Lecithin is the key material attribute in soy bean oil affecting filamentous bioprocesses

Lecithin is the key material attribute in soy bean oil affecting filamentous bioprocesses

Abstract Complex raw materials are widely used as supplements in biopharmaceutical production processes due to their positive effect on biomass growth and productivity at low cost. However, their use negatively impacts process reproducibility due to high lot-to-lot variability which contradicts curr...

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Bibliographic Details
Main Authors: Alexandra Hofer, Christoph Herwig, Oliver Spadiut
Format: Article
Language:English
Published: SpringerOpen 2018-06-01
Series:AMB Express
Subjects:
Complex raw material
Key material attribute
Soy bean oil
Lecithin
Filamentous fungi
Online Access:http://link.springer.com/article/10.1186/s13568-018-0625-0
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spelling doaj-0148487e98774d6fbe2696de9e83e1052020-11-24T20:44:10ZengSpringerOpenAMB Express2191-08552018-06-01811810.1186/s13568-018-0625-0Lecithin is the key material attribute in soy bean oil affecting filamentous bioprocessesAlexandra Hofer0Christoph Herwig1Oliver Spadiut2Research Area Biochemical Engineering, Institute of Chemical, Environmental and Bioscience Engineering, Vienna University of TechnologyResearch Area Biochemical Engineering, Institute of Chemical, Environmental and Bioscience Engineering, Vienna University of TechnologyResearch Area Biochemical Engineering, Institute of Chemical, Environmental and Bioscience Engineering, Vienna University of TechnologyAbstract Complex raw materials are widely used as supplements in biopharmaceutical production processes due to their positive effect on biomass growth and productivity at low cost. However, their use negatively impacts process reproducibility due to high lot-to-lot variability which contradicts current regulatory guidelines. In this study we investigated crude soy bean oil (SBO) which is a common complex raw material for filamentous fungi. We demonstrated that lecithin, which we define as phosphatidylcholines, is in fact the key material attribute in crude SBO positively affecting fungal growth and consequently productivity. The methodological toolbox we present here allows the straightforward isolation of lecithin from crude SBO, its semi-quantification by HPLC and the consequent supplementation thereof in defined amounts. Thus, over-dosage and potential resulting negative impacts on fungal growth and productivity can be omitted.http://link.springer.com/article/10.1186/s13568-018-0625-0Complex raw materialKey material attributeSoy bean oilLecithinFilamentous fungi
collection DOAJ
language English
format Article
sources DOAJ
author Alexandra Hofer
Christoph Herwig
Oliver Spadiut
spellingShingle Alexandra Hofer
Christoph Herwig
Oliver Spadiut
Lecithin is the key material attribute in soy bean oil affecting filamentous bioprocesses
AMB Express
Complex raw material
Key material attribute
Soy bean oil
Lecithin
Filamentous fungi
author_facet Alexandra Hofer
Christoph Herwig
Oliver Spadiut
author_sort Alexandra Hofer
title Lecithin is the key material attribute in soy bean oil affecting filamentous bioprocesses
title_short Lecithin is the key material attribute in soy bean oil affecting filamentous bioprocesses
title_full Lecithin is the key material attribute in soy bean oil affecting filamentous bioprocesses
title_fullStr Lecithin is the key material attribute in soy bean oil affecting filamentous bioprocesses
title_full_unstemmed Lecithin is the key material attribute in soy bean oil affecting filamentous bioprocesses
title_sort lecithin is the key material attribute in soy bean oil affecting filamentous bioprocesses
publisher SpringerOpen
series AMB Express
issn 2191-0855
publishDate 2018-06-01
description Abstract Complex raw materials are widely used as supplements in biopharmaceutical production processes due to their positive effect on biomass growth and productivity at low cost. However, their use negatively impacts process reproducibility due to high lot-to-lot variability which contradicts current regulatory guidelines. In this study we investigated crude soy bean oil (SBO) which is a common complex raw material for filamentous fungi. We demonstrated that lecithin, which we define as phosphatidylcholines, is in fact the key material attribute in crude SBO positively affecting fungal growth and consequently productivity. The methodological toolbox we present here allows the straightforward isolation of lecithin from crude SBO, its semi-quantification by HPLC and the consequent supplementation thereof in defined amounts. Thus, over-dosage and potential resulting negative impacts on fungal growth and productivity can be omitted.
topic Complex raw material
Key material attribute
Soy bean oil
Lecithin
Filamentous fungi
url http://link.springer.com/article/10.1186/s13568-018-0625-0
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AT christophherwig lecithinisthekeymaterialattributeinsoybeanoilaffectingfilamentousbioprocesses
AT oliverspadiut lecithinisthekeymaterialattributeinsoybeanoilaffectingfilamentousbioprocesses
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