AMYLOLYTIC ACTIVITY OF LACTIC ACID BACTERIA ISOLATED FROM NUNU (A DAIRY PRODUCT)

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Product Code: 00008825

No of Pages: 44

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ABSTRACT


Amylolytic activity of Lactic acid bacteria isolated from Nunu (a dairy product) was studied. Lactic acid bacteria were isolated from Nunu obtained from three sources and identified accordingly. Amylolytic activity of the LAB isolate were evaluated under varying conditions of temperature, pH and incubation time for optimization purposes. Results obtained show that three species of Lactic acid bacteria were isolated from the Nunu with varying levels of occurrences including Lactobacillus fermentum (80%), Lactobacillus pentosus (60%), and Pediococcus acidilatici (60%). All these isolates demonstrated amylolytic activities creating halo zones on starch containing medium with diameters of 5.03mm, 4.33mm and 3.8mm for Lactobacillus fermentumLactobacillus pentosus and Pediococcus acidilatici respectively. Also the optimum growth conditions for enzyme (amylase) activity of the three LAB isolates shows pH 7.0 with amylase activity of 5.0mm halo zone size, pH 6.0 with amylase activity of 4.57mm halo zone size and pH 7.0 with amylase activity of 4.0mm halo zone size for the same isolates respectively. Optimum incubation temperatures of 50°C with amylase activity of 4.75, 60°C with amylase activity of 4.57 and 60°C with amylase activity of 4.43 also for the same isolates respectively. The optimum incubation time was 72hrs for Lactobacillus fermentum, 72hrs for Lactobacillus pentosus and 96hrs for Pediococcus acidilatici at which the respective amylase activities were 4.9mm, 4.57mm and 4.33mm halo zone sizes respectively. It was observed that there were variations in the type and occurrence of LAB in Nunu while their optimal growth activities varied slightly but significantly.






TABLE OF CONTENTS

 

Title page                                                                                                                                i

Certification                                                                                                                           ii

Dedication                                                                                                                              iii

Acknowledgements                                                                                                                iv

Table of Contents                                                                                                                   v

List of Charts                                                                                                                          viii

List of Tables                                                                                                                          ix

Abstract                                                                                                                                  x

CHAPTER ONE

1.0   Introduction                                                                                                                    1

1.1   Aims And Objectives                                                                                                     2

CHAPTER TWO

2.0   Literature Review                                                                                                           4

2.1   History                                                                                                                            4

2.2   Human Evolution                                                                                                           5

2.3   Alpha-amylase                                                                                                                6

2.4   Beta-amylase                                                                                                                  7

2.5   Gamma-amylase                                                                                                             7

2.6   Uses                                                                                                                                7

2.6.1   Fermentation                                                                                                               7

2.6.2   Flour Additive                                                                                                             8

2.6.3   Molecular Biology                                                                                                       9

2.6.4   Medical Uses                                                                                                               9

2.6.5   Other Uses                                                                                                                   9

2.7   Hyperamylasemia                                                                                                           10

2.8   Microorganisms and Amylase                                                                                        10

2.9   Production of Amylase                                                                                                   12

CHAPTER THREE

3.0   Materials and Methods                                                                                                   14

3.1   Materials/Equipment                                                                                                      14

3.2   Sources of Materials (Sample Collection)                                                                     14

3.3   Sample/Media Preparation                                                                                             14

3.4   Isolation of Lactic Acid Bacteria from Nunu                                                                 15

3.4.1   Isolation of Lactic Acid Bacteria                                                                                16

3.4.2   Characterization of Lactic Acid Bacteria Isolates                                                       17

3.4.2.1   Colony Characteristics                                                                                             17

3.4.2.2   Microscopic Characteristics                                                                                     18

3.4.3   Biochemical Tests                                                                                                       18

3.4.3.1   Catalase Test                                                                                                             18

3.4.3.2   Citrate Test                                                                                                               19

3.4.3.3   Motility Test                                                                                                             19

3.4.3.4   Oxidase Test                                                                                                             19

3.4.3.5.  Voges Proskauer (V.P) Test                                                                                     20

3.4.4.1   Growth at Different Temperatures                                                                           20

3.4.4.2   Salt Tolerance Test                                                                                                   20

3.4.4.3   Carbohydrate Fermentation Test                                                                             20

3.5   Determination of Amylase Activity                                                                               21

3.6.0   Optimization of Growth Factors for Amylase Activity                                              21

3.6.1   Optimization of Temperature for Amylase Production                                               21

3.6.2   Optimization of pH for Amylase Production                                                              22

3.6.3   Optimization of Incubation Time                                                                                22

CHAPTER FOUR

4.0   Results                                                                                                                            24

 

CHAPTER FIVE

5.0   Discussion                                                                                                                       30

5.1   Conclusion                                                                                                                      31

5.2   Recommendation                                                                                                           31

References                                                                                                                              32








LIST OF FIGURES

Figure                                 Title                              Page

4.1                               Occurrence of LAB isolates in Nunu.                                                24

4.2                               Amylase activity of LAB isolates from Nunu                                    25

4.3                               Effect of pH on amylase activity of LAB isolates of Nunu.              26

4.4                               Effect of incubation temperature on amylase activity.                       27

4.5                               Effect of incubation time on amylase activity                                    28

 

 

 

 

 

 

 

 

LIST OF TABLES

 

Table                                                  Title                                        Page

 

4.1                   Morphological, Physiological and Biochemical Characteristics  of Isolated Genera Of Lactic Acid Bacteria   29

 

 

 



 

 

CHAPTER ONE


1.0    INTRODUCTION

Amylases are enzymes that breakdown starch (carbohydrates) and are reputed to be among the most important enzymes with great significance in present day biotechnology and industrial microbiology (Ekunsami, 2004). Although amylases can be derived from many different sources, such as plants, animals and microorganisms, Sindhu et al., (1997) observed that microbial amylases generally meet demands of industries involved in starch products due to their high degree of thermostability.

The production of amylases by microorganisms is a normal characteristics in which the enzyme is produced extracellularly for breaking down of insoluble carbohydrate thereby absorbing the end product (sugars) into their cells (Ekunsami, 2004). There are two major classes of amylases identified in microorganism namely alpha amylases and glucoamylases. With the advent of new frontiers in biotechnology, the spectrum of amylase application has widened in many fields including clinicals, medicals and analyticals, food, textiles, brewing and distilleries.

While many microbes produce amylase enzymes, Reddy et al, (1998) observed that the most commonly used microorganisms for industrial production of amylase are Bacillus species. High purity amylases are required in various fields that require the enzyme application. Gupta et al., (2003) observed that the many applications of amylase enzyme is the driving force behind the current research interest in the enzyme production at optimum, safe and convenient manner. Essentially, the use of microorganisms for Amylase production stems from the relative advantages which include the fact that microbes grow rapidly which in turn quicken enzyme production time. Also they are easy to handle, cost effective and require less space than other methods. More importantly, microorganisms are easy to manipulate to obtain optimum enzyme production. They can be tailored through genetic engineering, for stain improvement, mutation and other desired changes (Konsoula and Liakopoulou-kyriakides, 2007).

Nunu is a natural milk from animals mostly cattle. It is a normal secretion from the mammary gland of females which is secreted during gestation in the udder (i.e. breast) and used during lactation to feed their young. According to Adebolu, (2007), natural milk is sterile from the animal body but soon receives an influx of microorganisms once out of the body. This is attributed to its rich nutritional composition which makes it fertile for microbial habitation and proliferation. Milk contamination can come from varied sources including air, soil, the handles and psychrotrophic microorganisms as external contaminants. Majorie and Kathlean, (2006) observed that many different species of microorganisms are found in Nunu some of which are potential pathogens but lactic acid bacteria represents a substantial percentage of the microflora of raw milk (Adebolu, 2007). This makes Nunu, natural milk a good source of lactic acid bacteria for use in this project work.


1.1    AIMS AND OBJECTIVES

The aim of this project is to isolate lactic acid bacteria from Nunu (raw milk) and evaluate their amylase production activity.

The objectives of this project work include the following

a.) To isolate and identify lactic acid bacteria from Nunu (raw milk).

b.) To determine their amylase production and activities of isolates

c.) To determine the optimal conditions for amylase activity including pH, temperature, and incubation time.

 

 

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