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פותח על ידי קלירמאש פתרונות בע"מ -
Distribution of piperitone oxide stereoisomers in Mentha and Micromeria species and their chemical syntheses
Year:
2007
Source of publication :
Flavour and Fragrance Journal
Authors :
דודאי, נתיב
;
.
לוינסון, אפרים
;
.
לרקוב, אולגה
;
.
רביד, עוזי
;
.
Volume :
22
Co-Authors:
Larkov, O., Newe Yaar Research Center, ARO, PO Box 1021, Ramat Yishay 30095, Israel
Matasyoh, J.C., Department of Chemistry, Egerton University, PO Box 536, Njoro, Kenya
Dudai, N., Newe Yaar Research Center, ARO, PO Box 1021, Ramat Yishay 30095, Israel
Lewinsohn, E., Newe Yaar Research Center, ARO, PO Box 1021, Ramat Yishay 30095, Israel
Mayer, A.A., Department of Botany, The Hebrew University of Jerusalem, Jerusalem 91904, Israel
Ravid, U., Newe Yaar Research Center, ARO, PO Box 1021, Ramat Yishay 30095, Israel
Facilitators :
From page:
328
To page:
333
(
Total pages:
6
)
Abstract:
Chiral GC-MS analyses of natural and synthetic trans- and cis-piperitone oxide were performed on an Rt-β DEX-sm capillary column in order to clarify the stereochemistry of their enantiomeric forms. Only enantiomerically pure laevo-rotatory piperitone oxides, (1S,2S,4S)-trans-piperitone oxide and (1S,2S,4R)-cis-piperitone oxide, were detected by chiral analyses of Micromeria fruticosa (L.) Druce and Mentha longifolia L. The occurrence of the cis- and trans. piperitone oxides was dependent on the population of the species. In all cases (1S,2S,4S)-trans-piperitone oxide was detected together with (4S)-piperitone, while (1S, 2S, 4R)-cis-piperitone oxide was detected together with (4R)-piperitone in the plants analysed. The four stereoisomers of trans- and cis-piperitone oxide were obtained by alkaline epoxidation of both (4R)- and (4S)-piperitone. The formation of the 1,2-epoxide can take place on either side of the 1,4-substituted six-membered ring. Racemization at C4 was observed under alkaline epoxidation reaction conditions due to keto-enol tautomerism. Copyright © 2007 John Wiley & Sons, Ltd.
Note:
Related Files :
Chirality
Gas Chromatography
Mentha
Phytochemistry
Synthesis
unclassified drug
עוד תגיות
תוכן קשור
More details
DOI :
10.1002/ffj.1801
Article number:
0
Affiliations:
Database:
סקופוס
Publication Type:
מאמר
;
.
Language:
אנגלית
Editors' remarks:
ID:
25134
Last updated date:
02/03/2022 17:27
Creation date:
17/04/2018 00:12
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Scientific Publication
Distribution of piperitone oxide stereoisomers in Mentha and Micromeria species and their chemical syntheses
22
Larkov, O., Newe Yaar Research Center, ARO, PO Box 1021, Ramat Yishay 30095, Israel
Matasyoh, J.C., Department of Chemistry, Egerton University, PO Box 536, Njoro, Kenya
Dudai, N., Newe Yaar Research Center, ARO, PO Box 1021, Ramat Yishay 30095, Israel
Lewinsohn, E., Newe Yaar Research Center, ARO, PO Box 1021, Ramat Yishay 30095, Israel
Mayer, A.A., Department of Botany, The Hebrew University of Jerusalem, Jerusalem 91904, Israel
Ravid, U., Newe Yaar Research Center, ARO, PO Box 1021, Ramat Yishay 30095, Israel
Distribution of piperitone oxide stereoisomers in Mentha and Micromeria species and their chemical syntheses
Chiral GC-MS analyses of natural and synthetic trans- and cis-piperitone oxide were performed on an Rt-β DEX-sm capillary column in order to clarify the stereochemistry of their enantiomeric forms. Only enantiomerically pure laevo-rotatory piperitone oxides, (1S,2S,4S)-trans-piperitone oxide and (1S,2S,4R)-cis-piperitone oxide, were detected by chiral analyses of Micromeria fruticosa (L.) Druce and Mentha longifolia L. The occurrence of the cis- and trans. piperitone oxides was dependent on the population of the species. In all cases (1S,2S,4S)-trans-piperitone oxide was detected together with (4S)-piperitone, while (1S, 2S, 4R)-cis-piperitone oxide was detected together with (4R)-piperitone in the plants analysed. The four stereoisomers of trans- and cis-piperitone oxide were obtained by alkaline epoxidation of both (4R)- and (4S)-piperitone. The formation of the 1,2-epoxide can take place on either side of the 1,4-substituted six-membered ring. Racemization at C4 was observed under alkaline epoxidation reaction conditions due to keto-enol tautomerism. Copyright © 2007 John Wiley & Sons, Ltd.
Scientific Publication
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