ABSTRACT
Several strains of lactic acid bacteria secrete extracellular polysaccharides in favourable environment such as milk. Exopolysaccharides (ESP) is used to describe extracellular polysaccharides either attached as capsule with bacterial cell wall or liberated into the medium as ropy polysaccharides. LAB exopolysaccharides is economically important because it impacts functional effects on food and confer beneficial health effects on the consumers such as antioxidant, cholesterol lowering effects and immune modulation. Lactic acid bacteria have been used for thousands of years in dairy products and food industries, they play crucial role in food fermentation processes. A wide variety of strains are routinely used as starter cultures to manufacture dairy products. These bacteria produce Lactic acids, hydrogen peroxides and several enzymes during fermentation. Growth of spoilage and pathogenic bacteria in the fermented food are inhibited due to the production of antimicrobial substances by LAB as their competition for nutrients. Test confirmed all the isolates to be gram positive, catalase negative, non-motile and non-spore forming rods and cocci in shape. Carbohydrates fermentation test confirmed Lactobacillus acidophilus, Lactococcus lactis, Lactobacillus fermentum, Leuconostoc messentoriodes as the probable organisms. These LAB all produced exopolysaccharides with mucoid and ropy colonies. These exopolysaccharides produced were used for the antimicrobial activity against staphylococcus aureus and Escherichia coli. The results showed zones of inhibition on EXO A, EXO L, EXO M and EXO F for Staphylococcus aureus as 18mm, 28mm, 25mm, 20mm and for E. coli 20mm, 25mm, 30mm, and 22mm respectively which implied the ESP inhibited the growth of the test organisms.
TABLE OF CONTENTS
Title page i
Certification ii
Dedication iii
Acknowledgement iv
Table of content v
List of table vii
Abstract viii
CHAPTER
ONE: INTRODUCTION
1.2 Lactic Acid Bacteria (Lab) 1
1.3 Aim
and Objectives of Study 2
CHAPTER
TWO: LITERATURE REVIEW
2.1 Fermented
Foods 3
2.2 Purpose and Benefits of Food Fermentation
3
2.3 Lactic
Acid Bacteria (Lab) 4
2.4 What Is Lactic Acid Bacteria? 4
2.5 History of Lab 5
2.6
Exopolysccharides 6
2.7 Exopolysaccharide
Producing Lab 7
2.8 Types
of Exopolysaccharide 7
2.9 Exopolysaccharide Production, Isolation
And
Characterization 8
CHAPTER
THREE:
MATERIALS AND METHODS
3.1 Source of Material 9
3.2 Sample Preparation 9
3.3 Media
Preparation 9
3.4 Preparation of MRS Broth 10
3.5 Isolation of LAB 10
3.6 Colony Count of Isolates 11
3.7 Identification of Isolates 11
3.8 Determination of Colony Features 12
3.9 Microscopy 12
3.10 Gram Staining 12
3.11.1 Catalase Test 13
3.11.2 Motility Test 13
3.11.3 Coagulase Test 13
3.12 Growth at Different Temperature 14
3.13 Growth at Different PH 14
3.13.1 Growth at PH 3 14
3.13.2 Growth at
PH 9 14
13.14 Salt Tolerance Test 15
3.15 Sugar Fermentation Tests 15
3.16 Test Organisms 15
3.17
Anti-Bacterial Activity of EPS
Producing Lab 15
3.18 Screening
for ESP Production 16
3.19 Extraction of Exopolysaccharides 16
CHAPTER
FOUR: RESULTS 17
CHAPTER
FIVE: DISCUSSION, CONCLUSION AND
RECOMMENDATION
5.0 Discussion 22
5.1 Conclusion 23
5.2 Recommendation 23
REFERENCES 24
LIST OF
TABLES
TABLE TITLE PAGE
Table 4.1: Morphological,
Physiological and Biochemical Characteristics of Isolated Genera of
LAB 18
Table 4.2: Carbohydrates Fermentation
of Isolated Genera of LAB 19
Table
4.3 Shows the Lactic Acid Bacteria
Produced 20
Table
4.4: Showing the Antibacterial
Activity of Exopolysaccharides
Producing LAB on
Some Selected Pathogens 21
CHAPTER ONE
INTRODUCTION
Nunu
is a spontaneously fermented milk (yoghurt-like) product in Nigeria and other
west Africa including Ghana and Burkinafaso. Unlike other African fermented
milk products where milk of goats, sheep, and carmels is used. Nunu is solely
prepared from cow milk. The traditional processing of Nunu involves collecting
fresh cow milk into containers and then allowing it to ferment for a day or two
days at ambient temperature. Nunu is yoghurt -like in taste (a sharp acid
taste) and it can be taken alone or with Fura. (Owusu-Kwarteng et al., 2012 ). Like many other
spontaneously fermented foods in Africa, the production of Nunu is largely home
based and the fermentation is spontaneous.
1.2 LACTIC ACID BACTERIA (LAB)
Lactic acid bacteria (LAB)are Gram positive,
fastidious, acids tolerant, generally nonsporullating, catalase negative,
devoid of cytochrome, and non-respiring rods or cocci that are associated by
their common metabolic and physiological characteristics that produce lactic
acid as a major sole product of fermentative metabolism ( Holzapfel et al., 2001). Lactic acid bacteria have
been used for the fermentation of food and feed products since ancient days and
today their major applications are still in the food and feed industry as
starter cultures (Boomee et al., 2003).
Lactic
acid bacteria produce variety of antimicrobial compounds such as ethanol,
formic acid, acetone, hydrogen peroxide, diacetyl and bacteriocins which confer
preservatives ability on them as a natural competitive means to overcome other
micro-organisms sharing the same niche (Oliveira et al., 2008). Recently, there has been a great demand for lactic
acid as it can be used as a monomer for the production of the biodegradable
polymer polylactic acid (PLA), which is an alternative to synthetic polymers
derived from petroleum resources (Datta et
al., 1995).
Lactic
acid bacteria are food grade organisms, possessing the generally recognised as
safe (GRAS) status, and can secrete exopolysaccharide (EPS). LAB ESP has
economically important functional effects to the consumer (Welman and Maddox, 2003).
LAB
have arisen a great deal of attention as a novel approach to control pathogens
in foodstuffs. Bacteriocins are antimicrobial proteinaceous compounds that are
produced by both Gram positive and Gram negative bacteria. The antimicrobial
effect of LAB has been appreciated by man for more than 10,000 years and has
enabled him to extend the shelf life of many foods through fermentation
processes. Reports from literatures have shown and indicated important health
benefits of ESP to include antioxidant, cholesterol lowering effects and immune
modulation.
1.3 AIM AND OBJECTIVES OF STUDY
The aim of this project work was to
study the antibacterial activity of exopolysaccharide producing lactic acid
bacteria from nunu against some pathogenic bacteria.
Objectives
of the study
· To
isolate lactic acid bacteria from Nunu.
· To
characterize and identify the LAB isolates from nunu.
· To
extract and to screen the EPS from the LAB isolates.
· To
determine the activity of the EPS against selected bacteria species including E. coli
and Staphylococcus aureus.
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