Studies on the activity of ∞-amylase produced from fusarium spp. using sweet potato (ipomoea batatas) starch.
Table Of Contents
Chapter ONE
1.1 Introduction1.2 Background of study
1.3 Problem Statement
1.4 Objective of study
1.5 Limitation of study
1.6 Scope of study
1.7 Significance of study
1.8 Structure of the research
1.9 Definition of terms
Chapter TWO
2.1 Overview of ∞-amylase2.2 Sources of ∞-amylase
2.3 Properties of ∞-amylase
2.4 Enzyme production
2.5 Sweet potato (Ipomoea batatas) starch
2.6 Previous research on Fusarium spp.
2.7 Enzyme activity assays
2.8 Factors affecting enzyme activity
2.9 Applications of ∞-amylase
2.10 Future trends in enzyme research
Chapter THREE
3.1 Research design3.2 Sampling techniques
3.3 Data collection methods
3.4 Experimental setup
3.5 Data analysis techniques
3.6 Ethical considerations
3.7 Reliability and validity
3.8 Research limitations
Chapter FOUR
4.1 Overview of findings4.2 Analysis of results
4.3 Comparison with existing literature
4.4 Interpretation of data
4.5 Discussion of significant findings
4.6 Implications of findings
4.7 Recommendations for future research
4.8 Conclusion
Chapter FIVE
5.1 Summary of research5.2 Conclusion
5.3 Implications of the study
5.4 Recommendations
5.5 Future research directions
Thesis Abstract
After a seven day pilot studies, day 6 was found suitable for enzyme production from Fusarium species using starch from Ipomoea batatas (sweet potato) tubers as the carbon source. The specific activity of the crude enzyme was 55.45µ/mg. After ammonium sulphate precipitation and gel filtration, the specific activities were found to be 35.93µ/mg and 119.61µ/mg, respectively which corresponds to 3.33 fold purification. The optimum pH and temperature of the partially purified enzyme were 6.0 and 50oC, respectively. The enzyme activity was strongly activated by Mn2+, Ca2+, and Mg2+ but inhibited by Co2+. The Michaeligs constant (Km) and maximum velocity (Vmax) obtained from the Lineweaver-Burk plot of initial velocity data at different substrate concentrations were 5.44mg/ml and 12.57µmol/min, respectively.
Thesis Overview
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