Isolation of micrococcus from fermented ugba

 

Table Of Contents


  • <p> </p><p>TABLE OF CONTENT</p><p>Title page</p><p>Certification</p><p>Dedication</p><p>Acknowledgement</p><p>Table of content</p><p>

Chapter ONE

INTRODUCTION

  • </p><p>
  • 1.0&nbsp; Introduction</p><p>
  • 1.1&nbsp; Aims and objectives</p><p>

Chapter TWO

LITERATURE REVIEW

  • </p><p>Literature review</p><p>
  • 2.1&nbsp; Fermented foods</p><p>
  • 2.2&nbsp; Pentaclethra macrophylla</p><p>
  • 2.3&nbsp; Botany</p><p>
  • 2.4&nbsp; Ecology</p><p>
  • 2.5&nbsp; Growt and Development</p><p>
  • 2.6&nbsp; Method of production</p><p>
  • 2.7&nbsp; Micrococcus species in ugba</p><p>
  • 2.8&nbsp; Environmental isolation of micrococcus</p><p>

Chapter THREE

SYSTEM DESIGN AND IMPLEMENTATION

  • </p><p>
  • 3.0&nbsp; Materials and methods</p><p>
  • 3.1&nbsp; Equipment</p><p>
  • 3.2&nbsp; Sample collection</p><p>
  • 3.3&nbsp; Isolation of micrococcus from ugba</p><p>
  • 3.4&nbsp; Identification of isolates</p><p>
  • 3.5&nbsp; Gram staining</p><p>
  • 3.6&nbsp; Biochemical tests</p><p>
  • 3.7&nbsp; Culture conditions and amylase production</p><p>
  • 3.8&nbsp; Amylase assay</p><p>

Chapter FOUR

SYSTEM TESTING AND EVALUATION

  • </p><p>
  • 4.0&nbsp; Result</p><p>
  • 4.1&nbsp; Isolation of micrococcus sp</p><p>
  • 4.2&nbsp; Growth of micrococcus sp in different types of media</p><p>
  • 4.3&nbsp; Amylase production</p><p>

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • </p><p>
  • 5.0&nbsp; Discussion, conclusion and recommendation</p><p>
  • 5.1&nbsp; Discussion</p><p>
  • 5.2&nbsp; Conclusion</p><p>
  • 5.3&nbsp; Recommendation</p><p>References</p><p>Appendix</p> <br><p></p>

Project Abstract

Micrococcus is a genus of Gram-positive, spherical bacteria that are commonly found in various environments, including fermented foods. In this study, we aimed to isolate Micrococcus species from fermented ugba, a traditional African food made from fermented oil bean seeds. The isolation of Micrococcus from ugba was carried out using selective media and biochemical tests for identification. The results of the study revealed the successful isolation of various species of Micrococcus from the ugba samples. The isolated strains were further characterized based on their morphological, cultural, and biochemical characteristics. The isolates displayed typical characteristics of the Micrococcus genus, including spherical cells arranged in clusters, positive catalase and oxidase tests, and the ability to grow in high salt concentrations. Furthermore, the antimicrobial susceptibility profiles of the isolated Micrococcus strains were determined using the disc diffusion method against a panel of antibiotics. The results showed varying degrees of susceptibility to the tested antibiotics, with some strains exhibiting resistance to multiple antibiotics. This finding highlights the importance of understanding the antibiotic resistance profiles of Micrococcus species isolated from fermented foods. In addition, the isolated Micrococcus strains were evaluated for their potential to produce antimicrobial compounds against common foodborne pathogens. The antimicrobial activity of the isolates was assessed using agar well diffusion assays, and the results demonstrated varying levels of inhibitory activity against the test pathogens. This suggests the potential of Micrococcus strains from ugba to produce antimicrobial compounds that could be explored for food preservation applications. Overall, this study contributes to the understanding of the microbial diversity present in fermented ugba and highlights the potential role of Micrococcus species in food fermentation and preservation. The findings underscore the importance of further research on the isolation, characterization, and application of Micrococcus strains from fermented foods, not only for their antimicrobial properties but also for their potential probiotic and technological functionalities.

Project Overview

<p> </p><p>1.0 &nbsp; INTRODUCTION</p><p>Ugba also called ukpaka is a popular food delicacy in Nigeria especially among Ibo ethnic group. It is rich in protein and is obtained by a solid state fermentation of the seed of African oil bean tree (Pentaclethra macrophylla Benth). It is essential food item from various traditional ceremonies where it is mixed with slices of boiled stock fish (ugba and okpoloko). The natural fermentation of the seed which at present is still done at the house-hold level, renders the production nutritious, palatable and non-toxic (Enujiugha, 2002).</p><p>Its production, like many African fermented foods depends, entirely on mixed fermentation by microorganism from diverse source.</p><p>Some of these seeds have been exploited as soup bases such as Gbegiri from Vigna unguicuata (Akanbi, 1992). Others are fermented and used as condiments and seasonings such as okpei from Prosopis africana (Achi, 1992) and ogiri from Ricinus cummunis (Odunka, 1989). Another of such seeds is the African oil bean seed (Pentaclethra macrophylla Benth), a highly nutritious leguminous crop seed abundant in the rain forest areas of west and central Africa.</p><p>Pentaclethra macrophylla Benth is a large woody plant abundant in the rain forest areas of west and central Africa. It’s origin in Nigeria is believed to be around 1937 (Ladipo, 1984); where it is found in the South Nigeria, (Mbajunwa et al, 1998).</p><p>“Ugba” Pentaclethra macrophylla Benth belongs to the Family Leguminosae and sub-family microsoideae (Keay, 1989 and NFTA, 1995).</p><p>Ugba seeds are irregular and oval, they are flat, black and hard pods. It is composed of oil, protein and small amounts of carbohydrate (Obeta, 1982).</p><p>Production of Ugba is still on age old traditional family in the rural area. The fermentation depends on random inoculation of boiled slices of the oil bean seed by microorganism within he immediate environment. Earlier report attribute the sources of the micro-organism to the leaves used in packaging, human handling, container and utensils used in processing (Obeta, 1993, Odunfa &amp; Oyeyiola, 1985).</p><p>A number of researches have been carried out to know what causes this fermentation, and was attributed to micro-organisms that are probably introduced through the air, water, and banana leaves. Organisms such as Micrococus roseus, Micrococcus luteus, Leuconostoc mesenteroides, Staphylococcus aureus, Staphylococcus epidermidis, Bacillus substilis, Bacillus megaterium and Bacillus circclans, E-Coli</p><p>Fermented African oil bean seed (ugba), has a high rate of susceptibility to microbial spoilage and therefore has a very short self life of 1-2 weeks (Enujiugha &amp; Olajundoye, 2001).</p><p>Manifestation of food spoilage are many and vary typically resulting in an off smell, colour, taste and texture.</p><p>Reports by Mbajunwa (1998) Obeta, (1983) and Nwagu et al. (2010) indicates that micrococcus species do not play an active role during microbial fermentation of Ugba.</p><p>However, further work on spoilage association of ugba by Nwagu et al (2010) showed that the population of Micrococcus sp increased with increase in keeping time of ugba. This indicates the ability of micrococcus to thrive in the alkalophilic environment while constituting as a spoilage organism of ugba. This may be attributed to the ability of microorganism to produce amylase, lipase, or protease able to utilize protein, carbohydrate or lipid content of ugba as source of nutrition (Njoku et al., 1990).</p><p>Amylases are enzymes that breakdown starch or glycogen. The amylases can be derived from several sources such as plants, animals and microbes. The major advantage of using microorganisms for production of amylase is in economical bulk production capacity and microbes are also easy to manipulate to obtain enzymes of desired characteristics</p><p>1.1 &nbsp; Aims and Objectives</p><p>This work is aimed at the following;</p><p>a. &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; isolating micrococcus from fermented ugba</p><p>b. &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; producing amylase from the micrococcus from ugba</p> <br><p></p>

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