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Oleanane

December 14, 2023

Oleanane is a natural triterpenoid. It is commonly found in woody angiosperms and as a result is often used as an indicator of these plants in the fossil record. It is a member of the oleanoid series, which consists of pentacyclic triterpenoids (such as beta-amyrin and taraxerol[verification needed]) where all rings are six-membered.

18β-Oleanane
Names
IUPAC name
Oleanane[1]
Systematic IUPAC name
(4aR,6aR,6bR,8aS,12aS,12bR,14aR,14bS)-2,2,4a,6a,6b,9,9,12a-Octamethyldocosahydropicene
Identifiers
  • 471-67-0 N
ChEBI
  • CHEBI:36481 Y
ChemSpider
  • 7827640 Y
  • 9548717
UNII
  • CB9Y4447CP Y
  • DTXSID00872582
  • InChI=1S/C30H52/c1-25(2)16-17-27(5)18-19-29(7)21(22(27)20-25)10-11-24-28(6)14-9-13-26(3,4)23(28)12-15-30(24,29)8/h21-24H,9-20H2,1-8H3/t21-,22+,23+,24-,27-,28+,29-,30-/m1/s1 Y
    Key: VCNKUCWWHVTTBY-KQCVGMHHSA-N Y
  • InChI=1/C30H52/c1-25(2)16-17-27(5)18-19-29(7)21(22(27)20-25)10-11-24-28(6)14-9-13-26(3,4)23(28)12-15-30(24,29)8/h21-24H,9-20H2,1-8H3/t21-,22+,23+,24-,27-,28+,29-,30-/m1/s1
    Key: VCNKUCWWHVTTBY-KQCVGMHHBI
Properties
C30H52
Molar mass 412.746 g·mol−1
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
N verify (what is YN ?)

Structure edit

Oleanane is a pentacyclic triterpenoid, a class of molecules made up of six connected isoprene units. The naming of both the ring structures and individual carbon atoms in oleanane is the same as in steroids. As such, it consists of a A, B, C, D, and E ring, all of which are six-membered rings.[2][failed verification]

The structure of oleanane contains a number of different methyl groups, that vary in orientation between different oleananes. For example, in 18-alpha-oleanane contains a downward facing methyl group for the 18th carbon atom, while 18-beta-oleanane contains an upward facing methyl group at the same position.

A and B rings of the oleanane structure are identical to that of hopane. As a result, both molecules produce a fragment of m/z 191. Because this fragment is often used to identify hopanes, oleanane can be mis-identified in hopane analysis.

Synthesis edit

Like other triterpenoids, are formed from six combined isoprene units.[2] These isoprene units can be combined via a number of different pathways. In eukaryotes (including plants), this pathway is the mevalonate (MVA) pathway. For the formation of steroids and other triterpenoids the isoprenoids are combined into a precursor known as squalene, which then undergoes enzymatic cyclization to produce the various different triterpenoids, including oleanane.[2]

Once the oleananes have been transported into rocks or sediments they will undergo further alteration before they are measured.

Measurement in Rock Samples edit

Oleananes can be identified in extracts from rock samples (or plants) using GC/MS. A GC/MS is a gas chromatograph coupled with a mass spectrometer. The sample is first injected into the system, then run through as chromatographic column. How fast a material moves through a chromatographic column depends on how long it spends in each of the two stages there. Compounds that partition more into the mobile phase will move faster as opposed to compounds that partition more into the stationary phase. The result of this is a separation of different organic molecules based on their retention time in the GC.

After being separated by the GC, the compounds can then be analyzed by a mass spectrometer. Each compound will contain a characteristic mass spectrum, based on the fragments it splits into during ionization in the mass spectrometer. This means that the GC can not only separate different types of molecules, it can also identify them.

As mentioned above, they have a characteristic mass fragment at m/z = 191, and thus will appear in the same selected ion chromatograph (SIC) as hopanes. This can help one identify them in GC/MS datasets.

Uses edit

As a biomarker edit

Oleanane has been identified as a compound in modern day angiosperms.[3]

Because of this, its presence is the fossil record has also been used to trace angiosperms through the fossil record. For example, the ratio of 18-alpha-oleanane + 18-beta-oleanane:17-alpha-hopane in rock extracts (and associated petroleums/oils) has been found to correlate (at least broadly) to the presence of angiosperms in the fossil record.[4] In this study, the combination of alpha and beta-oleanane were used as indicators for the presence of angiosperms. They are normalized to hopanes, which are broadly present in almost all rock extracts coming from petroleum. Furthermore, because of the structural similarities between hopanes and oleananes, it is assumed that they will react similarly to the various weathering processes that degrade the biomarkers present. As such, the ratio of hopanes to oleananes should be similar to the initial ratio, and unaffected by processes occurring in the rock after fossilization.

There is some delay in the accepted increases in taxonomic diversification of angiosperms (which occurred during the mid-Cretaceous period) and the increase of oleanane concentrations in the fossil record (which occurred in the late-Cretaceous or even after). This could be due to a number of factors, one being that the early angiosperms were more herbaceous than woody and that woody angiosperms only appeared after further taxonomic diversification.[4]

Lastly, the study introduced the idea of an "oleanane parameter," which could be used in assessing angiosperm input to petroleum sources. This, in turn, gives some idea of the age of said petroleum sources.[4]

That being said, the presence of angiosperms may not be the only thing affecting the oleanane content of sediments, rock extracts and petroleum. For example, there is evidence that contact with seawater during early sedimentation processes can increase the concentration of oleananes in the mature sediment.[5] This evidence comes from the fact that various indicators of marine influence (C27/C29 sterane ratios, changes in elemental composition in the downstream direction that are indicative of the infiltration of water into the system and the homophane index). Despite this, it is still unclear as to how marine influence enhances the expression of oleananes (thus increasing observed concentration). Some ideas include the changes in pH, Eh and the microbial environment that come with the interaction with seawater.[5]

See also edit

References edit

  1. ^ International Union of Pure and Applied Chemistry (2014). Nomenclature of Organic Chemistry: IUPAC Recommendations and Preferred Names 2013. The Royal Society of Chemistry. p. 1538. doi:10.1039/9781849733069. ISBN 978-0-85404-182-4.
  2. ^ a b c "killopsiog". sites.google.com. Retrieved 2019-05-15.
  3. ^ Baas, Wim J. (January 1985). "Naturally occurring seco-ring-A-triterpenoids and their possible biological significance". Phytochemistry. 24 (9): 1875–1889. doi:10.1016/s0031-9422(00)83085-x.
  4. ^ a b c Taylor, David Winship; Peakman, Torren M.; Hickey, Leo J.; Fago, Frederick J.; Huizinga, Bradley J.; Dahl, Jeremy; Moldowan, J. Michael (1994-08-05). "The Molecular Fossil Record of Oleanane and Its Relation to Angiosperms". Science. 265 (5173): 768–771. Bibcode:1994Sci...265..768M. doi:10.1126/science.265.5173.768. ISSN 0036-8075. PMID 17736275.
  5. ^ a b "Oleananes in oils and sediments: Evidence of marine influence during early diagenesis? | Request PDF". ResearchGate. Retrieved 2019-05-15.

December 14, 2023
oleanane, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, september, 2022, . This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Oleanane news newspapers books scholar JSTOR September 2022 Learn how and when to remove this template message Oleanane is a natural triterpenoid It is commonly found in woody angiosperms and as a result is often used as an indicator of these plants in the fossil record It is a member of the oleanoid series which consists of pentacyclic triterpenoids such as beta amyrin and taraxerol verification needed where all rings are six membered 18b Oleanane NamesIUPAC name Oleanane 1 Systematic IUPAC name 4aR 6aR 6bR 8aS 12aS 12bR 14aR 14bS 2 2 4a 6a 6b 9 9 12a OctamethyldocosahydropiceneIdentifiersCAS Number 471 67 0 NChEBI CHEBI 36481 YChemSpider 7827640 YPubChem CID 9548717UNII CB9Y4447CP YCompTox Dashboard EPA DTXSID00872582InChI InChI 1S C30H52 c1 25 2 16 17 27 5 18 19 29 7 21 22 27 20 25 10 11 24 28 6 14 9 13 26 3 4 23 28 12 15 30 24 29 8 h21 24H 9 20H2 1 8H3 t21 22 23 24 27 28 29 30 m1 s1 YKey VCNKUCWWHVTTBY KQCVGMHHSA N YInChI 1 C30H52 c1 25 2 16 17 27 5 18 19 29 7 21 22 27 20 25 10 11 24 28 6 14 9 13 26 3 4 23 28 12 15 30 24 29 8 h21 24H 9 20H2 1 8H3 t21 22 23 24 27 28 29 30 m1 s1Key VCNKUCWWHVTTBY KQCVGMHHBIPropertiesChemical formula C 30H 52Molar mass 412 746 g mol 1Except where otherwise noted data are given for materials in their standard state at 25 C 77 F 100 kPa N verify what is Y N Infobox references Contents 1 Structure 2 Synthesis 3 Measurement in Rock Samples 4 Uses 4 1 As a biomarker 5 See also 6 ReferencesStructure editOleanane is a pentacyclic triterpenoid a class of molecules made up of six connected isoprene units The naming of both the ring structures and individual carbon atoms in oleanane is the same as in steroids As such it consists of a A B C D and E ring all of which are six membered rings 2 failed verification The structure of oleanane contains a number of different methyl groups that vary in orientation between different oleananes For example in 18 alpha oleanane contains a downward facing methyl group for the 18th carbon atom while 18 beta oleanane contains an upward facing methyl group at the same position A and B rings of the oleanane structure are identical to that of hopane As a result both molecules produce a fragment of m z 191 Because this fragment is often used to identify hopanes oleanane can be mis identified in hopane analysis Synthesis editLike other triterpenoids are formed from six combined isoprene units 2 These isoprene units can be combined via a number of different pathways In eukaryotes including plants this pathway is the mevalonate MVA pathway For the formation of steroids and other triterpenoids the isoprenoids are combined into a precursor known as squalene which then undergoes enzymatic cyclization to produce the various different triterpenoids including oleanane 2 Once the oleananes have been transported into rocks or sediments they will undergo further alteration before they are measured Measurement in Rock Samples editOleananes can be identified in extracts from rock samples or plants using GC MS A GC MS is a gas chromatograph coupled with a mass spectrometer The sample is first injected into the system then run through as chromatographic column How fast a material moves through a chromatographic column depends on how long it spends in each of the two stages there Compounds that partition more into the mobile phase will move faster as opposed to compounds that partition more into the stationary phase The result of this is a separation of different organic molecules based on their retention time in the GC After being separated by the GC the compounds can then be analyzed by a mass spectrometer Each compound will contain a characteristic mass spectrum based on the fragments it splits into during ionization in the mass spectrometer This means that the GC can not only separate different types of molecules it can also identify them As mentioned above they have a characteristic mass fragment at m z 191 and thus will appear in the same selected ion chromatograph SIC as hopanes This can help one identify them in GC MS datasets Uses editAs a biomarker edit Oleanane has been identified as a compound in modern day angiosperms 3 Because of this its presence is the fossil record has also been used to trace angiosperms through the fossil record For example the ratio of 18 alpha oleanane 18 beta oleanane 17 alpha hopane in rock extracts and associated petroleums oils has been found to correlate at least broadly to the presence of angiosperms in the fossil record 4 In this study the combination of alpha and beta oleanane were used as indicators for the presence of angiosperms They are normalized to hopanes which are broadly present in almost all rock extracts coming from petroleum Furthermore because of the structural similarities between hopanes and oleananes it is assumed that they will react similarly to the various weathering processes that degrade the biomarkers present As such the ratio of hopanes to oleananes should be similar to the initial ratio and unaffected by processes occurring in the rock after fossilization There is some delay in the accepted increases in taxonomic diversification of angiosperms which occurred during the mid Cretaceous period and the increase of oleanane concentrations in the fossil record which occurred in the late Cretaceous or even after This could be due to a number of factors one being that the early angiosperms were more herbaceous than woody and that woody angiosperms only appeared after further taxonomic diversification 4 Lastly the study introduced the idea of an oleanane parameter which could be used in assessing angiosperm input to petroleum sources This in turn gives some idea of the age of said petroleum sources 4 That being said the presence of angiosperms may not be the only thing affecting the oleanane content of sediments rock extracts and petroleum For example there is evidence that contact with seawater during early sedimentation processes can increase the concentration of oleananes in the mature sediment 5 This evidence comes from the fact that various indicators of marine influence C27 C29 sterane ratios changes in elemental composition in the downstream direction that are indicative of the infiltration of water into the system and the homophane index Despite this it is still unclear as to how marine influence enhances the expression of oleananes thus increasing observed concentration Some ideas include the changes in pH Eh and the microbial environment that come with the interaction with seawater 5 See also editOleanolic acidReferences edit International Union of Pure and Applied Chemistry 2014 Nomenclature of Organic Chemistry IUPAC Recommendations and Preferred Names 2013 The Royal Society of Chemistry p 1538 doi 10 1039 9781849733069 ISBN 978 0 85404 182 4 a b c killopsiog sites google com Retrieved 2019 05 15 Baas Wim J January 1985 Naturally occurring seco ring A triterpenoids and their possible biological significance Phytochemistry 24 9 1875 1889 doi 10 1016 s0031 9422 00 83085 x a b c Taylor David Winship Peakman Torren M Hickey Leo J Fago Frederick J Huizinga Bradley J Dahl Jeremy Moldowan J Michael 1994 08 05 The Molecular Fossil Record of Oleanane and Its Relation to Angiosperms Science 265 5173 768 771 Bibcode 1994Sci 265 768M doi 10 1126 science 265 5173 768 ISSN 0036 8075 PMID 17736275 a b Oleananes in oils and sediments Evidence of marine influence during early diagenesis Request PDF ResearchGate Retrieved 2019 05 15 Retrieved from https en wikipedia org w index php title Oleanane amp oldid 1156603054, wikipedia, wiki, book, books, library,

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