This document discusses flavonoids, which are polyphenolic compounds found in plants. It provides an introduction to flavonoids, including their structure, occurrence in plants, and functions. It also describes methods for isolating, extracting, and determining the structures of flavonoids, such as using chromatography, ultraviolet and infrared spectroscopy, and nuclear magnetic resonance spectroscopy. Key tests for detecting flavonoids include the Shinoda test and sodium hydroxide test.
Extraction, isolation and structure elucidation of flavonoids: QuercetinMohammad Khalid
Extraction, isolation and structure elucidation of- Flavonoids Quercetin
Introduction
FLAVONOIDS & THEIR EXAMPLES
Quercetin
general isolation method
Extraction and isolation
Extraction from neem leaves
Isolation of Quercetin Methanolic Extract of Azadirachta indica leaves
Structure elucidation of Quercetin
Health benefits
Side Effects of Quercetin
Flavonoids classification, isolation and identificationMona Ismail
Flavonoids are groups of polyphenolic compounds which are found in fruits, flowers, seeds & vegetable.
(named from the Latin word flavus meaning yellow, their colour in nature)
Extraction, isolation and structure elucidation of flavonoids: QuercetinMohammad Khalid
Extraction, isolation and structure elucidation of- Flavonoids Quercetin
Introduction
FLAVONOIDS & THEIR EXAMPLES
Quercetin
general isolation method
Extraction and isolation
Extraction from neem leaves
Isolation of Quercetin Methanolic Extract of Azadirachta indica leaves
Structure elucidation of Quercetin
Health benefits
Side Effects of Quercetin
Flavonoids classification, isolation and identificationMona Ismail
Flavonoids are groups of polyphenolic compounds which are found in fruits, flowers, seeds & vegetable.
(named from the Latin word flavus meaning yellow, their colour in nature)
Introduction, classification, isolation, purification, biological activity of alkaloids, general methods of structural determination of alkaloids, structural elucidation of Morphine, Reserpine and Emetine
Alkaloids are a group of naturally occurring chemical compounds that mostly contain basic nitrogen atoms.
The term alkaloid was coined by Meissner, a German pharmacist, in 1819.
Alkaloids are cyclic organic compounds containing nitrogen in a negative state of oxidation with limited distribution among living organisms.
Most alkaloids contain oxygen in their molecular structure; those compounds are usually colorless crystals at ambient conditions.
Some alkaloids are colored, like berberine (yellow) and sanguinarine (orange).
Most alkaloids are weak bases, but some, such as theobromine and theophylline, are amphoteric.
Many alkaloids dissolve poorly in water but readily dissolve in organic solvents.
Most alkaloids have a bitter taste or are poisonous when ingested.
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synthesis of hetero-cyclic drugs which act as anti-malarial drugs where you get all information about synthesis, preparation, properties, uses of drugs.
Active constituent of drugs used in diabetic therapyAkshay Kank
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Introduction, classification, isolation, purification, biological activity of alkaloids, general methods of structural determination of alkaloids, structural elucidation of Morphine, Reserpine and Emetine
Alkaloids are a group of naturally occurring chemical compounds that mostly contain basic nitrogen atoms.
The term alkaloid was coined by Meissner, a German pharmacist, in 1819.
Alkaloids are cyclic organic compounds containing nitrogen in a negative state of oxidation with limited distribution among living organisms.
Most alkaloids contain oxygen in their molecular structure; those compounds are usually colorless crystals at ambient conditions.
Some alkaloids are colored, like berberine (yellow) and sanguinarine (orange).
Most alkaloids are weak bases, but some, such as theobromine and theophylline, are amphoteric.
Many alkaloids dissolve poorly in water but readily dissolve in organic solvents.
Most alkaloids have a bitter taste or are poisonous when ingested.
MORPHINE AS A LEAD DRUG MOLECULE COMPOUNDShikha Popali
THE ADDICTED DRUG MORPHINE AN ALKALOID USED TO TREAT SOME DISEASE , HERE WE HAVE ATTEMPT ALL DATA ITS STURECTURE MECHANISM OF ACTION, SAR AND APPLICATIONS.
synthesis of hetero-cyclic drugs which act as anti-malarial drugs where you get all information about synthesis, preparation, properties, uses of drugs.
Active constituent of drugs used in diabetic therapyAkshay Kank
In this slide the active constituents which is isolated from herbal sources used for to treat the type 1 and type 2 diabetes is covered. 'Gymnema' and 'swerita chirata' herbal plant is also covered in the slide.This work help in to focus the herbal emphasis on diabetes.
content
Flavonoids (importance, Physiological role and Therapeutic uses).
Flavonoids biosynthesis, General Properties and Tests for identity.
Flavone Glycosides (Diosmin and Apiin)
Flavonol Glycosides (rutin and Quercetrin)
Flavanone Glycosides (Hesperidin)
Silymarin (flavonolignans)
Isoflavonoids (Genistein)
Coumarin Glycosides
1. Definition, Classification, Properties and Qualitative Chemical tests of Alkaloids
2. Definition, Classification, Properties and Qualitative Chemical tests of Glycosides
3. Definition, Classification, Properties and Qualitative Chemical tests Flavonoids
4. Definition, Classification, Properties and Qualitative Chemical tests of Tannins
5. Definition, Classification, Properties and Qualitative Chemical tests of Volatile oils
6. Definition, Classification, Properties and Qualitative Chemical tests Resins
These are the organic products of natural or synthetic origin which are basic in
nature & contain one or more than one nitrogen atoms, normally of heterocyclic nature &
possess specific physiological actions on human or animal body, when used in small quantites.
The term is derived from the word ‘alkali-like’ & hence they resemble some of characters
of naturally occuring amines.
The term is derived from the word ‘alkali-like’ & hence they resemble some of
characters of naturally occuring amines.
This ppt contains a suitable contents. This notes is effective for B.Pharm & D.Pharm students. In this notes we all the related topic of secondary metabolites. In this notes we all sub topics of secondary metabolites such as Alkaloids, Glycosides, Terpenoids, Taninns, Resins, Flavonoids, etc.
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Unit three of chemistry of natural products, consist of the method of extraction, isolation and structure elucidation of Glycoside(digoxin), Flavanoids( quercetin), Lignans( Podophyllotoxin), Purines (caffeine)
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4. INTRODUCTION
Flavonoids are a group of polyphenolic compounds, which are found in fruits, flowers,
seeds and vegetable.
The word Flavonoids derive from latin word ‘flavus’ means yellow, their colour in
nature
Flavonoids are a secondary metabolites
Flavonoids are absorbed from the gastrointestinal tracts of humans and animals and are
excreted either unchanged or as flavonoid metabolites in the urine and feces.
Flavonoids are potent antioxidants, free radical scavengers, and metal chelators and
inhibit lipid peroxidation.
They occur either in free state or as glycosides or associated with tannins
Anthroxanthines also occur as colorless glycosides in the white corollas of several
flowers which on treatment with ammonia (NH3) vapor turns yellow
5. OCCURENCE
Role in plant defense mechanism
They have a very limited role in this respect due to their low toxicity when compared
with other plant secondary metabolites such as alkaloids
Flavonoids constitute one of the most characteristic classes of compounds in higher
plants.
Flavonoids are found in higher vascular plants, particularly in the flower, leaves and
bark. They are especially abundant in fruits, grains and nuts, particularly in the skins.
Beverages consisting of plant extracts (beer, tea, wine, fruit, juice) are the principle
source of dietary flavonoid intake.
6. STRUCTURE OF FLAVONOIDS
The flavonoids are possessing 15 carbon atoms two benzene
rings joined by a linear three carbon chain the skeleton can be
represented as the C6 – C3 –C6 system
7.
8.
9. REMOVE TANNINS FILTRATION
ACIDIFIED WITH HCL
EXTRACT WITH ALCOHOL
FRACTIONAL
CRYSTALLIZATION
GENERAL METHOD OF ISOLATION
EXTRACT WITH LEAD ACETATE
HOT WATER
Plant material
(Flavone/Flavanol)
Sugar free
Flavone/Flavanol
Aqueous extract
Alcoholic phase
Flavone/Flavanol
Aqueous phase
PPT
Desired Flavonoid
10. EXTRACTION
Traditional extraction methods of flavonoids often cause the problems of
inefficiency, high energy consumption, more solvent consumption and so
on. The new extraction methods and technologies occurred in recent
years promoted the development of flavonoids. Because of the numerous
types of flavonoids, the single extraction methods generally cannot meet
the requirement. Traditional and modern methods should be applied
together according to the extraction purpose.
11. TRADITIONAL EXTRACTION METHODS
Ethanol and methanol are frequently used to extract flavonoids.
The common extraction methods include dipping, percolation, reflux, continuous reflux and so on.
The alcohol of high concentration (90–95%) is applied to extract free flavonoids, and the alcohol at the
concentration of about 60% is applied to extract flavonoid glycosides. For example, reflux method was applied to
extract total flavonoids from leaves of Ginkgo biloba with 70% ethanol, and the product yield was significantly
higher than the water decoction method
Hot water extraction method is applied to flavonoid glycosides. It possesses the advantages of low cost, safety,
simple equipment and could be applied in industrial production, but much water‐soluble impurities, such as
proteins and saccharides might be mixed into the product.
Most of the flavonoids are acidic because of hydroxyl or carboxyl groups, so they could be extracted with alkaline
water or alkaline dilute alcohol. The commonly used solvents include dilute sodium hydroxide, lime water, 5%
sodium hydroxide dilute ethanol solution and so on.
Water‐soluble impurities, such as tannins, pectin's and mucilage's, could be precipitated because of the formation
of calcium salts during the extraction with lime water. It has often showed good results if 5% sodium hydroxide
dilute ethanol solution was used. However, the product yield might be reduced because some flavonoids obtained
after acidification might be dissolved in dilute ethanol solution. It should be noted that the concentration of alkali
should not be excessive during the extraction, and the acidity of the solvent should not be excessive during
acidification. Additionally, sodium borate should be used if adjacent phenolic hydroxyl groups are existed in the
structures. Extraction of rutin from Flos Sophorae Immaturus is one example
12. Isolation
Flavonoids (particularly glycosides) can be degraded by enzyme action when collected plant material is
fresh or non-dried.
It is thus advisable to use dry, lyophilized, or frozen samples.
When dry plant material is used, it is generally ground into a powder.
For extraction, the solvent is chosen as a function of the type of flavonoid required and hence polarity is
an important consideration here.
Less polar flavonoids (e.g., isoflavones, flavanones, methylated flavones, and flavonols) are extracted
with chloroform, dichloromethane, diethyl ether, or ethyl acetate,
While flavonoid glycosides and more polar aglycones are extracted with alcohols or alcohol–water
mixtures.
Glycosides have increased water solubility and aqueous alcoholic solutions are suitable.
13. General methods
The isolation of flavonoids includes the separation of flavonoids and other kinds of compounds, and the obtaining of
monomeric compounds. The choosing of isolation methods is made primary according to polarity, acidity, molecular
weight difference and special structure. Chromatography is still the first choice to isolate flavonoids.
Silica gel chromatography
Silica gel chromatography is the main method to isolate or identify flavonoids. It is applied to isolate low
medium polar constituents. Reversed phase silica gel (e.g. reversed phase C18 silica gel) is commonly
to isolate flavonoid glycosides.
Polyamide chromatography
Polyamide is a good adsorbent to isolate flavonoids. The adsorption strength hinges on hydrogen
associated between polyamide and flavonoids, which depends on the number and positions of hydroxyl
groups in the molecules of flavonoids.
14. Polydextran gel chromatography
The most commonly used polydextran gel is sephadex LH‐20 during the isolation of flavonoids. Adsorption
is the main mechanism during the isolation of free flavonoids, and the adsorption strength is mainly based
on the phenolic hydroxyl groups. However, molecular sieve effect plays the leading roles during the
isolation of flavonoid glycosides.
15. STRUCTURE IDENTIFICATION OF
FLAVONOIDS
Generally, structure determination of flavonoids can be achieved easily because of the systematic
research of their structures and the progress of spectroscopic technologies (Nuclear Magnetic
Resonance spectroscopy, especially). Series of spectroscopic technologies, such as IR, UV, NMR,
and MS, are often used during structure identification of flavonoids. In rare cases, total synthesis
should be applied to verify the elucidated structures.
16. ULTRAVIOLET SPECTRUM (UV)
The positions, types and number of substituents in the conjugated systems could be
speculated via means of UV spectrum. Most of the flavonoids in methanol possess
two main absorption bands. Band I is at 300–400 nm, which is caused by electron
transition of cinnamoyl group. Band II is at 240–280 nm, which is caused by
electron transition of benzoyl group, as shown in Figure. The structure types and
oxygen‐bearing substituent types of flavonoids could be determined by the peak
locations, shapes and strengths of band I and II, as shown in Table
17.
18. The locations and shapes of Band I and II will be affected by the substituents attached to rings
A and B.
Normally, red shift of band I increases accordingly when the number of hydroxyl groups
located at ring B increases.
Similarly, red shift of band II increases accordingly when the number of hydroxyl groups
located at ring A increases,
but it has trifling impact to band I, with the exception of 5‐OH. The corresponding bands will
be violet shifted 5–15 nm if the particular hydroxyl is glycosided. Furthermore, the influence of
the hydroxyl groups will almost disappear if they are acetylated.
19. INFRARED SPECTRUM (IR)
It is used mainly to determine the types of functional groups, substitution modes of
aromatic rings and so on.
The all functional groups, such as carbonyl, phenolic hydroxyl, phenyl and
glycosyl, have possessed corresponding IR absorptions.
The absorption band of hydroxyl groups are in the 3200–3650 cm−1 region,
carbonyl groups are in 1660–1680 cm−1 region and the vibrations of benzene rings
are at about 1500, 1580 and 1600 cm−1.
20. NUCLEAR MAGNETIC RESONANCE SPECTRUM
(NMR)
Nuclear magnetic resonance spectrum (NMR) is the most powerful method to
elucidate the structures of flavonoids. Kinds of solvents, such as CDCl3,
DMSO‐d6, C5D5N, (CD3)2CO and CD3OD, could be employed while performing
NMR experiments.
DMSO‐d6 is the optional solvent among them to perform NMR to flavonoids.
Almost all kinds of flavonoids could be well dissolved in DMSO‐d6, and the
resonance signals of flavonoids are rarely overlapped by solvent peaks
(about δ2.5).
Furthermore, NMR signals of phenolic hydroxyl groups could be displayed
clearly with DMSO‐d6 as the solvent. The drawback of this solvent is high boiling point,
which leads to difficulty in sample recovery.
21. Tests for detection
Shinoda test: To the ethanolic extract + added four pieces of magnesium fillings
(ribbon) + few drops of concentrated HCl. A pink or red color indicates the
presence of flavonoid.
– orange to red indicated flavones,
– red to pink indicated flavonoids,
– pink to magenta indicated flavanones.
Sodium hydroxide test: to the aqueous extract + add 10% aqueous sodium
hydroxide. This gives a yellow color. A change in color from yellow to colorless
on addition of dilute HCl is an indication for the presence of flavonoids.
p-Dimethylaminocinnamaldehyde test: A colorimetric assay based upon the
reaction of A-rings with the chromogen p-dimethylaminocinnamaldehyde
(DMACA) has been developed for flavonoids in beverages that can be compared
with the vanillin procedure.
22. Elucidation of Quercetin
Widely distributed pigments occurs as rhamnosides (quercetin) in the bark of
Quercus tinctoria.
Quercetin Rhamnose + Quercetin
Molecular formula is C15H10O7
It was found to contain four hydroxyl groups as it forms Penta acetyl and
pentamethyl group.
On fusion with KOH, it gives Phloroglucinol + protocatechuic acid. Acidity
indicates that quercetin is 5,7,3’,4’ – tetrahydroxy flavanol
23. The structure was further supported by the fact that on boiling with alcoholic potash
pentamethyl quercetin gives 6-OH, ω,2,4-trimethyl acetophenone and veratric acid.
24. The structure was further supported by its synthesis from Kostaneck‘s Synthesis using ,2,4
dimethoxy,6-hydroxy acetophenone and 3,4-dimethoxy benzaldehyde as starting materials