ABSTRACT
Plant foods are receiving more scientific attention because of their potentiall to ameliorate certain ailments in the human system. P.ostreatus is a fungi popularly called oyster mushroom, which has been known for producing biologically active secondary metabolites. This study was conducted with the objective to determine the concentrations of phytochemicals present in this edible mushroom grown on palm bunches soaked in varying concentrations of HCl ranging from 0.1M HCl to 0.5M HCl and control which was totally void of HCl. The phytochemical screening was carried out using standard methods. Results of this screening revealed the presence of phenols, flavonoids, alkaloids, terpenoids, tannins, glycosides, reducing sugars and steroids. The result revealed that phenols, flavonoids, alkaloids and reducing sugars were present in appreciable quantities, while the others were low. Phenols was highest in 0.1M HCl with a mean±S.E.M of 188.96±6.01 mg/g while the lowest was found in 0.2M HCl with a concentration of 106.56±1.76 mg/g. Tannin was highest in 0.1M HCl, having a concentration of 5.89±0.83 mg/g and the least concentration was found in 5.24±0.04 mg/g. The HCl concentration with the highest flavonoid was 0.2M HCl (160.20±1.85 mg/g) while the least was in control (51.93±0.67 mg/g). Steroids was highest in control (0.48±0.01 mg/g) and least in 0.5MHCl (0.05±0.01 mg/g). Alkaloids was highest in 0.2M HCL (46.88±0.43) while the least was found in 0.5M HCl (24.10±0.94 mg/g). Terpenoids had the highest concentration in control (9.37±0.39 mg/g) while the least was found in 0.5M HCl (3.75±0.25 mg/g). Glycosides had the highest concentration in 0.2M HCl (1.98±0.00 mg/g) and the least in 0.5M HCl (1.67±0.00 mg/g). Reducing sugars was highest in control (23.95±0.96 mg/g) while the least was in 0.2M HCl (18.73±1.62). These phytochemicals have a broad spectrum of biological activities which includes antioxidant, anti-inflammatory, antiviral, antimicrobial, analgesic, immunostimulatory, hepatoprotective, antibacterial, antitumor anticancer amongst a host of others. This study therefore suggests that the cultivation and consumption of P.ostreatus on palm bunches soaked in varying HCl concentrations can have a positive effect on the health of the human body in several ways and can be harnessed in the management and control of diseases.
TABLE OF CONTENTS
Title page i
Declaration iii
Certification iv
Dedication v
Acknowledgement vi
Table of contents vii
List of tables xi
List of figures xii
Abstract xiii
CHAPTER ONE
1.0 INTRODUCTION
1.1 Background of the study 1
1.2 Statement of the problem 2
1.3 Justification of the study 3
1.4 Objectives of the study 3
CHAPTER TWO
2.0 LITERATURE REVIEW
2.1 Edible
mushrooms (pleurotus ostreatus) 4
2.2 Mushrooms as therapeutic agents. 6
2.2.1 Antioxidant
activity 7
2.2.2
Anti-inflammatory activity 7
2.2.3
Antitumor activity 8
2.2.4
Immunomodulatory activity 8
2.2.5 Antidiabetic
effects 8
2.2.6 Antiviral 9
2.3 Nutraceutical properties of pleurotus
ostreatus 9
2.4 Phytochemicals 10
2.5 Biological activities of
phytochemicals 11
2.5.1 Phenolic compounds 12
2.5.2 Flavonoids 13
2.5.3 Tannin 14
2.5.4 Alkaloids 16
2.5.5 Saponins 18
2.5.6 Cyanogenic glycosides 19
2.5.7 Terpenoids 20
2.5.8
Steroids 21
2.5.9 Reducing
sugars 22
CHAPTER
3
MATERIALS
AND METHODS
3.1.0 Source of raw materials 23
3.1.1 Spawn preparation 23
3.1.2 Substrate preparation 24
3.1.3 Substrate inoculation 24
3.2 Equipment and apparatus 28
3.3: Chemicals and reagents 29
3.4 Quantitative determination of phytochemicals
in
P.ostreatus
mushroom. 29
3.4.1 Alkaloid determination 29
3.4.2 Flavonoids
determination 30
3.4.3 Determination
of steroids 30
3.4.4 Determination
of terpenoid 30
3.4.5 Determination
of tannins 31
3.4.6 Determination
of glycosides 31
3.4.7
Determination of reducing sugars 31
3.4.8 Determination
of phenols 31
CHAPTER FOUR
4.0
RESULT AND DISCUSSION 34
4.1 Discussion 35
CHAPTER FIVE
5.0
CONCLUSION AND RECOMMENDATION
5.1 Conclusion 38
5.2 Recommendation 38
REFERENCES
APPENDIX
LIST OF TABLES
Table 3:1
equipment/ apparatus used and their model. 28
LIST OF FIGURES
Fig.2.1: P.ostreatus grown at Michael Okpara
University
of agriculture, umudike . 5
Fig. 2.2:
structure of different flavonoids. 13
Fig. 2.3:
structure of typical tannins 15
Fig.
2.4: structure of different classes of alkaloids. 17
Fig.
2.5: structure of typical glycosides. 19
Fig. 2.6: structure of monoterpenoid and sesquiterpenoid 21
Fig.
2.7: structure of a typical phytosterol 22
Fig. 3.1: Flow chart
for spawn production. 26
Fig. 3.2 Flow chart for substrate
preparation. 27
CHAPTER ONE
1.0 Introduction
1.1 Background of the study
The word "Phytochemicals"
was derived from the Greek word "phyto", meaning plants. Plants are
made up of chemicals of various kinds (Breslin, 2017). These chemicals are
known as phytochemicals. By definition, phytochemicals are defined as those
chemicals that are produced by plants either through primary or secondary
metabolism. Thus, they are referred to as secondary metabolites (Molyneux et al.,
2007).
Phytochemicals can also be defined as biologically active,
naturally occurring chemical compounds found in plants which protect plant
cells from environmental hazards such as pollution, stress, drought, ultra
violet exposure and pathogenic attack (Ali et
al., 2006). Not only do they protect
plants against environmental hazards, they also give protection against predators,
thus they are said to serve protective function. They are not required for
sustenance of life but possess important properties which help prevent or fight
against some common diseases (Holst et
al., 2008). Some phytochemicals serve
antioxidant purposes which confers a medicinal property to the plants.
Antioxidants are chemicals which scavenge free radicals which are produced as a
result of some reactions taking place during cellular metabolism
The benefits of phytochemicals are numerous, they include low
toxicity, low cost, easy availability, not excluding their biological benefits
such as antimicrobial effects, stimulations of the immune system, decrease of
platelet aggregation and modulation of hormone metabolism and anti-neoplastic
properties. (Andre et al; 2010). Phytochemicals include flavonoids, alkaloids,
glycosides, oxalates, phytates, tannins, saponin etc.
Pleurotus ostreatus is an
edible mushroom with fleshy spores bearing fruiting body of a fungus, typically
produced above or beneath the ground which have been found to be growing on
decaying trees and can be harvested wild or cultivated. (Valverde et al.,
2015).
It has been proven that some species of mushrooms have outstanding
and remarkable bioactivities such as antioxidant, antitumor, antiviral,
anti-inflammatory, anticomplementary, anticoagulant, antidiabetic,
hypolipidemic, hepatoprotective, immunostimulant and immunological activities
which made them suitable for use in food, cosmetics and biomedicine (Loria et al.,
2014).
The phytochemicals present in Pleurotus
ostreatus confers an antioxidant
property to it and as such is highly recommended as a natural source of
antioxidant since synthetic antioxidants have been found to produce side
effects dangerous to the health (Kozarski et
al., 2014). Mushrooms aid in
enhancing antioxidant defense through diets to reduce the level of oxidative
stress caused by reactive oxygen species (ROS).
1.2 STATEMENT OF THE PROBLEM
The nutritional value of P.ostreatus is well known but the
phytochemical constituent needs to be emphasized to provide knowledge of their
biological functions when consumed. The phytochemical evaluation of P.ostreatus
goes beyond its nutritional value.
1.3 JUSTIFICATION OF THE STUDY
The younger generation who are now used to meat and fish are
ignorant of the use of edible mushrooms which they find growing around them.
The knowledge of the phytochemical properties of P.ostreatus will lead
to a better understanding of its nutritive and medicinal role in human health
and can as well lead to an increase in the cultivation and consumption of this
mushroom.
1.4 OBJECTIVES OF THE STUDY
The main objective of this research work is to determine the
phytochemicals present in P.ostreatus. grown on palm bunches soaked in HCl concentrations ranging from 0.1M
HCl to 0.5M HCl and control which was totally void of HCl.
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