Phytochemical Screening of Isodon ternifolius and Goniothalamus sesquipedalis and their Antioxidant Properties
Keisham Subharani Devi1, Rajkumar Romeshkumar Singh2, Lalit Kumar Thakur3, Thokchom Prasanta Singh1* and Okram Mukherjee Singh2*
1Chemistry Department, Standard College, Kongba, Manipur, India.
2Chemistry Department, Manipur University, Canchipur, Manipur, India.
3Institute of Pesticide Formulation Technology, Udyog Vihar, Gurgaon, Haryana, India.
Corresponding Author E-mail: prasantath@gmail.com
DOI : http://dx.doi.org/10.13005/ojc/400431
Article Publishing History
Article Received on : 17 May 2024
Article Accepted on : 20 Jul 2024
Article Published : 26 Jul 2024
This study focused on evaluation of antioxidant properties of methanolic extract of Isodon ternifolius and Goniothalamus sesquipedalis leaves, revealing the IC50 values of 34.16 and 175.59 respectively. Furthermore, these two medicinal plants are subjected for their phytochemical and elemental analysis to identify the presence of various secondary metabolites, phytoconstituents as well as elements in their extracts.
KEYWORDS:Antioxidant properties; Goniothalamus sesquipedalis; Isodon ternifolius; Medicinal plants; Postpartum care
Download this article as: Copy the following to cite this article:Devi K. S, Singh R. R, Thakur L. K, Singh T. P. Singh O. M. Phytochemical Screening of Isodon ternifolius and Goniothalamus sesquipedalis and their Antioxidant Properties. Orient J Chem 2024;40(4).
Devi K. S, Singh R. R, Thakur L. K, Singh T. P. Singh O. M. Phytochemical Screening of Isodon ternifolius and Goniothalamus sesquipedalis and their Antioxidant Properties. Orient J Chem 2024;40(4). Available from: https://bit.ly/3LDNUK7
Introduction
Medicinal plants are extensively used as remedies for various diseases and have shown promising potential with the efficacy of many established herbal products1. Plants are the natural source of organic and inorganic components. The organic components are the mainly bioactive in nature, whereas the minor part is an inorganic component found in the range of 1ug/1g, called trace elements2-3. Electrolytes like Na, Mg, K, and Ca are essential for basic life functioning and the trace elements facilitate vital biological reactions as cofactor or catalyst for various enzymes. Thus, the imbalance of these metals lead to various health issues4-5. Manipur of North-Eastern India belongs to the Indo-Burma biodiversity hotspot, flourishing with rich floral and faunal species diversity6. Of the various medicinal plants found in Manipur, we were intrigued to examine the biological and phytochemical screening of two plants I. ternifolius Kudo and G. sesquipedalis Hooker f. and Thomas, in order to substantiate biologically their use in folk medicine.
I. ternifolius is a perennial herb belonging to family Lamiaceace, with its leaves verticillate in nature, and its stem has six edges rather than the four regular edges. The plant has been commonly used in folk medicine as the antidote for smallpox, to treat skin disease, and to prepare hair lotion (chenghi in Manipuri)7. Besides, it is well known for the Chinese anti-hepatitis drug “fu fang san ye xiang cha cai pian” used to treat chronic and acute hepatitis and hepatitis B8. Also, diterpenoid9-10, ternifolipyrons A-J11, lignan and phenylethanoid compounds12 were known to be isolated from it. Previous studies have shown that it possesses anti-inflammatory and icterohepatitis properties13.
On the other hand, G. sesquipedalis of Indian origin14 belonging to the family Annonaceae is an important medicinal plant. The leaves are oval shaped with sharp ends and the flowers with greenish or yellowish in color and are solitary and axillary. The decoction of fresh leaf is used as remedy for stomach pain7. It is also known to exhibit cytotoxic, abortifacient, antitumor, pesticidal, teratogenic and embryotoxic activities and bioactive compounds like goniopedaline, aristololactam A-II, taliscanine, etc were present in the G. sesquipedalis15-16.
Moreover, smoke from burnt leaves of these plants is used for postpartum care as well as traditional fumigation to treat small pox, pustule and ulcer17. So far, there is limited studies on G. sesquipedalis, other than anthelmintic and insecticidal18, antibacterial19, as well as antimicrobial activities20 etc. Similarly, the anti-inflammatory12, cytotoxic and anticancer activities21,12 of I. ternifolius are some reported biological activities. However, no studies have been carried out for trace elements analysis and comparative studies of both the plants. Thus, in continuation of our interest in medicinal plants found in Indo-Burma biodiversity hub22-24, we are reporting herewith the phytochemical analysis, elemental analysis and the antioxidant activities of these two plants.
Materials and Methodology
Collection and Authentication of Plant Material
I. trenifolius and G. sesquipedalis plants were freshly collected during August/September 2022 from different parts of Thoubal district, Manipur (India). The plants were botanically identified and deposited (with voucher no. 001228, MUMP and 001227, MUMP) in the Department of Life Science, Manipur University, Canchipur-795003, Manipur. The leaves of the plants were dried and grinded into powder form to determine the phytochemical and elemental analysis and antioxidant properties. The powder formed was stored in a closed container until used.
Chemicals and materials
The chemicals used were all analytical grade reagents. The chemicals 2,-2-diphenyl-1-picrylhydrazyl (DPPH) (Merck, India), Ninhydrin’s solution, Molish’s reagent (Alfa Aesar, UK), Millon’s and Benedict’s reagents (Merck, USA) were supplied by Eastern Equipments, Imphal-795001, India.
Preparation of plant extracts
The grounded leaves of these plants (200 g) was soaked in 1000 mL each of aqueous ethanol (8:2, v/v) and aqueous methanol (8:2, v/v) separately at 23-25 °C for 74 h with occasional stirring. Then, after every 24 h the extracts were collected by decantation and required solvent was added to the residue. The collected extracts were concentrated and were kept at 4 °C for further experiment.
Phytochemical analysis of the extracts
Soxhlet technique was carried out to perform phytochemical analysis by taking 25 gm of leaves powder. Different solvents (ethanol, chloroform, ethyl acetate, and methanol) were separately extracted. The collected extracts were again kept at 4 °C to perform the experiments. Then, 5 grams of the plant powder and 250 ml of distilled water were mixed in a conical flask and heated on a heating mantle at 35-42 ºC with continuous stirring for 25 minutes. The resultant aqueous mixture was filtered with an appropriate filter paper and the filtrate was stocked for further experiments.
Qualitative Analysis of the Extracts
The aqueous, methanolic, ethyl acetate, chloroform and petroleum ether extracts screening was carried out to establish the occurrence of the phytoconstituents by following the reported procedures25-26.
Tests for proteins
Millon’s test: Whenthe crude extract was mixed with Millon’s reagent (2 mL), on gentle heating white precipitate appeared. Which then turns into red color indicating the presence of protein in the test sample.
Tests for carbohydrates
Fehling’s solutions test: Equal quantity of Fehling solutions A and B were boiled and add to the extracts. The formation of red precipitate confirmed the occurrence of sugars (reducing).
Benedict’s reagent test: Benedict’s reagent (3 mL) was boiled with the extracts. The appearance of reddish-brown confirmed for carbohydrates in the extracts.
Iodine test: When theextract was added by iodine solution (2.5 ml) and prevalence of purple or dark blue solution proved the occurrence of carbohydrate in the extracts.
Test for phenols
To the extracts, few drops
of 1 ml of 1% ferric chloride and 1 ml of potassium ferrocyanide were added. The formation
of blue-green color indicated the presence of phenols.
Test for tannins
Addition of 1% FeCl3 solution were added to the
test extracts. The appearance of brownish-green or bluish-black coloration indicated
the occurrence of tannins.
Tests for flavonoids
When 1.5 ml of 2% NaOH solution was added to the plant crude extracts, if yellow color appears, and addition of 3 drops of dil. HCl makes colorless, it confirms for flavonoids in the sample.
Test for saponins
To the plant extracts, addition of 5 mL of distilled water with vigorous shaking, the development of foam showed the existence of saponins.
Tests for glycosides
Liebermann’s test
The mixture of 3 mL of acetic acid and 3 mL of chloroform was added to the plant extracts. To this mixture few drops of concentrated H2SO4 was added, green color showed the presence of aglycone steroidal portion of glycosides.
Test for steroids
To the mixture of 2 mL of CHCl3 and conc. H2SO4, the plant extracts were added. The appearance of red coloration in the CHCl3 layerindicated the occurrence of steroids.
Test for terpenoids
To the plant extracts, 2 mL of CHCl3 was added and then boiled with 2 ml of conc. H2SO4. The formation of grey color mass showed the presence of terpenoids.
Elemental Analysis
The elemental analysis was determined using the standard calibration curve method27-28. Each plant materials (0.20 g) were taken in 100 mL flask and 6.0 mL of mixed acid comprising of HNO3, H2SO4 and HClO4 in the ratio of 5:1:0.5 (mL). The resulting mixture after following specified procedure was filtered and the filtrates were examined for the qualitative analysis of different elements using atomic absorption spectroscopy (AAS). The AAS (model AA-7000F) unit with deuterium-arc background correction was used for determination of elements Ca, Fe, Mn, Cu, Ni, Zn and Pb up to ppm (ug/L).
Inductively coupled plasma mass spectrometer (ICP-MS) (Agilent Technologies, Model: 7900) was used for elements analysis like Li, Na, Mg, K, Ca, Fe, Cu, Zn, As and Pb up to ppb (ug/g). The relative standard deviation (%RSD) = (SD/mean)x100, where mean is provided in ppm or ppb). Here, RSD values of ICP-MS techniques were 2-5 % and 5-10%, respectively.
Antioxidants Properties
Preparation of methanolic plant extracts
About 20 g of the grinded plants powder were soaked in 1.5 L of methanol and extracted by using Soxhlet. The extraction was done about 12 hours and then the extracts were evaporated by using rotavapor. The resultant crude extract was saved at 4 0C until antioxidant test was done.
Preparation of working plants extracts and standard ascorbic acid solution:
A standard solution of a conc. of 1mg/mL, 0.5/mL and 2 mg/mL in methanol were firstly ready for the ascorbic acid, I. ternifolius and G. sesquipedalis respectively. The working solutions were prepared by changing the concentrations of standards and plants in the vol. of 20, 40, 60, 80 and 100 μl by successive dilution with the mentioned solvent from the standard solution.
DPPH antioxidant activity
The antioxidant properties of these plants was carried out using DPPH antioxidant assay with minor adjustments in the procedures29.
1 mL of test solution of methanol dissolving in 1 mL of DPPH solution (0.1 mM) was measured for increase in DPPH absorbance after 20 min of incubation at 25 oC at 517 nm. Ascorbic acid (1 mM), showing maximum absorbance at 90.36 ± 1.05 μg/mL was considered as a reference solution in this assay.
DPPH inhibition activity (%) = (A-B)/A ×100%
A = optical density (blank),
B = optical density (sample).
Results and Discussions:
The AAS showed that major elements such as Fe, Ca, Mn, Cu, Ni, Zn and Pb have been found in both the plants. However, Fe (7.22 ppm) is found in more concentration in I. ternifolius and Ca (15.18 ppm) in G. sesquipedalis. The ICP-MS data obtained are also presented in Table 2, showing that both the plants exhibit the maximum concentration of the elements Na, K, Ca, Mg, Fe, Cu and Zn. Among of them, K and Mg are found as the maximum highest concentration in both the plants. The low concentration of Li, As and Pb was found in both the plants but Pb was found to be absent in I. ternifolius. The high concentration of certain metals, such as Mg+2 and K+ may be attributed for their appropriate development and regular functioning of the plant. On the other hand, metals such as Li, As and Pb are present in trace amounts which are non-essential to human body and toxic so it might be used as disinfectants and for the inhibition of pests, insects etc.
The result of the phytochemical screening tests of both the plants showed the occurrence of phytochemical constituents such as alkaloids, cardiac glycosides, reducing sugars, phenols and flavonoids as presented in table 2. The glycosides are present in all extracts except petroleum ether.
Table 1: Elemental analysis resulted by AAS and ICP-MS.
Element
I. ternifolius
G. sesquipedalis
AAS (ppm)
ICP-MS
AAS (ppm)
ICP-MS
ug/g or ppb
Ug/g or ppb
Li
0.14
0.14
Na
33.33
66.37
K
18568.37
13606.85
Mg
5102.03
5526.03
Ca
5.78
169.31
15.18
500.28
Fe
7.22
601.65
4.02
522.21
Cu
0.05
3.74
0.04
3.46
Ni
0.05
0.19
Zn
0.39
15.57
0.38
11.16
Mn
1.02
4.79
As
0.065
0.02
Pb
0.40
0
0.33
0.13
Table 2: Phytochemical screening tests for the petroleum ether (PE), CHCl3, ethyl acetate (EA), methanol, aqueous solutions of I. ternifolius and G. sesqupedalis extracts.
Extract
Alkaloids
Proteins
Carbohydrates
Phenols
Tannins
Flavonoids
Saponins
Glycosides
Steroids
Terpenoids
I. ternifolius
PE
+
–
+
–
–
+
+
+
+
+
CHCl3
–
+
–
–
+
+
+
+
+
EA
+
–
+
–
–
+
+
+
+
+
CH3OH
+
–
–
+
+
+
+
–
–
–
H2O
+
–
–
+
–
+
+
–
–
–
G. sesquipedalis
PE
+
–
+
–
+
+
+
+
+
CHCl3
+
+
+
+
–
–
–
EA
+
–
+
+
+
+
–
–
–
CH3OH
+
–
+
–
+
+
–
–
–
H2O
+
–
+
–
–
+
–
–
–
(+) indicates the presence of phytochemicals and (-) indicates the absence of phytochemicals. Blank for no experiment conducted.
Antioxidant activity using Ascorbic acid as standard equivalent
In order to study about the antioxidant’s properties of the two methanolic extracts, the two extracts were investigated with the help of DPPH method using ascorbic acid as the standard reference. Depending upon the scavenging property of the plants, the concentrations were made ranging from 10-50 μg/ml for I. ternifolius and 40-200 μg/ml for G. sesquipedalos respectively. In our study, “o” inhibition was taken for DPPH only. The findings are presented in the table (3) and explained with the help of portraying graph as shown in figure (1).
Table 3: Percentage inhibition activity for reference sample, I. ternifolius and G. sesquipedalis extracts.
Ascorbic acid
I. ternifolius
G. sesquipedalis
Vol. of the sol.
Conc.
% inhibition
Vol. of the sol.
Conc.
% inhibition
Vol. of the sol.
Conc.
% inhibition
20
2
0.8425
20
10
0.8855
20
40
0.8645
40
4
0.731
40
20
0.7165
40
80
0.7175
60
6
0.6145
60
30
0.5505
60
120
0.6085
80
8
0.477
80
40
0.3705
80
160
0.5355
100
10
0.3485
100
50
0.217
100
200
0.4135
From the above data, the calculated IC50 for I. ternifolius and G. sesquipedalis are 34.16 and 175.59 respectively, w.r.t the standard IC50 of ascorbic acid.
Conclusion
The phytochemical screening of extracts showed that glycoside, alkaloids, steroids, carbohydrates and saponins are found in most of the extracts as preliminary investigation. Besides,the two plants have been observed the presence of Ca, Mg, Ni, Zn and Cu within the permissible level set by WHO/ FHO. The findings will be of tremendous benefits for the formulations of new herbal drugs along with various combinations. Besides, the DPPH studies revealed that the two plants have effective antioxidant activities and further studies are needed to ascertain their medicinal properties.
Conflicts of interest
We have no competing interests that could influence our research or findings.
References
Ekor, M. Front. Pharmacol. 2014, 4, 177.
This work is licensed under a Creative Commons Attribution 4.0 International License.
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