ABTRACT
The investigation of the ethanol tolerant yeast in palm wine was carried out .isolation of yeast from fresh palm wine was examined with the use of Sabraud agar and glucose yeast agar. Yeast were isolated from palm wine and characterized and identified five randomly selected Palm wine were cultured by pour plate and spread plate method obtained results showed five primary yeast species with varying prevalent in palm wine samples. Five yeast were isolated Saccharomyce cerevisiae, Saccharomyce globbus, Saccharomyce uvarum and Saccharomyce latis. Sacchromyce cerevisiae was found in all samples.
TABLE OF CONTENTS
Title Page …………….………………………………………………………..………i
Certification………….……………………………………………………………….. ii
Dedication ………….…………………………………………...……….……………iii
Acknowledgment ….………………………………….……...………….……….…...iv
Table of Contents …………………………………………………………………......vi
List of tables……………………………………………………………………...........vii
Abstract... …………………………………………………………………..……….…v
1.0 Introduction...……………………………………………………………….........1
1.1 Background of study……………………………………………………………..1
1.2 Objectives of the
research……………………………...…………………………4
CHAPTER TWO
2.0 Literature Review…………………………………………..……………………5
2.1 Yeast…………………………………………………………………………… 6
2.2 Taxonomy of borne
yeast………………………………………………………..6
2.3 Yeast strain………………………………………………………………………8
2.4 Characteristics of
yeast………………………………………………………….12
2.5 Growth and nutrition of yeast……………………………………………...........13
2.6 Factors affecting
yeast growth………………………………………………….13
2.7 Reproduction………………………………………………………………........14
2.8 Uses of yeast…………………………………………………………………….15
CHAPTER THREE
3.0 Materials and Methods…………………………………………………………..17
3.1 Source of materials……………………………………………………………….17
3.2 Sampling and sample
preparations……………………………………………….17
3.3 Media preparations……………………………………………………………….17
3.4 Isolation of yeast
from palm wine……………………………………..………....18
3.5 Tests from ethanol
tolerance……………………………………………………...18
3.6 Characterization of
yeast isolates………………………………………………...19
CHAPTER FOUR
4.0 Results……………………………………………………………………….……21
CHAPTER FIVE
5.0 Discussion…………………………………………………………………………30
5.1 Conclusion………………………………………………………………………...30
5.2 Recommendation………………………………………………………………….31
References
LIST OF TABLES
Table Title
Page
1 Characterization
of yeast isolate 21
2
Frequency of occurrence of yeast in fresh palm wine 24
3
Tolerance of yeast isolates for ethanol produced during palm wine 26
4 Changes
in acohol content of fermenting palm wine 28
CHAPTER ONE
1.0
INTRODUCTION
1.1 BACKGROUND OF STUDY
The
tolerance mechanism in yeast is not very well understood. This may result from
the complex inhibitory mechanisms of ethanol, the lack of a universally accepted
definition and method to measure ethanol tolerance and its complex polygenic characteristic.
Recently, there has been some progress in understanding ethanol tolerance. Plasma
membrane phospholipids have been shown to play an important role in the ethanol
tolerance mechanism increases in membrane unsaturated fatty acids result in
increased yeast ethanol tolerance. Supplementation of growth media with
combinations of unsaturated fatty acid, vitamins and proteins also enhance
ethanol tolerance. Physiological factors such as mode of substrate feeding, intracellular
ethanol accumulation, temperature and osmotic pressure all contribute to the
ethanol tolerance of yeast. The complex nature of ethanol toxicity suggests
that a number of different genes are likely to be involved in the ethanol tolerance
mechanism. Genetic approaches such as spheroplast or protoplast fusion, hybridization
and continuous culture selection have been used to obtain ethanol tolerance
yeasts; isolation and characterization of such strains may provide a better understanding
of ethanol tolerance (1987 published by Elsevier Inc.). Nowadays, manufacturers
have begun to show unprecedented interest in innovations by introducing
benefits from re-engineering and genetic manipulation. These innovations were
ushered in because of certain constraints intrinsic to the organism being used
for the respective manufacturing process. These include the need to improve
yeast resistance to ethanol, mutagens, temperature, carbon dioxide as well as
eliminating production of other compounds which may contaminate the production
of other compounds which may contaminate the production of other compounds
which may contaminate the product and of course improve both yield and product
recovery (Aunstrup,2007).In order to obtain strain showing more suitable
properties genetic manipulation method have been used (Dubey,2009).However due
to the euploid, diploid or polyploid nature of most strains of yeast used
diploid or polyploidy nature of most strains of yeast used in ethanol
fermentation, traditional crossing techniques have not been very useful. This
made the use of other technologies such as classical mutagenesis, protoplast
fusion and transformation necessary (Arnord and jose,2008).However classical mutagenesis
which involves the production of mutants by the exposure of microbial strains
to mutagenic chemicals or ultraviolet rays to induce changes in their genomes
leading to the production of improved strains would be the main focused of this
research work seven days (168 hours ) ethanol tolerance saccharomyces specie s isolated from palm wine sap would be
subjected to mutagenic effect of acridine orange (a basic fluorescent dye that
selectively binds to genetic material and can differentiate between
deoxyribonucleic acid (DNA) and ribonucleic acid (RNA),such mutants may,
however show undesirable secondary mutation which can influence the behavior of
cultures during fermentation. Sacchromyce
appear microscopically as globose or ovoidal cells with multilateral budding
and possibly psedohyphae .The yeast form one to four ascospors ,which are
smooth and ellipsoidal. Colonies appear smooth, usually flat and occasionally
raised and opaque (martini and martini, 1998). The two primary species found in
wines, Sacchromyce bayanus and Sacchromyce cerevisiae (anamorph: candida
robusta),ferment glucose, sucrose, maltose, raffinose,and ethanol but not nitrate.
Sacchromyce can not utilize five carbon sugars ( pentoses) (Kudo et al,1988). On a dry weight basis Sacchromyce contains 3%to5% phosphate,2.5%
potassium,0.3%to 0.4% magnesium,0.5% sulfure, and trace amount of
calcium, chlorine, copper, iron, zinc, and manganese(monk, 1994; walker,1998).Other
minerals needed by Sacchromyces
during fermentations have a variety of function but are used primarily as
enzymes activators. Beside minerals,yeasts require various vitamins such as
thiamin, riboflavin, pantothenic acid,pyridoxine,nicotinamide, biotin,and
inositol depending on species and specific growing conditions (Monk, 1994;Ough et al.,1989).In general, practically all
strains of Sacchromyces require
biotin and pantothenic acid while some also need inostilol and thiamin for
synthesis of nucleic acid, protein and fatty acids (Walker, 1998).
Palm
wine is a traditional wine extracted from palm trees Elaeis guineesis and Raphia
hookeri.palm wine is consumed because of its probiotic content (Ezeronye
2004;lourens-hattinigh and Wiljeon 2001; Heller 2001). Palm wine is consumed
throughout the tropics and appears as a whitish liquid produced by natural
fermentation of the sap of Elieas
guineensis and Raphia hookeri (Uzogara
et al, 1990; Uzochukwu et al, 1991). The unfermented sap is
clean, sweet, colourless syrup containg about 10-12% sugar which is mainly
sucrose (Bassir, 1962; okafor,1975a).Upon fermentation by the natural microbial
flora,the sugar level decreases rapidly as it is converted to alcohol and other
products (Obire, 2005) whereas, the sap becomes milky-white due to the increase
microbial suspension resulting from the
prolific growth of the fermenting organism (okafor,1975). Palm wine is
characterized by an effervescence of gas resulting fro the fermentation of the
sucrose content, by the fermentation organisms( Bassir, 1962). Previous study
of microbiology of Elaies guineensis and Raphia hookie have
incriminated several bacterial and yeast flora to be involved in the
fermentation process (Fapa-runsi and Bassir, 1972; okafaor, 1972; okafor, 1975;
Eze and ogan, 1987; Amanchukuru et al., 1989; Ejiofor,1994; Orimaiye,
1997; nester et al., 2004).These
organism have also been reported to originate from several sources, which
include tapping equipment, containers, the environment, etc (Faparunsi and
Bassir 1972; Eapen, 1979).
1.2 OBJECTIVE OF
RESEARCH
The
main objective of this study is to identify high ethanol tolerant yeast in palm
wine. The objectives specifically include the following:
1. To
isolate, characterize and identify yeasts from palm wine.
2. To
test the ability of the different yeasts to tolerate during growth.
3. To
identify the particular yeasts that can withstand high ethanol concentration.
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