Terpenes 8 page

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Terpenes

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Terpenes is the generic term summarizing all kinds of isoprene polymers and their derivatives with its general formula of (C5H8) n. Terpene is a class of compound that is ubiquitous in the plant kingdom, but exist in very few amount in the animal kingdom. Except in the form of terpene hydrocarbons, there are a large number of terpenes forming various kinds of oxygenated derivatives including alcohols, aldehydes, ketones, carboxylic acids, esters and glycoside forms. Secondly there are also nitrogen-containing derivatives as well as a minority of sulfur-containing derivatives presented. Based on the number of the isoprene units contained inside the molecule, the terpenes can be divided into: monoterpene, sesquiterpenoid, diterpene, sesquiterpene, triterpenoids, tetraterpene and polyterpene.

For some compound which originated from the synthesis of isoprene, but has the number of carbon atoms in the molecule be not an integer multiple of 5, they are called terpenoid. In the life activities, terpenoids compound, especially inside the plants, have important functions, for example gibberellin, abscisic acid and insect juvenile hormone are important hormones, carotenoids and chlorophyll are important photosynthetic pigments; plastoquinone and quinone are respectively important electronic chain delivery body in photosynthesis and respiration chain; sterols are the component of the biological membrane.

Monoterpene and sesquiterpene are the major component of volatile oil. Diterpene is the major substance forming the resin; triterpenoid is an important material forming plant saponins and resins, tetraterpene mainly include some fat-soluble pigments widely distributed in the plants. In nature, terpenoids is widely distributed, some of which have physiological activity. For example, ascaridole and santonin have roundworm expelling effect; artemisinin has antimalarial effect while andrographolidume has antibacterial effect.

The following describes some of the chemical reactions associated with terpenes. This is significant for determination of the chemical structure of terpene component.

(1) Oxidation reaction
Different oxidants, in different situations, can oxidize the different groups contained in terpene component to produce different products. For example, chromic acid can oxidize the carbon methyl group and gem-dimethyl carbon to produce acetic acid; the oxidation reaction of ozone is a valuable double bond cleavage reaction and can determine the position of double bond in the structure of the terpene composition. Lead tetraacetate is also oxidation agents of double-bond and has been widely used in chemical research of the terpene ingredients.

(2) The dehydrogenation
Dehydrogenation reaction can be considered as a kind of oxidation reactions and is a kind of valuable reaction for the study the chemical structure of terpenes particularly cyclic terpene. It refers to that the terpene component is heated (200 ℃ ~ 300 ℃) together with sulfur or selenium under an inert atmosphere, the carbon skeleton of the cyclic terpene is dehydrogenated into aromatic derivatives with sometimes the ring being cleaved and sometimes cyclization occurring simultaneously.

(3) Addition reaction
The double bonds in the terpene components can react with hydrogen halide acids such as hydroiodic acid or hydrogen chloride in glacial acetic acid solution to generate crystalline-shaped addition product. It can also absorb bromine (diethyl ether or glacial acetic acid - ethanol solution) to generate bromide with certain physicochemical properties. If mixing the glacial acetic acid and sodium nitrite for shaking, nitrous oxide or pseudo-nitrous oxide will be generate and will exhibit visible special colors.
If the unsaturated terpene component was added with amyl nitrite and concentrated hydrochloric acid for mixing with shaking and keep it cool, then add a small amount of ethanol or glacial acetic acid, there will be chlorinated nitroso derivative of terpenes generated with special colors as well. Such nitroso derivatives (including nitrous oxides and chlorinated nitroso derivative) mostly exhibit blue or blue-green color. They are easily polymerized to form a colorless di-polymer, but when the di-polymer is heated to a molten state or when made into a solution, it can also be converted into a blue or blue-green single-molecule compound.
Nitroso chlorinated derivatives can condense with primary or secondary amines (commonly piperidine) to generate nitroso amines with most of them having complete crystal shape and certain physical and chemical constants available for the identification of unsaturated terpene components. If the terpene component molecules contain conjugated double bonds, then it will form crystalline addition product with maleic anhydride through Diels-Alder reaction which can be used to prove the presence of conjugated double bonds.

(4) Wagner-Meerweein rearrangement;
Terpene molecules, sometimes through the effect of agents (such as acid, etc.), the carbon skeleton can be changed or the functional groups in the molecule can be transferred in the molecule. Especially during the elimination reaction, addition reaction or a nucleophilic substitution reaction of bicyclic terpene compound, there is often Wagner-Meerweein rearrangement happening.

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Structure:
Chemical Name:: 11α,12α-Epoxy-13α-methyl-27-noroleana-14-ene-3β-ol acetate
CAS:: 2111-46-8
MF:: C32H50O3

Structure:
Chemical Name:: [2S,(-)]-2β-(3-Furanyl)-6β-(β-D-glucopyranosyloxy)-1,4,4aα,5,6,6a,9,10,10aα,10b-decahydro-9α-hydroxy-6aα,10bβ-dimethyl-4-oxo-2H-naphtho[2,1-c]pyran-7-carboxylic acid methyl ester
CAS:: 104901-05-5
MF:: C27H36O12

Structure:
Chemical Name:: (3aR,6S,7aR)-3a,6,7,7a-Tetrahydro-6-hydroxy-6-methyl-3-methylene-2,5(3H,4H)-benzofurandione
CAS:: 98751-78-1
MF:: C10H12O4

Structure:
Chemical Name:: 2-oxopomolic acid
CAS:: 54963-52-9
MF:: C30H46O5

Structure:
Chemical Name:: 5,19-Epoxy-19,25- dimethoxycucurbita-6,23-dien-3-ol
CAS:: 85372-72-1
MF:: C32H52O4

Structure:
Chemical Name:: Scutebarbatine Y
CAS:: 1312716-27-0
MF:: C33H35NO7

Structure:
Chemical Name:: Methyl dodovisate A
CAS:: 1246937-33-6
MF:: C21H26O3

Structure:
Chemical Name:: 3α-CinnaMoyloxypterokaurene L3
CAS:: 79406-13-6
MF:: C29H36O5

Structure:
Chemical Name:: 14-Deoxy-12-hydroxyandrographolide
CAS:: 219721-33-2
MF:: C20H30O5

Structure:
Chemical Name:: Tyromycic acid
CAS:: 865543-37-9
MF:: C30H44O3

Structure:
Chemical Name:: (4R)-10-Hydroxy-9α-methyl-20-norkaur-16-en-18-oic acid 18,10-lactone
CAS:: 73483-88-2
MF:: C20H28O2

Structure:
Chemical Name:: 1-(3-Methyl-2-furanyl)-3-methyl-2-buten-1-one
CAS:: 6138-88-1
MF:: C10H12O2

Structure:
Chemical Name:: Scutebata C
CAS:: 1207181-59-6
MF:: C28H35NO9

Structure:
Chemical Name:: Sebiferenic acid
CAS:: 94390-09-7
MF:: C30H48O4

Structure:
Chemical Name:: Senegalide
CAS:: 301530-12-1
MF:: C26H30O8

Structure:
Chemical Name:: 13-Hydroxylabda-8(17),14-dien-18-oic acid
CAS:: 83915-59-7
MF:: C20H32O3

Structure:
Chemical Name:: Meliasenin B
CAS:: 1221262-77-6
MF:: C30H44O4

Structure:
Chemical Name:: 14-deoxycaesalpin
CAS:: 279683-46-4
MF:: C24H34O6

Structure:
Chemical Name:: excisanin A
CAS:: 78536-37-5
MF:: C20H30O5

Structure:
Chemical Name:: euscaphic acid
CAS:: 53155-25-2
MF:: C30H48O5

Structure:
Chemical Name:: jolkinolide A
CAS:: 37905-07-0
MF:: C20H26O3

Structure:
Chemical Name:: MERCUSICACID
CAS:: 41787-69-3
MF:: C20H32O4

Structure:
Chemical Name:: 15-HYDROXY-7-OXODEHYDROABIETICACID
CAS:: 95416-25-4
MF:: C20H26O4

Structure:
Chemical Name:: (1S)-1,2,3,4,4a,5,6,6aα,7,11,11aβ,11b-Dodecahydro-4,4,7,11bα-tetramethylphenanthro[3,2-b]furan-1,4aβ,5β,6α,7α-pentol
CAS:: 7716-14-5
MF:: C20H30O6

Structure:
Chemical Name:: (4S)-Kaurane-2β,16,19-triol
CAS:: 67349-43-3
MF:: C20H34O3

Structure:
Chemical Name:: Imbricatoloic acid
CAS:: 6832-60-6
MF:: C20H34O3

Structure:
Chemical Name:: 22-Hydroxy-3-oxoolean-12-en-29-oic acid
CAS:: 144629-84-5
MF:: C30H46O4

Structure:
Chemical Name:: 5,19-Epoxy-25-methoxycucurbita-6,23-dien-3-ol
CAS:: 81910-39-6
MF:: C31H50O3

Structure:
Chemical Name:: Arteannuin M
CAS:: 207446-90-0
MF:: C15H24O4

Structure:
Chemical Name:: Diosbulbin I
CAS:: 1187951-05-8
MF:: C29H30O8

Structure:
Chemical Name:: ent-17-Hydroxykauran-3-one
CAS:: 960589-81-5
MF:: C20H32O2

Structure:
Chemical Name:: Scutebata B
CAS:: 1207181-58-5
MF:: C35H39NO10

Structure:
Chemical Name:: 3α-Angeloyloxypterokaurene L3
CAS:: 79406-11-4
MF:: C25H36O5

Structure:
Chemical Name:: Melilotigenin C
CAS:: 188970-21-0
MF:: C30H48O3

Structure:
Chemical Name:: Methyl dodonate A acetate
CAS:: 349487-98-5
MF:: C23H30O5

Structure:
Chemical Name:: 21αH-24-Norhopa-4(23),22(29)-diene-3β,6β-diol
CAS:: 194613-74-6
MF:: C29H46O2

Structure:
Chemical Name:: 6α,16,18-Trihydroxycleroda -3,13-dien-15,16-olide
CAS:: 1017233-48-5
MF:: C20H30O5

Structure:
Chemical Name:: (1beta,6beta,7alpha,15beta,16alpha)-7,20-Epoxykaurane-1,6,7,15,16,17-hexol 6,17-diacetate
CAS:: 90468-72-7
MF:: C24H36O9

Structure:
Chemical Name:: Oleanolic acid-3-O-beta-D-xylopyranoside
CAS:: 61617-29-6
MF:: C35H56O7

Structure:
Chemical Name:: 15-MethoxyMkapwanin
CAS:: 1309920-99-7
MF:: C21H28O5

Structure:
Chemical Name:: DEACETYL-7-XYLOSYLCEPHALOMANNINE, 10-(RG)
CAS:: 90332-64-2
MF:: C48H59NO17

Structure:
Chemical Name:: 1β-Hydroxyeuscaphic acid
CAS:: 120211-98-5
MF:: C30H48O6

Structure:
Chemical Name:: 12-DeMethylneocaesalpin F
CAS:: 1228964-10-0
MF:: C27H34O7

Structure:
Chemical Name:: 20-Deoxyingenol 3-angelate
CAS:: 75567-38-3
MF:: C25H34O5

Structure:
Chemical Name:: Taxacin
CAS:: 117229-54-6
MF:: C44H48O15

Structure:
Chemical Name:: Taxagifine
CAS:: 81489-69-2
MF:: C37H44O13

Structure:
Chemical Name:: Aphadilactone B
CAS:: 1522004-68-7
MF:: C40H52O8

Structure:
Chemical Name:: Mudanpioside H
CAS:: 231280-71-0
MF:: C30H32O14

Structure:
Chemical Name:: Sahandol
CAS:: 1452398-07-0
MF:: C20H24O2

Chemical Name:: Trigothysoid N
CAS:: 1501943-08-3
MF:: C44H58O13

Structure:
Chemical Name:: Trigoxyphin A
CAS:: 1236874-00-2
MF:: C34H34O9

Structure:
Chemical Name:: ent-11alpha-Hydroxyabieta-8(14),13(15)-dien-16,12alpha-olide
CAS:: 130466-20-5
MF:: C20H28O3

Structure:
Chemical Name:: barbinervic acid
CAS:: 64199-78-6
MF:: C30H48O5

Structure:
Chemical Name:: macrocalin A
CAS:: 10391-08-9
MF:: C20H26O5

Structure:
Chemical Name:: Curzerenone
CAS:: 20493-56-5
MF:: C15H18O2

Structure:
Chemical Name:: galloylpaeoniflorin
CAS:: 122965-41-7
MF:: C30H32O15

Structure:
Chemical Name:: 3-O-caffeoyloleanolic acid
CAS:: 97534-10-6
MF:: C39H54O6

Structure:
Chemical Name:: 15-HYDROXYDEHYDROABIETICACID
CAS:: 54113-95-0
MF:: C20H28O3

Structure:
Chemical Name:: 2-Deacetoxytaxinine J
CAS:: 119347-14-7
MF:: C37H46O10

Structure:
Chemical Name:: Coronarin D
CAS:: 119188-37-3
MF:: C20H30O3

Structure:
Chemical Name:: Epitulipinolide
CAS:: 24164-13-4
MF:: C17H22O4

Structure:
Chemical Name:: Evodol
CAS:: 22318-10-1
MF:: C26H28O9

Structure:
Chemical Name:: Ganodermanontriol
CAS:: 106518-63-2
MF:: C30H48O4

Structure:
Chemical Name:: 7β-Hydroxykaur-16-en-19-oic acid
CAS:: 126778-79-8
MF:: C20H30O3

Structure:
Chemical Name:: (4α)-p-Menthane-1α,2β,8-triol
CAS:: 62014-81-7
MF:: C10H20O3

Structure:
Chemical Name:: 23-Hydroxybetulin
CAS:: 84414-40-4
MF:: C30H50O3

Structure:
Chemical Name:: 15-r-14-oxolabda-8(17),12-dien-18-oic acid
CAS:: 1039673-32-9
MF:: C19H28O3

Structure:
Chemical Name:: Richeic acid
CAS:: 134476-74-7
MF:: C30H48O3

Structure:
Chemical Name:: Scutebarbatine A
CAS:: 176520-13-1
MF:: C32H34N2O7

Structure:
Chemical Name:: Scutebata E
CAS:: 1207181-61-0
MF:: C28H40O9

Structure:
Chemical Name:: 24-Hydroxy-25-ethoxy-3,4-seco- cycloart-4(28)-en-3-oic acid Methyl ester
CAS:: 1392210-81-9
MF:: C33H56O4

Structure:
Chemical Name:: 2β-Hydroxykolavelool
CAS:: 221466-42-8
MF:: C20H34O2

Structure:
Chemical Name:: 3-O-trans-p-CouMaroyltorMentic acid
CAS:: 121064-78-6
MF:: C39H54O7

Structure:
Chemical Name:: ent-3β-CinnaMoyloxykaur-16-en-19-oic acid
CAS:: 79406-10-3
MF:: C29H36O4

Structure:
Chemical Name:: Triptocallic acid A
CAS:: 190906-61-7
MF:: C30H48O4

Structure:
Chemical Name:: 24-Methylenecycloartane-3β,26-diol
CAS:: 17020-27-8
MF:: C31H52O2

Structure:
Chemical Name:: NeMoralisin C
CAS:: 1443421-84-8
MF:: C20H28O5

Structure:
Chemical Name:: Borapetoside F
CAS:: 151200-50-9
MF:: C27H34O11

Structure:
Chemical Name:: Gopherenediol
CAS:: 916236-79-8
MF:: C20H34O2

Structure:
Chemical Name:: Dehydroborapetoside B
CAS:: 1221178-16-0
MF:: C27H34O12

Structure:
Chemical Name:: Rabdoternin F
CAS:: 155977-87-0
MF:: C21H30O7

Structure:
Chemical Name:: 7α,15-Dihydroxydehydroabietic acid
CAS:: 155205-64-4
MF:: C20H28O4

Structure:
Chemical Name:: Bonducellpin D
CAS:: 197781-85-4
MF:: C22H28O7

Structure:
Chemical Name:: IsoliMonexic acid
CAS:: 73904-93-5
MF:: C26H30O10

Structure:
Chemical Name:: Taxinine J
CAS:: 18457-46-0
MF:: C39H48O12

Structure:
Chemical Name:: DARUTOSIDE
CAS:: 59219-65-7
MF:: C26H44O8

Structure:
Chemical Name:: 10-epi-γ-eudesmol
CAS:: 15051-81-7
MF:: C15H26O

Structure:
Chemical Name:: 1a,1b,2,3,4,5,7a,8,8a,9,10,10a-Dodecahydro-2-hydroxy-6-(hydroxymethyl) -3,8,8,10a-tetramethyl-5-oxo-4aH-cyclopenta(3,4)cyclopropa(8,9)cycloun dec(1,2-b)oxiren-4a-yl ester
CAS:: 62820-11-5
MF:: C29H36O6

Structure:
Chemical Name:: Methyl 15-hydroxy-7-oxoabieta-9(11),8(14),12-trien-18-oate
CAS:: 60188-95-6
MF:: C21H28O4

Structure:
Chemical Name:: trianthenol
CAS:: 333361-85-6
MF:: C40H78O

Structure:
Chemical Name:: 1β－Dehydroxybaccatin IV
CAS:: 57672-78-3
MF:: C32H44O13

Structure:
Chemical Name:: BaccatinIV
CAS:: 57672-77-2
MF:: C32H44O14

Structure:
Chemical Name:: Coronarin A
CAS:: 119188-33-9
MF:: C20H28O2

Structure:
Chemical Name:: Maytenoic acid
CAS:: 33600-93-0
MF:: C30H48O3