Growth enhancement of probiotic pediococcus acidilactici by extractive fermentation of lactic acid exploiting anion-exchange resin

Growth enhancement of probiotic pediococcus acidilactici by extractive fermentation of lactic acid exploiting anion-exchange resin

Fermentation employing lactic acid bacteria (LAB) often suffers end-product inhibition which reduces the cell growth rate and the production of metabolite. The utility of adsorbent resins for in situ lactic acid removal to enhance the cultivation performance of probiotic, Pediococcus acidilactici wa...

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Main Authors: Othman, Majdiah, Ariff, Arbakariya, Kapri, Mohd Rizal, Rios-Solis, Leonardo, Halim, Murni
Format: Article
Language:English
Published: Frontiers Media 2018
Online Access:http://psasir.upm.edu.my/id/eprint/74471/1/Growth%20enhancement.pdf
http://psasir.upm.edu.my/id/eprint/74471/
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Institution: Universiti Putra Malaysia
Language: English
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spelling my.upm.eprints.744712020-02-27T03:51:35Z http://psasir.upm.edu.my/id/eprint/74471/ Growth enhancement of probiotic pediococcus acidilactici by extractive fermentation of lactic acid exploiting anion-exchange resin Othman, Majdiah Ariff, Arbakariya Kapri, Mohd Rizal Rios-Solis, Leonardo Halim, Murni Fermentation employing lactic acid bacteria (LAB) often suffers end-product inhibition which reduces the cell growth rate and the production of metabolite. The utility of adsorbent resins for in situ lactic acid removal to enhance the cultivation performance of probiotic, Pediococcus acidilactici was studied. Weak base anion-exchange resin, Amberlite IRA 67 gave the highest maximum uptake capacity of lactic acid based on Langmuir adsorption isotherm (0.996 g lactic acid/g wet resin) compared to the other tested anion-exchange resins (Amberlite IRA 410, Amberlite IRA 400, Duolite A7 and Bowex MSA). The application of Amberlite IRA 67 improved the growth of P. acidilactici about 67 times compared to the control fermentation without resin addition. Nevertheless, the in situ addition of dispersed resin in the culture created shear stress by resins collision and caused direct shear force to the cells. The growth of P. acidilactici in the integrated bioreactor-internal column system containing anion-exchange resin was further improved by 1.4 times over that obtained in the bioreactor containing dispersed resin. The improvement of the P. acidilactici growth indicated that extractive fermentation using solid phase is an effective approach for reducing by-product inhibition and increasing product titer. Frontiers Media 2018 Article PeerReviewed text en http://psasir.upm.edu.my/id/eprint/74471/1/Growth%20enhancement.pdf Othman, Majdiah and Ariff, Arbakariya and Kapri, Mohd Rizal and Rios-Solis, Leonardo and Halim, Murni (2018) Growth enhancement of probiotic pediococcus acidilactici by extractive fermentation of lactic acid exploiting anion-exchange resin. Frontiers in Microbiology, 9. pp. 1-11. ISSN ESSN: 1664-302X 10.3389/fmicb.2018.02554
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description Fermentation employing lactic acid bacteria (LAB) often suffers end-product inhibition which reduces the cell growth rate and the production of metabolite. The utility of adsorbent resins for in situ lactic acid removal to enhance the cultivation performance of probiotic, Pediococcus acidilactici was studied. Weak base anion-exchange resin, Amberlite IRA 67 gave the highest maximum uptake capacity of lactic acid based on Langmuir adsorption isotherm (0.996 g lactic acid/g wet resin) compared to the other tested anion-exchange resins (Amberlite IRA 410, Amberlite IRA 400, Duolite A7 and Bowex MSA). The application of Amberlite IRA 67 improved the growth of P. acidilactici about 67 times compared to the control fermentation without resin addition. Nevertheless, the in situ addition of dispersed resin in the culture created shear stress by resins collision and caused direct shear force to the cells. The growth of P. acidilactici in the integrated bioreactor-internal column system containing anion-exchange resin was further improved by 1.4 times over that obtained in the bioreactor containing dispersed resin. The improvement of the P. acidilactici growth indicated that extractive fermentation using solid phase is an effective approach for reducing by-product inhibition and increasing product titer.
format Article
author Othman, Majdiah
Ariff, Arbakariya
Kapri, Mohd Rizal
Rios-Solis, Leonardo
Halim, Murni
spellingShingle Othman, Majdiah
Ariff, Arbakariya
Kapri, Mohd Rizal
Rios-Solis, Leonardo
Halim, Murni
Growth enhancement of probiotic pediococcus acidilactici by extractive fermentation of lactic acid exploiting anion-exchange resin
author_facet Othman, Majdiah
Ariff, Arbakariya
Kapri, Mohd Rizal
Rios-Solis, Leonardo
Halim, Murni
author_sort Othman, Majdiah
title Growth enhancement of probiotic pediococcus acidilactici by extractive fermentation of lactic acid exploiting anion-exchange resin
title_short Growth enhancement of probiotic pediococcus acidilactici by extractive fermentation of lactic acid exploiting anion-exchange resin
title_full Growth enhancement of probiotic pediococcus acidilactici by extractive fermentation of lactic acid exploiting anion-exchange resin
title_fullStr Growth enhancement of probiotic pediococcus acidilactici by extractive fermentation of lactic acid exploiting anion-exchange resin
title_full_unstemmed Growth enhancement of probiotic pediococcus acidilactici by extractive fermentation of lactic acid exploiting anion-exchange resin
title_sort growth enhancement of probiotic pediococcus acidilactici by extractive fermentation of lactic acid exploiting anion-exchange resin
publisher Frontiers Media
publishDate 2018
url http://psasir.upm.edu.my/id/eprint/74471/1/Growth%20enhancement.pdf
http://psasir.upm.edu.my/id/eprint/74471/
_version_ 1662756490916659200

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