert M.,O'Maille, Paul E.

, p. 377 - 392 (2010)

Sesquiterpene skeletal complexity in nature originates from the enzyme-catalyzed ionization of (trans,trans)-farnesyl diphosphate (FPP) (1a) and subsequent cyclization along either 2,3-transoid or 2,3-cisoid farnesyl cation pathways. Tobacco 5-epi-aristolochene synthase (TEAS), a transoid synthase, produces cisoid products as a component of its minor product spectrum. To investigate the cryptic cisoid cyclization pathway in TEAS, we employed (cis,trans)-FPP (1b) as an alternative substrate. Strikingly, TEAS was catalytically robust in the enzymatic conversion of (cis,trans)-FPP (1b) to exclusively (?99.5%) cisoid products. Further, crystallographic characterization of wild-type TEAS and a catalytically promiscuous mutant (M4 TEAS) with 2-fluoro analogues of both all-trans FPP (1a) and (cis,trans)-FPP (1b) revealed binding modes consistent with preorganization of the farnesyl chain. These results provide a structural glimpse into both cisoid and transoid cyclization pathways efficiently templated by a single enzyme active site, consistent with the recently elucidated stereochemistry of the cisoid products. Further, computational studies using density functional theory calculations reveal concerted, highly asynchronous cyclization pathways leading to the major cisoid cyclization products. The implications of these discoveries for expanded sesquiterpene diversity in nature are discussed.

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