Utilization of Non-rubber Skim Latex for Poly(L-lactide)-degrading Enzyme Production by Actinomadura keratinilytica Strain T16-1

Utilization of Non-rubber Skim Latex for Poly(L-lactide)-degrading Enzyme Production by Actinomadura keratinilytica Strain T16-1

This research demonstrated a new method to utilize nutrient composition in non-rubber skim latex for Poly (L-lactic acid) (PLA)-degrading enzymes production due to the enzyme is a very important trend regarding recycling plastic wastes in the future. Moreover, we attempted to find an alternative sup...

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Main Authors: Sabadee Worrathampitak, Shinji Tokuyama, Vichien Kitpreechavanich, Sukhumaporn Sukkhum
Format: บทความวารสาร
Language:English
Published: Science Faculty of Chiang Mai University 2019
Online Access:http://it.science.cmu.ac.th/ejournal/dl.php?journal_id=7360
http://cmuir.cmu.ac.th/jspui/handle/6653943832/63792
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Institution: Chiang Mai University
Language: English
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spelling th-cmuir.6653943832-637922019-05-07T09:57:18Z Utilization of Non-rubber Skim Latex for Poly(L-lactide)-degrading Enzyme Production by Actinomadura keratinilytica Strain T16-1 Sabadee Worrathampitak Shinji Tokuyama Vichien Kitpreechavanich Sukhumaporn Sukkhum This research demonstrated a new method to utilize nutrient composition in non-rubber skim latex for Poly (L-lactic acid) (PLA)-degrading enzymes production due to the enzyme is a very important trend regarding recycling plastic wastes in the future. Moreover, we attempted to find an alternative supporter such as scrub pad for cell immobilization and used as material for the enzyme production under open continuous fermentation. The PLA-degrading enzyme production was determined using a non-rubber skim latex and basal medium containing 0.035% (w/v) PLA powder and 1% (w/v) scrub pad as a supporter for the bacterial cells in a shake flask and fermenter. The effect of the physical parameters and the nitrogen sources were studied. The following optimal conditions were used: gelatin as the nitrogen source, a temperature of 45°C, an initial pH of 7.0, an agitation speed of 100 rpm, without aeration support and 3 days of cultivation. This resulted in an activity of approximately 41 U/ml and 0.56 U/ml.h of productivity in the 2 L fermenter. The highest PLA-degrading activity, 45 U/ml, was achieved in the fermenter by a continuous process under open fermentation with a dilution rate of 0.013 h-1. These results mean that non-rubber skim latex has the potential for PLA-degrading enzyme production through an open fermentation method in strain T16-1. 2019-05-07T09:57:18Z 2019-05-07T09:57:18Z 2016 บทความวารสาร 0125-2526 http://it.science.cmu.ac.th/ejournal/dl.php?journal_id=7360 http://cmuir.cmu.ac.th/jspui/handle/6653943832/63792 Eng Science Faculty of Chiang Mai University
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
language English
description This research demonstrated a new method to utilize nutrient composition in non-rubber skim latex for Poly (L-lactic acid) (PLA)-degrading enzymes production due to the enzyme is a very important trend regarding recycling plastic wastes in the future. Moreover, we attempted to find an alternative supporter such as scrub pad for cell immobilization and used as material for the enzyme production under open continuous fermentation. The PLA-degrading enzyme production was determined using a non-rubber skim latex and basal medium containing 0.035% (w/v) PLA powder and 1% (w/v) scrub pad as a supporter for the bacterial cells in a shake flask and fermenter. The effect of the physical parameters and the nitrogen sources were studied. The following optimal conditions were used: gelatin as the nitrogen source, a temperature of 45°C, an initial pH of 7.0, an agitation speed of 100 rpm, without aeration support and 3 days of cultivation. This resulted in an activity of approximately 41 U/ml and 0.56 U/ml.h of productivity in the 2 L fermenter. The highest PLA-degrading activity, 45 U/ml, was achieved in the fermenter by a continuous process under open fermentation with a dilution rate of 0.013 h-1. These results mean that non-rubber skim latex has the potential for PLA-degrading enzyme production through an open fermentation method in strain T16-1.
format บทความวารสาร
author Sabadee Worrathampitak
Shinji Tokuyama
Vichien Kitpreechavanich
Sukhumaporn Sukkhum
spellingShingle Sabadee Worrathampitak
Shinji Tokuyama
Vichien Kitpreechavanich
Sukhumaporn Sukkhum
Utilization of Non-rubber Skim Latex for Poly(L-lactide)-degrading Enzyme Production by Actinomadura keratinilytica Strain T16-1
author_facet Sabadee Worrathampitak
Shinji Tokuyama
Vichien Kitpreechavanich
Sukhumaporn Sukkhum
author_sort Sabadee Worrathampitak
title Utilization of Non-rubber Skim Latex for Poly(L-lactide)-degrading Enzyme Production by Actinomadura keratinilytica Strain T16-1
title_short Utilization of Non-rubber Skim Latex for Poly(L-lactide)-degrading Enzyme Production by Actinomadura keratinilytica Strain T16-1
title_full Utilization of Non-rubber Skim Latex for Poly(L-lactide)-degrading Enzyme Production by Actinomadura keratinilytica Strain T16-1
title_fullStr Utilization of Non-rubber Skim Latex for Poly(L-lactide)-degrading Enzyme Production by Actinomadura keratinilytica Strain T16-1
title_full_unstemmed Utilization of Non-rubber Skim Latex for Poly(L-lactide)-degrading Enzyme Production by Actinomadura keratinilytica Strain T16-1
title_sort utilization of non-rubber skim latex for poly(l-lactide)-degrading enzyme production by actinomadura keratinilytica strain t16-1
publisher Science Faculty of Chiang Mai University
publishDate 2019
url http://it.science.cmu.ac.th/ejournal/dl.php?journal_id=7360
http://cmuir.cmu.ac.th/jspui/handle/6653943832/63792
_version_ 1681425961148481536

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