TABLE OF CONTENTS
Title Page
Certification
Dedication
Acknowledgements
Table of Contents
List of Tables
List of Figures
Abstract
CHAPTER ONE
1.0 Introduction/Literature Review
1.1 Source of Thermostable alpha- amylase
1.2 Structural Characteristics and Catalytic Mechanism of α-Amylase
1.3 Determinants of Thermostability in α-amylase
1.4 Strategies for Improving Thermostabilization
1.5 α-amylase Production Techniques
1.6 Bacterial Amylases
1.7 Uses of alpha amylase
1.7.1 Bread and Chapatti Industry
1.7.2 Textile Industry
1.7.3 Sugar and Glucose Industries
1.7.4 Alcohol Industry
1.7.5 Paper Industry
1.7.6 Detergent, Building Product and Feed Industries
1.7.7 Chocolate Industry
1.8 Aims and Objectives
CHAPTER TWO
2.0 Materials and Methods
2.1 Collection of Samples
2.2 Sterilization of Glasswares
2.3 Serial Dilution Technique
2.4 Isolation of Thermophilic Bacterial Cultures
2.5 Screening of Amylase Producing Bacterial
2.6 Microscopic Examination of Test Organisms
2.6.1 Gram’s Staining Technique
2.6.2 Colony Morphology
2.7 Biochemical Characteristics of Isolated Organisms
2.7.1 Catalase Test
2.7.2 Oxidase Test
2.7.3 Indole Tests
2.7.4 Methyl Red Test
2.7.5 Sugar Fermentation Test
2.7.6 Motility Test
2.7.7. Ornithine Test
2.8 Production of α-amylase
2.8.1 Protein Determination
2.8.2 Glucose Determination
2.8.3 Enzyme Purification
2.8.4 Ammonium sulphate Precipitation
2.8.5 Dialysis
2.8.6 Swelling of Gel
2.9 Gel Electrophoresis
CHAPTER THREE
3.0 Results and Discussion
3.1 Effect of Temperature on Amylase Production
3.2 Effect of pH on Amylase Production
3.3 Effect of Incubation Period on Amylase Production
3.4 Effect of Nitrogen sources on alpha amylase production by B.subtilis
3.5 Effect of Metal salts on alpha amylase production by B.subtilis
3.6 Effect of Carbon sources on alpha amylase production by B.subtilis
3.7 Molecular Mass
CHAPTER FOUR
4.0 Discussion
CHAPTER FIVE
5.0 Conclusion
References
Appendixes
ABSTRACT
Thermophiles are organisms which are adapted to live at high temperatures. The enzymes from thermophiles find a number of commercial applications because of their thermostability and thermoactivity including in beer brewing. One of the most attractive attributes of thermophiles is that they produce enzymes capable of catalysing biochemical reactions at temperatures higher than those of mesophilic organisms. The objective of this study was to isolate and identify industrially relevant extracellular enzymes producing thermophilic bacteria from cassava processing site in Nsukka, Enugu State. In this present study, soil samples were collected and screened for thermophilic Bacillus strains with amylase activity and to examine the amylase heat tolerance potential. This study was also aimed at determining the optimal culture conditions for growth and amylase production. The optimum temperature of amylase activity ranged between 50-60oC. The isolate was Gram positive, motile rod, bearing terminal endospore. Furthermore, the effects of incubation period, temperature, pH, different carbon and nitrogen sources, metal salts were investigated. The maximum enzyme production was found at 24 hours and pH 7. Corn starch (1.87U/mg protein) was found to be the best inducer followed by soluble starch (1.20U/mg protein). The effect of metal salts was investigated and it was found that calcium chloride increased enzyme production (1.97U/mg protein), while all the others exhibited inhibitory effects. These characteristics of Bacillus subtilis, suggests its promising nature with potential for further investigation in various biotechnological processes.
CHAPTER ONE
1.0 Introduction
The potential of using microorganisms as biotechnological sources of industrially relevant enzymes has stimulated interest in the exploration of extracellular enzymatic activity in several microorganisms (Abu et al., 2005). Microbial species exist in many environments like extremes of temperature, pH, chemical content and pressure. This existence of microbes is due to certain genetic and or physiological adaptations (Aguilar,1996). Thermophiles are the organisms which are adapted to grow optimally at high temperatures. The enzymes from thermophiles are known as thermophilic enzymes and these enzymes find a number of commercial applications because of their thermostability and thermoactivity. One of the most attractive attributes of thermophiles is that they produce enzymes capable of catalysing biochemical reactions at temperature higher than those of mesophilic organisms (Aguilar,1996).
Alteration in the amino acid composition of proteins bring about additional electrostatic interactions, formation of hydrogen and disulfide bonds, enhancement of hydrophobic interactions or compaction of the structure and there are only a few cysteine residues in thermophilic enzymes. Amylases are enzymes which utilize and hydrolyse starch and glycogen as substrate. On the basis of how amylase breakdown starch molecules and produce glucose, these are classified as α-Amylase (which breaks down the bonds at random manner), β-amylase (which acts on the glucose-glucose bonds and remove two glucose unit at a time and produce maltose and amyloglucosidase (AMG), β-Amylase breaks the non reducing end of the straight chain and produce glucose. Amylase producing industries need a temperature tolerating amylase-producing bacterial strains which are able to produce thermostable amylase enzyme, because temperature and pH controls are critical during some stages of production.
α-Amylase (endo 1,4-α D glucan glucohydrolase) is an extracellular enzyme which acts on substrate starch and degrades it into disaccharide and trisaccharide (Crabb and Mitchinson,1997). Amylase can be derived from various sources such as microorganisms (bacteria and fungi), plants and animals. Microbial production of amylase is more fruitful than that of other sources like plants or animals because microbial amylase is fast, cost efficient, easy and moderate for obtaining enzymes of desired characteristics (Leveque et al., 2000). In general, the enzymes get denatured and lose their activities at temperatures over 50-600C.
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