Sterane
{{Short description|Class of tetracyclic compounds derived from steroids}}
{{for multi|the drug with trade name Sterane|Prednisolone|the parent compound which steranes are derivatives of|Gonane}}
Steranes constitute a group of alkane organic compounds with a cyclopentane-fused hydrogenated phenanthrene structure as the parent nucleus, and they derived from steroids or sterols via diagenetic and catagenetic degradation, such as hydrogenation. They are found in sediments and sedimentary rocks in nature.{{Cite book |last1=Peters |first1=K. E. |url=https://www.cambridge.org/core/books/biomarker-guide/38F1AC02B49B61216C2252A9B4D940D0 |title=The Biomarker Guide: Volume 1: Biomarkers and Isotopes in the Environment and Human History |last2=Walters |first2=C. C. |last3=Moldowan |first3=J. M. |date=2004 |publisher=Cambridge University Press |isbn=978-0-521-78697-3 |edition=2 |volume=1 |location=Cambridge |doi=10.1017/cbo9780511524868}} Steranes are derivatives of gonane, the steroid nucleus which is also called "cyclopentanoperhydrophenanthrene".{{Cite journal |last1=Yang |first1=Yanqing |last2=Krin |first2=Anna |last3=Cai |first3=Xiaoli |last4=Poopari |first4=Mohammad Reza |last5=Zhang |first5=Yuefei |last6=Cheeseman |first6=James R. |last7=Xu |first7=Yunjie |date=2023-01-12 |title=Conformations of Steroid Hormones: Infrared and Vibrational Circular Dichroism Spectroscopy |journal=Molecules (Basel, Switzerland) |volume=28 |issue=2 |pages=771 |doi=10.3390/molecules28020771 |issn=1420-3049 |pmc=9864676 |pmid=36677830 |doi-access=free }} They have an androstane skeleton with a side chain at the C-17 carbon, constituting the scaffold of all sterols. Steranes are widely used as biomarkers for the presence of eukaryotes in past ecosystems because steroids are nearly exclusively produced by eukaryotes.{{Cite web|date=November 2006|title=About biomarkers|publisher=The Summons Lab, Massachusetts Institute of Technology (MIT)|url=http://www-eaps.mit.edu/geobiology/biomarkers/steroids.html|access-date=8 October 2009|url-status=dead|archive-url=https://web.archive.org/web/20200424223411/http://www-eaps.mit.edu/geobiology/biomarkers/steroids.html|archive-date=24 April 2020}} In particular, cholestanes are diagenetic products of cholesterol in animals, while stigmastanes are diagenetic products of stigmasterols in algae and land plants. However, some bacteria are now known to produce sterols and it is inferred that the ultimate origin of sterol biosynthesis is in bacteria.{{Cite journal |last1=Hoshino |first1=Yosuke |last2=Gaucher |first2=Eric A. |date=2021-06-22 |title=Evolution of bacterial steroid biosynthesis and its impact on eukaryogenesis |journal=Proceedings of the National Academy of Sciences |language=en |volume=118 |issue=25 |doi=10.1073/pnas.2101276118 |issn=0027-8424 |pmc=8237579 |pmid=34131078 |bibcode=2021PNAS..11801276H |doi-access=free }} Sterols are produced via protosterols that are direct cyclization compounds of squalene by the catalysis of oxidosqualene cyclase. All known sterols in eukaryotes are enzymatically extensively modified from protosterols, while organisms that only produce protosterols are not known. The oldest record of modified steranes are in sedimentary rocks deposited ca. 720–820 million years ago.{{Cite journal |last1=Brocks |first1=Jochen J. |last2=Jarrett |first2=Amber J. M. |last3=Sirantoine |first3=Eva |last4=Hallmann |first4=Christian |last5=Hoshino |first5=Yosuke |last6=Liyanage |first6=Tharika |date=2017-08-31 |title=The rise of algae in Cryogenian oceans and the emergence of animals |journal=Nature |volume=548 |issue=7669 |pages=578–581 |doi=10.1038/nature23457 |pmid=28813409 |bibcode=2017Natur.548..578B |s2cid=205258987 |issn=0028-0836}} In contrast, diagenetic products of protosterols (called protostanes and cyclosteranes) are widely distributed in older Proterozoic rocks and imply the presence of extinct proto-eukaryotes and/or sterol-producing bacteria before the evolution of crown-group eukaryotes.{{Cite journal |last1=Brocks |first1=Jochen J. |last2=Nettersheim |first2=Benjamin J. |last3=Adam |first3=Pierre |last4=Schaeffer |first4=Philippe |last5=Jarrett |first5=Amber J. M. |last6=Güneli |first6=Nur |last7=Liyanage |first7=Tharika |last8=van Maldegem |first8=Lennart M. |last9=Hallmann |first9=Christian |last10=Hope |first10=Janet M. |date=June 2023 |title=Lost world of complex life and the late rise of the eukaryotic crown |url=https://www.nature.com/articles/s41586-023-06170-w |journal=Nature |language=en |volume=618 |issue=7966 |pages=767–773 |doi=10.1038/s41586-023-06170-w |pmid=37286610 |bibcode=2023Natur.618..767B |s2cid=259111647 |issn=1476-4687}}
Steranes may be rearranged to diasteranes during diagenesis (C-27 to C-30, rearrangement at C-18 and C-19, no R at C-24). Oils from clastic source rocks tend to be rich in diasteranes.
Cholesterol and its derivatives (such as progesterone, aldosterone, cortisol, and testosterone), are common examples of compounds with the sterane scaffold.