Chemistry:Triterpenoid saponin

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Triterpenoid saponins are triterpenes which belong to the group of saponin compounds. Triterpene glycosides are the most common saponins in nature. Triterpenes are a type of terpene containing 30 carbon atoms. Triterpenes are assembled from a five-carbon isoprene unit through the cytosolic mevalonate pathway to make a thirty-carbon compound. Some triterpenes are steroidal in nature. Cholesterol, phytosterols and phytoecdysteroids are triterpenes. The triterpenes are subdivided into some 20 groups, depending on their particular structures. Some triterpenoid compounds are found as saponin glycosides which refers to the attachment of various sugar molecules to the triterpene unit. These sugars can be cleaved off in the gut by bacteria, sometimes allowing the aglycone (triterpene) to be absorbed into the bloodstream[1] or to insert into cell membranes.[2]

Saponin glycosides reduce surface tension of water with foaming and will break down lipids. Usually triterpene saponins are designated as such by the suffix ending –side, such as ginsenoside or astragaloside, named for the plant genera they were first discovered in. Some, such as the ginsenosides and eleutherosides are designated Rx where the suffix x = a, a1, b2, is indicative of the relative position of the saponin spots from top to bottom of a thin layer chromatogram.[1]

The plant Çöven, Gypsophila simonii is widely distributed throughout Çankırı, where it is a native species, and Turkey. In this study, chemical and physical properties of unripe saponins obtained by extraction from the roots of Gypsophila simonii, an endemic plant, were isolated and investigated. Purified aglycones recovered from acid hydrolysis of the saponins were separated by reversed chromatography on a thin layer of silica gel. Phytochemical tests showed the presence of terpenoids in the crude extracts.[3]

In plants

Chemical compound Plant source
Common name Latin name
alpha-hederin[4] black cumin Nigella sativa
araloside A spikenard Aralia mandshurica
astragaloside huang qi Astragalus membranaceus
bacoside A brahmi Bacopa monniera
cucurbitacin bryonia Bryonia alba
eleutheroside Siberian ginseng Eleutherococcus senticosus
ginsenoside ginseng Panax ginseng
gymnemic acid gurmar Gymnema sylvestre
gypenoside jiaogulan Gynostemma pentaphyllum
20-hydroxyecdysone maral root Rhaponticum carthamoides
tinosporoside guruchi Tinospora cordifolia
withanolide ashwagandha Withania somnifera

See also

References

  1. 1.0 1.1 "Archived copy". Archived from the original on 2007-05-16. https://web.archive.org/web/20070516035605/http://www.rrreading.com/publications.html. Retrieved 2007-04-27.  Robyn Klein Masters Thesis Paper, May 2004, Montana State University, Dept Plant Sciences & Plant Pathology: Phylogenetic and phytochemical characteristics of plant species with adaptogenic properties
  2. Attele, Anoja S., Wu, Ji An and Yuan, Chun-Su, 1999. Commentary: Ginseng pharmacology. Multiple constituents and multiple actions. Biochemical Pharmacology, 58, 1685-1693.
  3. Yücekutlu A.N., Bildacı,I., (2008). Determination of Plant Saponins and Some of Gypsophila Species: A review of the literature, Hacettepe J. Biol. & Chem., Volume 36, Issue 2, 129-135.
  4. "Anticancer activity of Nigella sativa (black seed) - a review". The American Journal of Chinese Medicine 39 (6): 1075–91. 2011. doi:10.1142/S0192415X1100941X. PMID 22083982. https://www.researchgate.net/publication/51798838. Retrieved 2016-05-21. "Another important active compound that has been shown to possess anticancer effects is alpha-hederin, a pentacycline triterpene and a saponin, which is water soluble perhaps the major active component in the aqueous extract of N. sativa.".