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ABSTRACT

α-Amylase are enzymes that are used in the degradation of starch. This study focuses on optimizing the production of α-Amylase using locally isolated Aspergillus japonicus in defined and undefined medium.

Five grams of cocoyam waste, sweet potato waste, wheat waste and plantain peel were utilized as substrates during fermentation for the production of α-Amylase using 1 ml spore suspension as inoculum. The fermentation media contained in g/l (0.8 NaCl, 0.8 KCl, 0.1 CaCl2, 2.0 Na2HPO4, 0.1 FeSO4, 8.0 Fructose, 2.0 NH4Cl).  Temperature, pH, sugar content and amylase activity of the culture filtrates were monitored after every 48 hours. For optimization, mycelia was used as inoculum and different inoculum sizes (5%, 10% and 15%) were used for fermentation in a defined medium containing starch as substrate. The effect of urea as nitrogen source on α -Amylase activity was monitored. Different concentrations (2g and 5g) of cocoyam waste and sweet potato waste were also utilized for optimization using 10% inoculum. The effect of temperature and pH on amylase was determined.

Two grams (2g) of sweet potato waste with NH4Cl as nitrogen source, using 10% inoculum gave the highest yield of α-Amylase after 96 hours. The optimum pH and temperature for α -amylase production were pH 5 and 50 oC respectively.

The ability of the amylase to act within an acidic pH suggests that it is stable within a wide range of acidic pH (2 – 6) and its ability to withstand relatively high temperature (40 o C – 60 o C) above the optimum growth temperature  of A. japonicus suggests that it is thermo stable. The crude α-Amylase produced from A. japonicus retained 67% of its activity at 60oC.α-Amylase from this fungus has the potential to be utilized for various biotechnological processes. Agro industrial wastes which are often carelessly discarded into the environment causing health hazards can be utilized as cheap and readily available substrate for the production of alpha amylase hence, it is practicable to rid our environment of these hazardous wastes.

Keywords:α-Amylase, Aspergillus japonicus, Optimization, Agro industrial wastes,                            Environment

Word Count: 332

TABLE OF CONTENTS

Content                                                                                                                       Page

Title page                                                                                                                                    i

Certification                                                                                                                              ii

Dedication                                                                                                                                iii

Acknowledgements                                                                                                                iv

Abstract                                                                                                                                  v

Table of Contents                                                                                           vi

List of Tables                                                                                                              x

List of Figures                                                                                                             xi

List of Plates                                                                                                               xii

CHAPTER ONE: INTRODUCTION

1.1   Background to the Study                                                                                               1

1.2   Statement of the Problem                                                                                               3

1.3   Objective of the Study                                                                                                   4

1.4     Research Questions       4

1.5Significance of the Study                                                                                      5

1.6Justification for the Study                                                                                     5

CHAPTER TWO: REVIEW OF LITERATURE                        

2.1Agricultural Wastes                                                                                                           6

2.2  Plantain                                                                                                    6

2.3   Constituents of Plantain                                                                         6

2.3.1 Plantain peel                                                                                                                   7

2.4  Cocoyam                                                                                                              7

2.4.1 Constituents of cocoyam                                                                                               7

2.5  Sweet Potato                                                                                                                    7

2.5.1 Constituents of Sweet Potato                                                                                        8

2.6 Wheat                                                                                                                                8

2.6.1 Constituents of wheat                                                                                                    9

Content                                                                                                                                 Page

2.7 Enzymes                                                                                                                9

2.7.1 Amylases                                                                                                                          9

2.8 Microbial amylases                                                                                                            10

2.8.1 Fungal amylase                                                                                                              10

2.8.2 Bacterial amylase                                                                                                           11

2.8.3 Microbial amylase and degradable substrate                                                                 12

2.9  Starch                                                                                                                               13

2.10 Amylase assays                                                                                                               14

2.11  Effect of temperature on microbial amylase                                                                  16

2.12  Effect of pH on microbial amylase                                                                                16

2.13Amylase and Industrial applications                                                                                16

CHAPTER THREE: METHODOLOGY

3.1  Research Design                                                                                                  19

3.2 Population                                                                                                             19

3.3 Sample size and sampling Technique                                                                                19

3.3.1Processing of plantain peel substrate (PPW)                                                                  19

3.3.2Submerged fermentation of PPW                                                                                   19

3.3.3    Processing of wheat waste (WW)                                                                               20

3.3.4    Processing of cocoyam waste (CW)                                                                           20

3.3.5    Processing of sweet potato waste (SPW)                                                                   20

3.3.6    Submerged fermentation of CW, SPW and WW                                                         20

3.3.7    Sample size                                                                                                                 20

3.4Preparation of reagentsand buffer                                                                         21

3.5Isolation of Aspergillusjaponicus from cocoa                                                        21

3.5.1Molecular analysis and identification                                                                             22

3.5.2Inoculum preparation (spore)                                                                                          22

3.5.3Inoculum preparation (mycelia)                                                                          23

3.6       Determination of physicochemical parameters                                                           23

pH                                                                                                                               23

Content                                                                                                                                 Page

Determination of sugar content                                                                                  23

3.7       Extraction of crude enzyme                                                                                          23

3.8       Amylase assay in crude enzyme                                                                                 23

3.9       Production of α-Amylase using a chemically defined medium                                  24

3.10     Optimization                                                                                                               24

3.11     Effect of temperature on amylase activity                                                                  24

3.12     Effect of pH on amylase activity                                                                                24

3.13     Statistical analysis                                                                                                       24

CHAPTER FOUR: DATA ANALYSIS, RESULTS AND DISCUSSION OF FINDINGS

4.1       Results                                                                                                                        25

4.1.1    Growth of A. japonicus on PDA                                                                                25

4.1.2    Optimization of temperature for fermentation                                                             25

4.1.3    pH in the culture filtrates containing SPW, CW, PW and WW                                   28

4.1.4    Sugar content in the culture filtrates containing SPW, CW, PW and WW                  28

4.1.5    Amylase activity in crude enzyme produced by A. japonicus in undefined medium  31

4.1.6    pH of culture filtrates in defined medium                                                                    31

4.1.7    Amylase activity of crude enzyme by A. japonicus  in defined medium                     34

4.1.8    Effect of urea on α-Amylase production by A. japonicus in defined medium             34

4.1.9    Optimizing α-Amylase production using 2 g of SPW and CW                                    37

4.1.10  Optimizing α-Amylase production using 5 g of SPW and CW                                    37

4.1.11  Effect of pH on amylase activity                                                                                  40

4.1.12  Effect of temperature on amylase activity                                                                    40

4.2       Discussion                                                                                                                  43

4.2.1Introduction                                                                                                                    43

4.2.2    pH in the culture filtrates containing SPW, CW, PW and WW                                 43

4.2.3    Sugar content in the culture filtrates containing SPW, CW, PW and WW                  43

4.2.4    Amylase activity in crude enzyme produced by A. japonicusin undefined medium 44

4.2.5    Amylase activity of crude enzyme in defined medium using different mycelia suspensions of A. japonicus as inoculum                                                                         44

Content                                                                                                                                 Page

4.2.6    Optimization of crude α-Amylase by A. japonicusin a defined medium using

urea as nitrogen source                                                                                                45

4.2.7    Optimization of α-Amylase production using varying concentrations of CW

and SWP                                                                                                                     45

4.2.8    Effect of  pH on crude α-Amylase produced by A. japonicus                                   45

4.2.9Effect of temperature on crude α-Amylase produced by A. japonicus                46

 

CHAPTER FIVE: SUMMARY, CONCLUSION AND RECOMMENDATIONS                                                                         5.1       Summary                                                                                                                       47

5.2       Conclusion                                                                                                                  47

5.3       Recommendations                                                                                                      47

5.4       Limitation of the Study                                                                                              48

REFERENCES                                                                                                                    49

LIST OF TABLES

Table                                                                                                               Page

1          Effect of temperature on fermentation                                                           27

2          pH of the culture filtrates using 1 ml spore suspension of A. japonicus29

3          Sugar content in the culture filtrates using 1 ml spore suspension of A. japonicus      30

4          Amylase activity of the crude enzyme using 1 ml spore suspension of A. japonicus 32

5          pH of culture filtrates in a defined medium using different inoculum mycelia

suspensions of A. japonicus as inoculum                                                        33

6          Amylase activity of crude in defined medium using different mycelia suspensions

of A. japonicus as inoculum                                                                            35

7          Optimization of crude α-Amylase in adefined medium using urea as nitrogen

source                                                                                                             36

LIST OF FIGURES

Figure                                                                                                                          Page

1          Optimization of α-Amylase production by A. japonicus using 2 g CW

and 2 g SWP                                                                                                               38

2          Optimization of α-Amylase production by A. japonicus using 5 g CW

and 5 g SWP                                                                                                               39

3          Effect of pH on crude α-Amylase produced by A. japonicus                                                41

4          Effect of temperature on crude α-Amylase produced by A. japonicus                      42

LIST OF PLATE

Plate                                                                                                                Page

1Aspergillus japonicus on PDA after 5 days of incubation                                        26

CHAPTER ONE

INTRODUCTION

1.1       Background to the Study

Amylases are enzymes that are well known for their applications in starch, food, brewing, distilling, textile, paper and pharmaceutical industries (Gupta et al., 2003; Krishna et al., 2011; Pandey et al., 2000). They are currently utilized in various fields e.g. brewing industries, medicinal, analytical chemistry and food processing (Anto et al., 2006; Chimata et al., 2010; Nimkar et al., 2010). This wide range of applications is the reason for the industrial production of amylase (Khan & Yadav, 2011). Amylases are one of the most important and well-known enzymes that can hydrolyse starch or glycogen (Krishna et al., 2011). They hydrolyse α 1-4 glycosidic bonds of glycogen, amylopectin and other related compounds (Lehninger, 1982). It can be produced by submerged fermentation or solid state fermentation (Egas et al., 1998; Khan & Yadav, 2011; Krishna, 2011). The enzyme is one of the mostly sought after, as it has huge importance in biotechnology; comprising a group of industrial enzymes that controls about 25% of the total enzyme market of the world (Rajagopalam & Krishnan, 2008; Reddy et al., 2003).

Amylases are a group of hydrolases that split the O-glycosidic bonds present in starch thereby breaking starch into simple units (Alva et al., 2007; Crabb & Mitchinson, 1997). They have been reported to be produced by microbial, plant and animal sources, although amylase produced by microorganims has been reported to be most effective (Khan & Yadav, 2011). A wide range of microorganisms, such as bacteria and fungi are utilized in the industrial production of amylases (Krishna et al., 2011). The use of microbes for the production of amylases is economical because microorganisms can be easily manipulated to produce metabolites e.g. enzymes (Aiyer, 2005). However, fungi are preferred over bacteria for enzyme production because of their filamentous nature, which helps in its penetration through solid substrate (Ramachandran et al., 2004).

The synthetic media utilized for the production of amylases are costly and this poses a major challenge to researchers especially in developing countries. Hence, researches are now focused on methods to reduce production cost (Khan & Yadav, 2011). Wastes from agro based industries have been reported to be good and readily available substrates for the cost effective production of α-Amylase (Kirankumar et al., 2011; Pandey et al., 2000). Agrarian nations possess inexhaustible supply of wastes annually generated from their breweries, rice mills, yam flour, plantain and banana chips producing outfits, processing units, and other small industries (Adeniran & Abiose, 2009).

The generation of waste materials (e.g. peels) emanating from the utilization of food and other food products pose potentially severe pollution problems and represent a loss of valuable biomass. Some of these wastes are usually carelessly dumped in the environment where they are left to decay. Soil and plant around the heaps of the waste are usually considered unproductive due to chemical and biological reactions that take place between the decomposing wastes, soil and the surrounding vegetation (Ajao et al., 2009; El-Shimi et al., 1987). Apart from their environmental pollution aspects, generally, these wastes may have the potential to be utilized as raw material for other industries or for their use as feed or food after biological treatment (Okolo et al., 1995). Agro industrial wastes include plantain peel, cocoyam waste, sweet potato waste, cocoyam waste, cassava waste, wheat bran, rice husk, banana peel, vegetable waste and citrus waste.

Plantain (Musa spp.) occupies a strategic position for rapid production of food in Nigeria. It is ranked third among starchy staples (IITA, 2014). The “total world production of plantain is estimated to be over 75 million metric tons (John & Marchal, 1995) out of which 12 million metric tons are produced annually in Africa (Fakayode et al., 2011)”. Nigeria is one of the leading producers of plantain worldwide, it is the largest producer in West Africa producing about 2.4 million metric tons yearly (FAO, 2006). However, Nigeria is not an exporter of plantain because production is more for local consumption (Fortaleza, 2012). About 15 million people depend on plantain as their major source of carbohydrate (Adeolu & Enesi, 2013). The high demand for plantain also generates wastes which are often discarded, and sometimes used as animal feeds (Olabanji et al., 2012).

In Nigeria, the ripe fruit are processed into different forms for consumption either by boiling, frying and roasting. Considerable interest has been generated, in the recent years, for value addition to plantain, such as the production of plantain chips, dodoikire (commonly sold along highway in the South Western part of Nigeria) and plantain powder because of improper storage facilities which usually lead to postharvest losses. During the course of producing some of these products, the plantain peel accumulates in bulk posing serious environmental problems.

Over the years, cocoyam has been a major crop in the system of farming in South Eastern and South Western part of Nigeria. It is one of the most important tuber crops grown in this region. The tubers contain starch that serves as dietary fibre, it can be boiled, roasted, fried and eaten with palm oil (Ezejiofor, 2012). Nigeria is the largest producer of cocoyam in the world (Okoye, et al., 2008; Onwueme, 1987). Over 20 million tonnes of cocoyam yields are annually wasted because of improper storage (IITA, 2009). It is consumed as vegetables by many rural inhabitats where they are available in large quantities (Okigbo, 1987). It is not expensive and usually available throughout the year (Braide & Nwaoguikpe, 2011). The high level of carbohydrate in cocoyam has not been completely harnessed in the industries (Nwufo & Fajola, 1998). Nigeria is one of the foremost producers of root crops such as cocoyam, which is one of the most under-utilized crops with huge economic potential (Eneh, 2013; Onwuka & Eneh, 1998).

Sweet potato is the seventh most important food crop in the world (Betiku et al., 2013). It is a vital food crop worldwide (Hasem et al., 2015).  It is one the most important crops on fresh-weight basis in some developing nations after cassava, wheat, rice and maize (Ezeano, 2010). Ezeano (2010) reported that, there seems to be a rise in the growing and usage of sweet potato in Nigeria because of new development employed by farmers.

Wheat is cultivated worldwide; it has been cultivated in Nigeria for some time (Ohiagu et al., 1987; Olugbemi et al., 1979). Olabanji et al. (2007) reported that the cultivated varieties are relatively recent introduction. Wheat is used for the production of bread, semolina and for fermentation to make alcoholic beer (Poehlman, 1959), vodka (Palmer, 2001) or biofuel (Neil 2002). It is also used for the production of pasta and noodles (Li et al., 2014).

1.2       Statement of the Problem

The synthetic media used in the production of α-Amylase is expensive and this poses a major challenge for a developing country like Nigeria. There is a need to explore other cheaper and readily available substrates for the production of this enzyme. Nigeria is the largest producer of cocoyam and one of the leading producers of sweet potato and plantain in the world. However, cocoyam and sweet potato are under-exploited and a significant portion is often wasted. Most of the plantain produced in Nigeria is consumed locally; the epicarp of the plantain (plantain peel) is often considered as waste and is usually carelessly discarded. Additionally, Nigeria is not a major producer of wheat but this does not forestall the importation, processing and consumption of wheat and wheat products. The accumulation of wastes from these crops may contribute to environmental and health hazards in different parts of the country. This study aims at generating additional value to cocoyam, sweet potato, plantain and wheat by utilizing its waste as substrates for the production of α-Amylase.

 

1.3       Objective of the Study

            The main objective of this study was to utilize different agro wastes for the production of α-Amylase enzyme using locally isolated Aspergillus sp. in submerged fermentation. The specific objectives are to:

  1. evaluate the production of α-Amylase by Aspergillus sp. in defined and undefined growth media;
  2. determine pH and sugar content in the culture filtrates;
  3. extract the crude alpha amylase produced during fermentation;
  4. determine the amylase activity;
  5. optimize α-Amylase production and
  6. determine the effect of pH of temperature on α-Amylase.

 

1.4       Research Questions

  1. Are there differences in amylase production using defined medium and/or undefined medium?
  2. Are there variations in the pH, temperature and sugar content in the different culture filtrates?
  3. How can the crude alpha amylase produced during fermentation be extracted?
  4. How can the α-Amylase activity be determined?
  5. How can α-Amylase production be optimized?
  6. How will varying temperature and pH affect the crude α-Amylase produced?

 

 

1.5       Significance of the Study

This study would provide baseline information about the ability of a locally isolated Aspergillus sp. to utilize pre-treated cocoyam and sweet potato waste for α-Amylase production. It would also add to the existing literature the possibility of utilizing wheat waste and plantain peel as a cheap and readily available substrate for α-Amylase production using locally isolated Aspergillus sp. from pulverise cocoa.

1.6       Justification for the Study

Wastes generated from plants poses serious environmental and health hazard to humans. This study would focus on utilizing agro wastes for α-Amylase production in a view to converting these agro industrial and potentially hazardous “wastes to wealth”.

 

 

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