Chemical Studies And Antimicrobial Screening Of The Leaves And Seeds of Piliostigma thinning (Fabaceae)
ABSTRACT
Piliostigmathonningii is one of the African plants with numerous medicinal values in ethnomedicine. It belongs to the family of Fabaceae and can be used for treating ailments like loose stooling in teething children, wound dressing, ulcer treatment, worms’ infestation, hemorrhoids, inflammations, bacterial infections, gonorrhea, stomach ache and headache. This study probed the chemical constituents and antimicrobial properties of the leaf and seed of P. thonningii. Qualitative phytochemical screening of the leaf and seed extracts of the plant showed the presence of alkaloids, flavonoids, tannins, saponins, terpenes, steroids, glycosides, and phenols.The quantitative aspect of the leaf showed that the alkaloid content was 15.5 %, tannins 10.2 %, saponins 9.6 %, flavonoids 4.3 %, terpenes 15.2 %, steroids 16.9 % and Phenols 12.9 %. The seed contained alkaloid 6.2%, tannins 4.2 %, saponins 4.8 %, flavonoids 2.5 %, terpenes 15.9 %, steroids 13.3 % and phenols 7.9 %. The vitamins detected in the leaf included Beta-carotene (10.428±0.000 mg/100g), ascorbic acid (13.432±0.020 mg/100g), riboflavin (3.412±0.035 mg/100g), niacin (0.941±0.000 mg/100g), thiamin (2.424±0.002 mg/100g) while that of the seed included Beta-carotene (5.349±0.013 mg/100g), ascorbic acid (8.4±0.040 mg/100g), riboflavin (0.640±0.000 mg/100g), niacin (0.0131±0.000 mg/100g) and thiamin (0.431±0.0031 mg/100g). The mineral compositions detected in the leaf included calcium (2413.02±0.001 mg/100g), magnesium (908±0.003 mg/100g), potassium (1103.04±0.023 mg/100g), sodium (53.01±0.018 mg/100g), phosphorus (46.24±0.000 mg/100g), nitrogen (1842.03±0.002 mg/100g), iron (16.31±0.000 mg/100g), zinc (0.243±0.001 mg/100g) and copper (0.001±0.000 mg/100g), while that of the seed included calcium (2010.34±0.006 mg/100g), magnesium (728.84±0.023 mg/100g), potassium (1004.02±0.011 mg/100g), sodium (38.03±0.061 mg/100g), phosphorus (20.02±0.001 mg/100g), nitrogen (785.01±0.003 mg/100g), iron (2.02±0.001 mg/100g), zinc (0.01±0.000 mg/100g) and copper (0.01±0.000 mg/100g). The GC-MS results of the chloroform extract of the leaf at different retention times showed a promising result of 17 probable structures with 14 of them, having medicinal values. In the same vein, the seed showed 9 probable structures with 7 of them having medicinal values. The antimicrobial activities of the chloroform extract of the leaf and seed were studied using hospital isolates of five pathogenic microorganisms. Its activity at a varying concentrations of 150 mg/ml, 75 mg/ml, 50mg/ml, 25 mg/ml, 12.5 mg/ml and 6.25 mg/ml was investigated againstS.aereus, B. cereus, E. coli, S. typhiand P.aeruginosa using agar well diffusion method. The result showed that the extract of the leaf exhibited activity against three micro-organisms in a concentration-dependent pattern, with the highest growth inhibition seen in S. aereus and the lowest growth in S. typhi with MIC of 25 mg/ml and 75 mg/ml respectively while the seed showed inhibition activity against two microorganisms in a concentration-dependent manner, with the highest growth inhibition seen in S. aereus and the lowest growth in E. coli with MIC of 50 mg/ml and 75 mg/ml respectively. The result of this research work revealed that P. thonningii has a lot of phytochemicals which might be responsible for its therapeutic potentials in ethnomedicine.
TABLE OF CONTENTS
Title Page i
Declaration ii
Certification iii
Dedication iv
Acknowledgement v
Table of Content vi
List of Tables ix
List of Plates x
Abstract xi
CHAPTER
1
INTRODUCTION
1.1
Background of the Study 1
1.2
Statement of the Problem 3
1.3 Scope of
the Study 3
1.4
Justification of Research 4
1.5 Aim and
Objectives 4
CHAPTER
2
LITERATURE
REVIEW
2.1 Origin
and geographical distribution of piliostigmathonningii 5
2.2 Botanical
Classification 5
2.3 Description
of the Plant 6
2.4 Economic
and cultural values of P. Thonningii 10
2.5 The
Family ‘Fabaceae’ 10
2.6 Phytochemicals 11
2.6.1. Phenols
11
2.6.2 Saponins 12
2.6.3. Steroids 13
2.6.4 Tannins 14
2.6.5 Flavonoids 15
2.6.6
Some of the compounds isolated from p.thonningi are as follows. 16
2.8
Ethnomedical uses of PiliostigmaThonningii 19
2.9 Pharmacological
activities Of Piliostigmathonningii 21
2.9.1
Anti-malaria activity of P.thonningii 21
2.9.2 Anti-Ulcer potential of piliostigmathonningii 21
2.9.3 Piliostigmathonningii as a Remedy to
Cardiovascular Complications and Associated Conditions 22
2.9.4 Anti-diabetic
Property of Piliostigmathonningii 22
2.9.5 Anti-bacterial
Activity of the Leaf Extract of Piliostigmathonningii 22
2.10 Mass spectrometry 23
2.11 Gas chromatography 23
2.12 Gas chromatography-mass spectrometry 24
CHAPTER 3
MATERIALS AND METHODS
3.1 Sample
Collection and Identification 26
3.2 Sample
Preparation 26
3.3 Sample
Extraction 26
3.4 Qualitative
Phytochemical Analysis 27
3.4.1 Test
for alkaloids (Mayer’s test) 28
3.4.2 Test
for tannins 28
3.4.3 Test
for saponins 28
3.4.4 Test for flavonoids 28
3.4.5 Tests for steroids and terpenoids (Liebermann-Burchard
test) 29
3.4.6 Test for glycosides (Kella-Killian's test) 29
3.5 Quantitative
phytochemical analysis 29
3.5.1 Determination of Alkaloids 29
3.4.2. Determination
of flavonoids 30
3.4.3 Determination
of Phenols 21
3.4.4 Determination
of saponins 32
3.4.4 Determination of tannins 32
3.4.6 Determination
of Terpenes 33
3.4.7 Determination
of Steroids 34
3.5 Determination
of Vitamin content 35
3.5.1 Determination
of ascorbic acid 35
3.5.2
Determination of niacin 36
3.5.3 Determination
of riboflavin 37
3.5.4
Determination of thiamin 37
3.5.5 Determination
of β-carotene 38
3.6 Determination
of mineral content 38
3.6.1 Determination of nitrogen content 38
3.7
GC/MS Analysis
3.8 Antimicrobial screening
of piliostigmathonningii leaf and seed chloroform extract 40
3.8.1 Obtaining
and confirming the test organism 40
3.8.2 Anti-bacterial
susceptibility test 41
3.8.3 Determination
of minimum inhibitory concentration (MIC) 41
CHAPTER
4
RESULTS AND DISCUSSION
4.1 Phytochemical screening results 44
4.2 Vitamin content results 48
4.3 Mineral content results 50
4.4 GC/MS
results
4.5 Antimicrobial
assay results 58
CHAPTER 5
CONCLUSION AND RECOMMENDATION
5.1 Conclusion 62
5.2 Recommendations 62
REFERENCES
APPENDIX
LIST OF TABLES
4.1
Qualitative phytochemical screening of chloroform leaves extract of P. thonningii 44
4.2
Qualitative phytochemical screening of chloroform Seed extract of P. thonningii 45
4.3 Quantitative
phytochemical screenings of chloroform leave extract of P.thonningii 45
4.4 Quantitative
phytochemical screenings of chloroform seed extract of P.thonningii 46
4.5 Quantitative determination of vitamin
content of P. thonningii leaf extract 47
4.6
Quantitative determination of vitamin content of P. thonningii Seed extract 48
4.7
Quantitative determinations of mineral content of the leaves and seeds
of
P.thonningii 49
4.8
GCMS analysis Result on the chloroform Leaf extract of P.thonningii 50
4.6 GCMS analysis Result on the chloroform
Seed Extract of P.thonningii 50
4.8 Zones of
growth inhibition at varying concentrations of chloroform extract of P. thonningiileaf against the test
organism. Zones of inhibition 51
4.9
Susceptibility test in mm on the standard drugs on the microorganisms 52
4.10 Zones of
growth inhibition at varying concentrations of chloroform extract of P. thonningiiseed against test organism
zones of inhibitions. 53
4.11
Minimum inhibitory concentration of chloroform leaf extract of P.thonningii 54
4.12 Minimum inhibitory concentration of
chloroform seed extract of P.thonningii 55
LIST OF PLATES
1: Whole plant of Piliostigmathonningii(https:en.wikipedia.org/wiki/P.thonningii) 7
2: Leaves of Piliostigmathonningii
(https:en.wikipedia.org/wiki/ P. thonningii) 8
3: Fruit and seeds
of Piliostigmathonningii (https:en.wikipedia.org/wiki/P. thonningii) 9
0.0
EJEZIE, E (2023). Chemical Studies And Antimicrobial Screening Of The Leaves And Seeds of Piliostigma thinning (Fabaceae). Repository.mouau.edu.ng: Retrieved May 11, 2024, from https://repository.mouau.edu.ng/work/view/chemical-studies-and-antimicrobial-screening-of-the-leaves-and-seeds-of-piliostigma-thinning-fabaceae-7-2
EJEZIE, EJEZIE. "Chemical Studies And Antimicrobial Screening Of The Leaves And Seeds of Piliostigma thinning (Fabaceae)" Repository.mouau.edu.ng. Repository.mouau.edu.ng, 15 Aug. 2023, https://repository.mouau.edu.ng/work/view/chemical-studies-and-antimicrobial-screening-of-the-leaves-and-seeds-of-piliostigma-thinning-fabaceae-7-2. Accessed 11 May. 2024.
EJEZIE, EJEZIE. "Chemical Studies And Antimicrobial Screening Of The Leaves And Seeds of Piliostigma thinning (Fabaceae)". Repository.mouau.edu.ng, Repository.mouau.edu.ng, 15 Aug. 2023. Web. 11 May. 2024. < https://repository.mouau.edu.ng/work/view/chemical-studies-and-antimicrobial-screening-of-the-leaves-and-seeds-of-piliostigma-thinning-fabaceae-7-2 >.
EJEZIE, EJEZIE. "Chemical Studies And Antimicrobial Screening Of The Leaves And Seeds of Piliostigma thinning (Fabaceae)" Repository.mouau.edu.ng (2023). Accessed 11 May. 2024. https://repository.mouau.edu.ng/work/view/chemical-studies-and-antimicrobial-screening-of-the-leaves-and-seeds-of-piliostigma-thinning-fabaceae-7-2