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Thesis

Comparison of Methods for Encapsulating Saccharomyces cerevisiae in Bacterial Cellulose produced by Komagataeibacter intermedius

Bacterial cellulose (BC) is a three-dimensional structure made up of nanofibrils that are
created by aerobic bacteria such as K.intermedius which is able to give a high yield of BC despite it
being a relatively new strain. BC is well known for its high crystallinity and water retention which are
favorable for encapsulating compounds. BC are also known to have wound healing properties but it
lacks antimicrobial activity. Probiotic in this case S.cerevisiae, is able to be encapsulated into BC to add
antimicrobial activity without triggering antibiotic resistance. S.cerevisiae is a well-known probiotic
that is able to have an antimicrobial effect against S.aureus and P.aeruginosa which are both common
pathogenic bacteria that are found in wounds.
This study aims to find the most effective method of encapsulating S.cerevisiae into BC that is
produced by K.intermedius as well as testing the antimicrobial activity of the encapsulated
S.cerevisiae. The encapsulation methods to be tested are adsorption-incubation, injection-incubation
and co-culture. The method that yields the highest probiotic loading number will be chosen and is
tested for the antimicrobial activity through the Kirby-Bauer test as well as the time kill assay. The
results however showed that method of encapsulation does not have an effect on the probiotic
loading number hence the most practical method, injection-incubation was chosen instead.
S.cerevisae probiotic BC produced through injection-incubation method was able to exhibit
antimicrobial activity towards S.aureus and P.aeruginosa. In the Kirby-Bauer test it is able to show that
it is more effective against S.aureus meanwhile in the time kill assay it has a larger bactericidal activity
against P.aeruginosa.

Availability
#
Reference Collection (BT Thesis) BT 21-002
T202109027
Available
Detail Information
Series Title
-
Call Number
BT 21-002
Publisher
i3L, Jakarta : i3L, Jakarta.,
Collation
-
Language
English
ISBN/ISSN
-
Classification
NONE
Content Type
-
Media Type
-
Carrier Type
-
Edition
-
Subject(s)
Bacterial cellulose,
encapsulation method,
S.cerevisiae,
K.intermedius,
antimicrobial activity.
Specific Detail Info
-
Statement of Responsibility
Other version/related

No other version available

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  • Comparison of Methods for Encapsulating Saccharomyces cerevisiae in Bacterial Cellulose produced by Komagataeibacter intermedius
    Bacterial cellulose (BC) is a three-dimensional structure made up of nanofibrils that are created by aerobic bacteria such as K.intermedius which is able to give a high yield of BC despite it being a relatively new strain. BC is well known for its high crystallinity and water retention which are favorable for encapsulating compounds. BC are also known to have wound healing properties but it lacks antimicrobial activity. Probiotic in this case S.cerevisiae, is able to be encapsulated into BC to add antimicrobial activity without triggering antibiotic resistance. S.cerevisiae is a well-known probiotic that is able to have an antimicrobial effect against S.aureus and P.aeruginosa which are both common pathogenic bacteria that are found in wounds. This study aims to find the most effective method of encapsulating S.cerevisiae into BC that is produced by K.intermedius as well as testing the antimicrobial activity of the encapsulated S.cerevisiae. The encapsulation methods to be tested are adsorption-incubation, injection-incubation and co-culture. The method that yields the highest probiotic loading number will be chosen and is tested for the antimicrobial activity through the Kirby-Bauer test as well as the time kill assay. The results however showed that method of encapsulation does not have an effect on the probiotic loading number hence the most practical method, injection-incubation was chosen instead. S.cerevisae probiotic BC produced through injection-incubation method was able to exhibit antimicrobial activity towards S.aureus and P.aeruginosa. In the Kirby-Bauer test it is able to show that it is more effective against S.aureus meanwhile in the time kill assay it has a larger bactericidal activity against P.aeruginosa.
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