Phytochemical study of Algerian Opuntia ficus-indica

Similar documents
EXTRACTION. Extraction is a very common laboratory procedure used when isolating or purifying a product.

FAT, TOTAL (Hydrolysis)

ANTIOXIDANT ACTIVITY

A Comparative Study on Casein and Albumin Contents in Cow and Commercial Milk Samples

Analysis of Vegetables and Fruit Juices

An Economic And Simple Purification Procedure For The Large-Scale Production Of Ovotransferrin From Egg White

EXPERIMENT #3: Extraction and Drying Agents: Extraction of Caffeine from Tea

Analysis of tea powder for adulterant

Determination Of Saponin And Various Chemical Compounds In Camellia Sinensis And Genus Ilex.

CHAPTER 8. Sample Laboratory Experiments

Preferred by the Japanese over Imported Beef

Rapid Analysis of Soft Drinks Using the ACQUITY UPLC H-Class System with the Waters Beverage Analysis Kit

Extraction of Caffeine From Coffee or Tea

Lab 2. Drug Abuse. Solubility and Colligative Properties of Solutions: Coffee, Soda, and Ice Cream

Journal of Chemical and Pharmaceutical Research, 2017, 9(9): Research Article

Supporting information for J. Med. Chem., 1992, 35(16), , DOI: /jm00094a025 BLOOM

Aristotle University of Thessaloniki School of Chemical Engineering Department of Organic Chemistry

Application Note FP High Sensitivity Coumarin Analysis. Introduction. Keywords

Synthesis 0732: Isolating Caffeine from Tea

AN ENOLOGY EXTENSION SERVICE QUARTERLY PUBLICATION

Lab 2. Drug Abuse. Solubility and Colligative Properties of Solutions: Coffee, Soda, and Ice Cream

3. Aspirin Analysis. Prelaboratory Assignment. 3.1 Introduction

The role of CACTUS PEARS for human consumption

icbse.com Ankit Bahuguna (Name and signature of the student)

DETERMINATION OF CAFFEINE IN TEA SAMPLES. Know how much caffeine you are Taking in with each cup of tea!

Activity Sheet Chapter 5, Lesson 5 Using Dissolving to Identify an Unknown

depend,: upon the temperature, the strain of

Determination of the concentration of caffeine, theobromine, and gallic acid in commercial tea samples

Samples: Standard solutions of rutin, quercetina, rosmarinic acid, caffeic acid and gallic acid. Commercial teas: Green, Ceilan, Hornimans and Black.

The Separation of a Mixture into Pure Substances

Use of Accelerated Solvent Extraction (ASE) with Centrifugal Evaporation to Automate Fat Determination in Chocolate

Experiment 6 Thin-Layer Chromatography (TLC)

Mixtures and Solutions Stations Lesson Plan by Clara Welch Based on FOSS & Kitchen Chemistry by John Bath, Ph. D. and Sally Mayberry, Ed. D.

Encapsulated Flavours New Horizons for the Delivery of Aroma and Taste Flander s Food Technology Day, Brussels, September 29-30, 2010

STUDIES ON THE CHROMATIC CHARACTERISTICS OF RED WINES AND COLOR EVOLUTION DURING MATURATION

! " # # $% 004/2009. SpeedExtractor E-916

Exploring Attenuation. Greg Doss Wyeast Laboratories Inc. NHC 2012


Separating the Components of a Mixture

General overview of the two stages of the QuEChERS technique. Stage 1: Sample extraction. Stage 2: Sample cleanup

Unit code: A/601/1687 QCF level: 5 Credit value: 15

Separating the Components of a Mixture

Int J Ayu Pharm Chem. e-issn

SYNTHESIS OF SALICYLIC ACID

Science Project for ICCE General Level

Chapter 14 Tex-619-J, Analysis of Water for Chloride and Sulfate Ions

Development of antioxidant soluble drinking powder from mamao (Antidesma ghaesembilla) fruit extract

CARTHAMUS TINCTORIUS L., THE QUALITY OF SAFFLOWER SEEDS CULTIVATED IN ALBANIA.

Wine-Tasting by Numbers: Using Binary Logistic Regression to Reveal the Preferences of Experts

KEY STEPS OF ROSE WINEMAKING. Eglantine Chauffour, Enartis USA

10. THE ROLE OF PLANT GROWTH REGULATORS IN THE DEVELOPMENT, GROWTH AND MATURATION OF THE FRUIT

Oregon Wine Advisory Board Research Progress Report

SELECTION AND IMMOBILIZATION OF ISOLATED ACETIC ACID BACTERIA ON THE EFFICIENCY OF PRODUCING ACID IN INDONESIA

Phytochemical Analysis of Leaf Extract of Cnidoscolus chayamansa McVaugh

Volume NaOH ph ph/ Vol (ml)

A novel method for screening peptides that bind to proteins by using multiple fluorescent amino acids as fluorescent tags

Varietal Specific Barrel Profiles

CHAPTER 4 ISOLATION OF ANTIFUNGAL COMPOUNDS FROM C. dentata (Burm.f) C.A. Sm.

Preparation 1: Chloroform

Avocado. recipe or working method? WLODEK. Wlodzimierz S. BOREJSZA-WYSOCKI Ph.D. IR-4 Southern Regional Laboratory Research Director

Oregon Wine Advisory Board Research Progress Report

LABORATORY PRACTICES IN WINE ANALYSIS. Dpto. Nutrición y Bromatología II. Facultad de Farmacia. UCM

15. Extraction: Isolation of Caffeine from Tea

Prototocatechualdehyde methylenation. Photo-essay.

HYDROGEN-ION CONCENTRATION OF PROTOZOAN CULTURES.

CHEMISTRY INVESTIGATORY PROJECT

Influence of Geographical Location on the Antioxidant Activity of Green Tea

Determination of Melamine Residue in Milk Powder and Egg Using Agilent SampliQ Polymer SCX Solid Phase Extraction and the Agilent 1200 Series HPLC/UV

ISSN : Ultrasonic extraction method for alizarin from roots of Morinda citrifolia

TOASTING TECHNIQUES: Old World and New World RESEARCH. Joel Aiken and Bob Masyczek, Beaulieu Vineyard Maurizio Angeletti, Antinori Winery

Beer Clarity. Brad Smith, PhD

Enzymes in Industry Time: Grade Level Objectives: Achievement Standards: Materials:

Why CACTUS PEARS? A perspective on South African spineless cactus pears: research and development

Lab Manual on Non-conventional Yeasts

Emerging Applications

Phytochemical Screening and Antimicrobial Properties of a Common Brand of Black Tea (Camellia sinensis) Marketed in Nigerian Environment

Peppermint Tea (Bags)

Activity 2.3 Solubility test

Analytical Method for Coumaphos (Targeted to agricultural, animal and fishery products)

The Effect of ph on the Growth (Alcoholic Fermentation) of Yeast. Andres Avila, et al School name, City, State April 9, 2015.

Practical 1 - Determination of Quinine in Tonic Water

BIO Lab 4: Cellular Respiration

Rose Water Distillation

Quantitative Measurement of Sesquiterpenes in Various Ginger Samples by GC-MS/MS

ASSESSMENT OF NUTRIENT CONTENT IN SELECTED DAIRY PRODUCTS FOR COMPLIANCE WITH THE NUTRIENT CONTENT CLAIMS

LAB: One Tube Reaction Part 1

Influence of climate and variety on the effectiveness of cold maceration. Richard Fennessy Research officer

Avocado sugars key to postharvest shelf life?

Rooibos Extracts. Rooibos extract has a shelf life of 36 months.

PRESENCE OF YELLOW 6, AN ARTIFICIAL COLOUR ADDITIVE IN ORANGE JUICE

Food Safety in Wine: Removal of Ochratoxin a in Contaminated White Wine Using Commercial Fining Agents

Sample Questions for the Chemistry of Coffee Topic Test

FACULTY OF SCIENCE DEPARTMENT OF FOOD TECHNOLOGY (DFC) NOVEMBER EXAMINATION

Comparative determination of glycosides in senna by using different methods of extraction (Soxhlet, maceration and ultrasonic bath)

Determination of catechins in wines 1 )

CORRELATIONS BETWEEN CUTICLE WAX AND OIL IN AVOCADOS

Unique Carbohydrate Profiles In Different Brands of Tequila

Separation of Ovotransferrin and Ovomucoid from Chicken Egg White

Milk An opaque white fluid rich in fat and protein, secreted by female mammals for the nourishment of their young.

Extraction of Acrylamide from Coffee Using ISOLUTE. SLE+ Prior to LC-MS/MS Analysis

Transcription:

Available online at www.scholarsresearchlibrary.com Annals of Biological Research, 2013, 4 (2):185-189 (http://scholarsresearchlibrary.com/archive.html) ISSN 0976-1233 CODEN (USA): ABRNBW Phytochemical study of Algerian Opuntia ficus-indica Hanane Dib*, M. Chokri Beghdad and Meriem Belarbi Laboratory of Natural Products, Department of Molecular and Cell Biology, Tlemcen, Algeria ABSTRACT Some chemical compounds distribution in three parts (cladodes, flowers and seeds) belonging to Cactaceae family were assessed and compared. The plant investigated was Opuntia ficus-indica Mill (pickly pear), which were found to contain flavonoids, tannins, reducing compounds and fatty acids. Coumarins were absolutely absent in tree parts of the plant. Alkaloids were present in the seeds of Opuntia ficus-indica but absent in cladodes and flowers unlike anthocyaosids and anthracenodis wich were present in flowers but absent in cladodes and seeds. Keywords: Opuntia ficus-indica Mill, phytochemical constituents, essential oil, Tannins, flavonoids, Alkaloids, Saponins. INTRODUCTION Cactus pear or pickly pear, a member of the cactaceae family, which is widely distributed in Mexico, has the widest germplasm variability as well as the highest number of uses, and also grows in several other parts of the world such as Africa,Australia,the Mediterranean basin, and some parts of Asia. It was dispersed around the globe during the two centuries after the arrival of Christopher Colon to the Americas in the late 15th century. Nowadays it can be found in North and South Africa, the Near East and as far as inland China [1, 2, 3]. It is used in traditional medicine and as a source of vegetal nutriments in many countries. It is claimed to be an excellent source of natural oligoelements which may improve human health and nutrition [4].Cactus extracts have shown anti-tumoral [5] and anti oxidant activities [6,7]. MATERIALS AND METHODS The plant studied was harvested in April 2011 in the region Ain-Youcef of Tlemcen (Algeria), it was identified at the laboratory of Ecology and Management of Natural Ecosystems of the University of Tlemcen (Algeria). The three plant parts (cladodes, flowers and seeds) are dried and finely ground using a coffee grinder to allow a good extraction of plant constituents, then stored in glass vials protected from light. The researches of organic compounds are performed on different extracts prepared from different parts of the plant. During the phytochemical examination, three solvents of different polarity (water, diethyl ether, ethanol) are used for the extraction of different families of chemical compounds. Preparation of ethanolic extract: The ethanolic extract was prepared by a mixture of 50 g dried powdered samples in 300 ml of ethanol under reflux for1h. The extract is filtered by using Whatman filter paper. The filtrate was used for phytochemical screening. 185

Test of flavonoids: Treat 5 ml of alcoholic extract with a few drops of concentrated HCl and 0.5 g of magnesium turnings[8]. Test of tannins: In a test tube,1 ml of ethanolic solution was added to 2 ml of water and 2-3 drops of diluted solution of FeCl3and observed for a green, a blue black or a blue - green coloration, which shows the presence of tannins[9]. Test for alkaloids: 20mL of the extract was added to 5mL of HCl (10%). At this acidic medium heated in a water bath,was added a volume of NH4OH (10%) until obtain a medium of ph= 9which was extracted with diethylic ether and concentrate with a rotary evaporator.the residue will be taken in 0.5 ml of HCl (2%),divide into two equal parts. The first was treated with a few drops of Mayer's reagent and the second with Wagner's reagent. Observation: turbidity or precipitation[10]. Test for sterolicheterosides and triterpenicheterosides:amixture of 0.5mLof acetic anhydride and 0.5mL of CHCl3 was added to the residue obtained after evaporation of ethanolic solution (10mL). The filtrate was treated with Liebermann's reagent Burchardt. If a solution is blue - green appears, it indicates the presence ofsterolichetero sides if it is violet- green, it indicates the presence of triterpenicheterosides[11]. Test for reducing compounds:2 ml of aqueous solution was added at 1 ml of the alcoholic solution and 20 drops of Fehling's solution, heat the solution. A brick red precipitate marks the presence of carbohydrates [9]. Test of coumarins:15ml of HCl (10%) was added to 25mL of ethanolicsolution, and heated under reflux for 30min and strain the mixture. The residue was extracted with 15 ml of etherin triplicate. Divide the filtrate into three equal parts, evaporate the first in a rotary evaporator, dissolve the residue in 1mL of water and divide the volume into two parts, treat the first with 0.5mLNH4OH (10%), examined under ultra-violet light, fluorescence intensity indicates the presence of coumarins. The second one was used as control [12]. Test of anthracenosides: 8 mlof the ethereal solution was treated by extractive reagent Bornträger. A positive test is revealed by the appearance of a color ranging from bright orange - red to purple purple[12]. Test of anthocyanosides: The acidic aqueous solution was treated with NaOH. The presence of anthocyanins was confirmed by a red color at ph under 3 and blue color at a ph between 4 and 6[12]. Preparation of diethyl ether extract: The extract was prepared by a mixture of 50 g dried powdered samples in 300 ml of diethyl ether under reflux for 1h. The extract is filtered by using Whatman filter paper. The filtrate was used for phytochemical screening. Test of volatile oils: The residue obtained after evaporation of 20 ml of ethereal solution was dissolved in ethanol and concentrated.a residual aroma reveal a positive test [13]. Test of alkaloids bases: The resulting residue obtained was dissolved after evaporation of 10 ml of the ethereal solution in 1.5 mlof HCl 2% and add 1-2 drops of Mayer or Wagner reagent. The appearance of yellowish white precipitate indicates the presence of alkaloid bases[10]. Test of fattyacids: The alkaline aqueous solution was acidified, and then extracted with diethyl ether. The ethereal solution is then concentrated to dryness. A positive test is revealed by obtaining a greasy residue[13]. Preparation of aqueous extract: The extract was prepared by a mixture of 50 g dried powdered samples in 300 ml of diethyl ether under reflux for 1h. The extract is filtered by using Whatman filter paper. The filtrate was used for phytochemical screening. Test of tannins: 1 ml of the aqueous solution was treated with 1 ml of water and 1-2 drops of dilute solution offecl3. The appearance of a dark green color or blue-green indicates the presence of tannins[9]. Test of saponins: 2 ml of the aqueous solution was added to a little of water and then stir in a strong way[30].persistent foam confirmed the presence of saponins. Abandon the mixture for 20 minutes and classify content saponins: - No foam = Negative test. - Foam less than 1 cm = weakly positive test. 186

- Moss 1-2 cm = positive test. - Foam over 2 cm = very positive test. Test of starch: 5 ml of solution prepared was treated with the reagent for starch. The appearance of a purplish blue color indicates the presence of starch [14]. RESULTS AND DISCUSSION These reactions are generally simple identity, quick to implement, performed mostly in test tubes, they appear either mowing staining or precipitation, which can give an idea, according to the intensity of the result, the concentration of certain constituents. The results obtained from different organs of Opuntia ficus-indica are represented respectively in the following tables. Table 01:Phytochemical test results obtained from the cladodes of Opuntia ficus-indica. Flavonoids ++ Tannins ++ ++ Phenolic compound Anthocyanosides - Anthracenosides - Alkaloids Alkaloids - - Saponins ++ Steroids Sterols and triterpènes + Fatty acids Fatty acids ++ Volatile oils Volatil oils - Reducing compounds Reducing compounds + Starch Starch + Table 02: Phytochemical test results obtained from the flowers of Opuntia ficus-indica. Flavonoids - Tannins - - Phenolic compound Anthocyanosides ++ Anthracenosides + Alkaloids Alkaloids - - Saponins - Steroids Sterols and triterpènes - Fatty acids Fatty acids - Volatile oils Volatil oils ++ Reducing compounds Reducing compounds - Starch Starch - Table 03: Phytochemical test results obtained from the seeds of Opuntia ficus-indica. Flavonoids ++ Tannins ++ ++ Phenolic compound Anthocyanosides - Anthracenosides - Alkaloids Alkaloids ++ - Saponins - Steroids Sterols and triterpènes ++ Fatty acids Fatty acids ++ Volatileoils Volatil oils + Reducing compounds Reducing compounds + Starch Starch + The purpose of these tests is to characterize the major families of chemical compounds coexisting in different parts of the plant studied. Indeed, the method of detection of these different families is a precipitation reaction or staining reagents. These reactions result in the appearance of turbidity, flocculation or a color change that tells us about the nature of these families. 187

The experimental results mentioned in the previous three tables summarizing the phytochemical examination show that the starch, flavonoids, tannins, reducing compounds, steroids end sterols, fatty acids and volatile oils are present in all plant parts, in varying quantities. Table 04 : Final results Phytochemical compound Resultats cladodes flowers seeds Flavonoids ++ - ++ Tannins ++ - ++ Phenolic compound Anthocyanosides - ++ - Anthracenosides - + - - - Alkaloids Alkaloids ++ - ++ Saponins - - - Steroids Sterols and triterpènes ++ - ++ Fatty acids Fatty acids ++ - ++ Volatile oils Volatil oils + + + Reducing compounds Reducing compounds + - + Starch Starch + - + The cladodes and seeds are rich in flavonoids, tannins, reducing compounds and sterols steroids from the flowers. We observed the absolutely absence of coumarins in the tree parts of the plant and the presence of anthocyanosides and anthracenosides in flowers only. Alkaloids are present in the seeds of Opuntia ficus-indica but absent in cladodes and flowers. The presence of tannins in the cladodes and seeds, average amount is confirmed by a positive reaction with ferric chloride solution giving a dark green color in the cladodes (catéchists tannins) and dark green in the seeds (tannins catechists).by cons they are absent in flowers. The seeds are rich in fatty acids from cladodes and flowers. This result is consistent with the data of Ennouri et al [15] on the Opuntia ficus-indica, as well as the results of El Mannoubi et al [16]. CONCLUSION This phytochemical study based on laboratory tests, which allowed us to characterize the family of chemical compounds that exist in our plant. Indeed, there is evidence that tannins, flavonoids, and fatty acids are present in significant quantities in the plant. The presence of tannins, which have antibacterial activity and diarrhea in the plant explains the traditional use that is actually to treat diarrhea. These families of compounds may be responsible for the discovery of therapeutic agents. In this context the implementation techniques of extraction, purification, separation and recrystallization and possible identification will enable the discovery of active principles. REFERENCES [1] Arba, M. (2006). Acta Horticulturae, 728, 37-42. [2]Bekir, A. E. (2006). Acta Horticulturae, 728, 51-54. [3]Mondragon. J.C.,e Tegegne, F.(2006). Acta Horticulturae, 728, 55-59. [4] Stintzing, F.C., Carle, R., 2005. Mol. Nutr. Food Res. 49, 175-194. [5] Zou, D.M., Brewer, M., Garcia, F., Feugang, J.M., Wang, J., Zang, R., Liu, H., Zou, C., 2005. Nutr. J. 4, 25. [6] Budinsky, A., Wolfram, R., Oguogho, A., Efthimiou, Y., Stamatopoulos, Y., Sinzinger, H., 2001. Essent. Fatty Acids 65, 45-50. [7] Tesoriere, L., Butera, D., Pintaudi, A.M., Allegra, M., Livera, M.A., 2004. Am. J. Clin. Nutr. 80, 391-395. [8] A.Cavé,Pharmacognosie, phytochimie, plantes médicinales. 2éme Ed. Tec. et Doc. Ed. Lavoisier, Paris, 1993, 274-285. [9] E.Trease, W. Evans,C.Pharmacognosy. Billiaire.Tindall.London 13 Edn,1987, 61-62. [10]J.Memelink,R. Verpoort,J.W. Kigine,Organisation of jasmonate responsive gene expression in alkaloid metabolism.2001. 188

[11]G.Linden,D.Lovient,Biochimie agro-industrielle. Valorisation alimentaire de la production agricole. Ed. asson. Paris, 1994, 104-109. [12]Bruneton, J. Pharmacognosie, phytochimie, plantes médicinales. 3èmeEd. Tec. e Doc. Eds. avoisier.paris,1999, 199-388. [13] J. B.Harborne, Phytochemical methods, London. Chapman and Hall, Ltd,1973, pp. 49-188. [14] Guignard, J. L. Abrégé de biochimie végétale. 2ème Ed. Masson.Paris, 1979, 84. [15] Ennouri M, Bourret E, Mondolot L, Attia H. (2004). Food Chemistry. 93 (2005) 431-437. [16]El Mannoubi I, Barrek S, Skanji T, Casablanca H and Zarrouk H. (2009). Characterization of Opuntia ficus indica seed oil from Tunisia. Chemistry of natural compounds, Vol. 45. No. 5.2009. 189

2024 © cuisinedocbox.com Privacy Policy | Terms of Service | Feedback