a presentation on terpenoids final 1488237641076
TRANSCRIPT
A PRESENTATION ON TERPENOIDS
Presented by
Ayesha Choudhury
m.Pharm 2nd sem
Deptt. Of pharm. sciences
INTRODUCTION
TERPENOIDS:
Terpenoids are defined as the hydrocarbons of plant origin having the general formula -(C5H8)n where n is the
number of linked isoprene (2-methyl-1,3-butadiene) units (isoprenoids). Terpenoids can be thought of as modified
terpenes. However the term terpene is misnomer and restricted to the hydrocarbons C10H16 as the suffix “ene”
signifies unsaturated hydrocarbons and so the term terpene is in appropriate to compound having aldehyde, ketone &
alcohol functionality i.e., terpenoids.
OCCURANCE:
Terpenoids form a group of compounds, the majority of which occurs in plant kingdom.
• Mono and sesquiterpenoids are the essential oils obtained from sap and tissues of plants and trees.
• Di and Tri Terpenoids are obtained from plant and tree gums and resins.
• Tetra terpenoids form a group of compounds known as carotenoids.
• Polyterpenoid : Rubber .
CLASSIFICATION OF TERPENOIDS
Most natural terpenoids hydrocarbon have the general formula (C5H8)n. They can be classified on the basis of value of
‘n’ i.e., isoprene unit or number of carbon atoms present in the structure.
Each class can be further subdivided into subclasses according to the number of rings present in the structure:
i) Acyclic Terpenoids: They contain open structure e.g., citral
ii) Monocyclic Terpenoids: They contain one ring in the structure e.g., menthol
iii) Bicyclic Terpenoids: They contain two rings in the structure. E.g., camphor.
iv) Tricyclic Terpenoids: They contain three rings in the structure. E.g., abietic acid
v) Tetracyclic Terpenoids: contain four rings in the structure. E.g., gibberellic acid
ISOPRENE RULE
In 1887, Wallach pointed out the isoprene rule from the following facts:
• The empirical formula of almost all naturally occurring terpenoids is -(C5H8)n
• Thermal decomposition of almost all terpenoids gives isoprene as one of the products.
• Confirmed by:
2C5H8 heat , 280⁰c C10H16
nC5H8 polymerization -(C5H8)n
Special isoprene rule:
• Proposed by Ingold in 1925
• Isoprene units in terpenoids are linked in “ head to tail” fashion.
• The branched end (head) is isopropyl and other end being the (tail)
ISOLATION OF TERPENOIDS
The above four methods are used for isolating the essential oil containing mixture of terpenoids.
The next step is the separation of terpenoids from essential oil: it involves two methods
Chemical methods: involves treating the essential oil with some chemical agents like nitrosyl
chloride, phthalic anhydride etc.
Physical methods: involves fractional distillation method and gas chromatography(modern
method)
STRUCTURE ELUCIDATION OF SOME TERPENOIDS
General methods:
Molecular formula
Nature of oxygen atom present: generally terpenoids have alcoholic, carbonyl or carboxylic acid as oxygen function.
E.g.,
Unsaturation:
Dehydrogenation:
Oxidative degradation
Spectroscopic studies.
STRUCTURAL ELUCIDATION OF MENTHOL
Chemical formula: C10H20O, m.p. 34 °C, b.p. 213 °C
Menthol is an optically active compound & only the levo (-)form occurs naturally in
peppermint oil obtained from Mentha piperita.
It is a saturated compound under monocyclic monoterpenoids. MENTHOL
Molecular formula of menthol was determined as C10H20O. On treatment with phosphorus pentachloride and
phosphorus pentoxide menthol gave a chloride C10H19Cl and a hydrocarbon C10H18 respectively, inferring
that it is an alcohol.
Menthol was oxidized by chromic acid to a ketone, Menthone to
prove that menthol contained a secondary hydroxyl group.
Menthol was converted to p-cymene identified as
1-methyl-4-isopropylbenzene, which was also obtained by the
dehydrogenation of pulegone whose structure was established as
p-menth-4-(8)-en-3-one by chemical methods and confirmed by its
synthesis Therefore menthol must possess the same skeleton as
pulegone.
Pulegone on reduction yielded menthone, which on further reduction
gave Menthol. Correlation of pulegone with menthol proved the
structure of menthol
Stereochemistry:
Menthol has three asymmetric centers namely
C1, C3 and C4. In view of the three chiral centers,
eight optically active forms are possible and all
the eight enantiomers are known.
Four isomers are shown in Figure.
Finally the structure of menthol was proved
by its synthesis:
STRUCTURAL ELUCIDATION OF CAMPHOR
Camphor is solid ketone obtained from volatile oil of Cinnamomum camphora under the family Lauraceae,
mp: 180⁰c, bp: 204 ⁰c. optically active.
The molecular formula is C10H16O (bicyclic monoterpenoid)
Nature of oxygen atom: it is ketone as it forms oxime with NH2OH & phenyl hydrazine with
phenylhydrazine
Presence of bicyclic ring system: the parent hydrocarbon of camphor has molecular formula C10H18, which
corresponds to the molecular formula of bicyclic compounds(CnH2n-2)
Presence of six membered ring: when distilled with ZnCl2/P2O5 it forms p-cymene.
Presence of –COCH2- group in camphor is confirmed by its formation to isonitroso derivative with amyl nitrile &
HCl.
Camphor on oxidation with HNO3 gives camphoric acid & camphoronic acid .
Camphoronic acid is saturated tricarboxylic acid & on distillation at atm pressure gives:
Bredt suggested that camphoronic acid is 2,3-dimethyl-1,2,3-butanetricarboxylic acid, hence having 3 –CH3 group so
camphor must have 3-methyl group.
On the basis of the formula of camphoric acid “C10H16O4” it was found that camphoric acid is a
cyclo pentane derivative and the structure was proposed as:
Bredt proposed the following reaction to show the relationship between camphor, camphoric acid
& camphoronic acid and established the structure of camphor.
[o] [o]
thank you