Adaptation of 'Mycobacterium smegmatis' to an industrial scale medium & isolation of the mycobacterial porin MspA

Sebastian O Wendel; Ayomi S Perera; Peter H Pfromm; Peter Czermak; Stefan H Bossmann

doi:10.2174/1874285801307010092

Adaptation of 'Mycobacterium smegmatis' to an industrial scale medium & isolation of the mycobacterial porin MspA

Sebastian O Wendel
, Ayomi S Perera
, Peter H Pfromm
, Peter Czermak
, Stefan H Bossmann

Research output: Contribution to journal › Article › peer-review

Abstract

The adaptation of the organism to a simple and cost-effective growth medium is mandatory in developing a process for large scale production of the octamericporinMspA, which is isolated from Mycobacterium smegmatis. A fermentation optimization with the minimal nutrients required for growth has been performed. During the fermentation, the iron- and ammonium chloride concentrations in the medium were varied to determine their impact on the observed growth rates and cell mass yields. Common antibiotics to control contamination were eliminated in favor of copper sulfate to reduce costs. MspA has been successfully isolated from the harvested M. smegmatisusing aqueous nOPOE (n-octyloligooxyethylene) at 65°C. Because of the extraordinary stability of MspA, it is possible to denature and precipitate virtually all other proteins and contaminants by following this approach. To further purify the product, acetone is used for precipitation. Gel electrophoresis confirmed the presence and purity of MspA. A maximum of 840µg (via Bradford assay) of pure MspA per liter of the optimized simple growth medium has been obtained. This is a 40% increase with respect to the previously reported culture medium for MspA.

Original language	English
Pages (from-to)	92-98
Journal	The Open Microbiology Journal
Volume	7
Early online date	17 May 2013
DOIs	https://doi.org/10.2174/1874285801307010092
Publication status	Published - 17 May 2013

Bibliographical note

Note: This work was supported by the National Science Foundation [award number: EPS-0903806] and the State of Kansas through Kansas Technology Enterprise Corporation.

Keywords

Chemistry

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10.2174/1874285801307010092

Perera-A-46497-VoRFinal published version, 1.45 MBLicence: CC BY-NC

http://dx.doi.org/10.2174/1874285801307010092

Cite this

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title = "Adaptation of 'Mycobacterium smegmatis' to an industrial scale medium \& isolation of the mycobacterial porin MspA",

abstract = "The adaptation of the organism to a simple and cost-effective growth medium is mandatory in developing a process for large scale production of the octamericporinMspA, which is isolated from Mycobacterium smegmatis. A fermentation optimization with the minimal nutrients required for growth has been performed. During the fermentation, the iron- and ammonium chloride concentrations in the medium were varied to determine their impact on the observed growth rates and cell mass yields. Common antibiotics to control contamination were eliminated in favor of copper sulfate to reduce costs. MspA has been successfully isolated from the harvested M. smegmatisusing aqueous nOPOE (n-octyloligooxyethylene) at 65°C. Because of the extraordinary stability of MspA, it is possible to denature and precipitate virtually all other proteins and contaminants by following this approach. To further purify the product, acetone is used for precipitation. Gel electrophoresis confirmed the presence and purity of MspA. A maximum of 840µg (via Bradford assay) of pure MspA per liter of the optimized simple growth medium has been obtained. This is a 40\% increase with respect to the previously reported culture medium for MspA.",

keywords = "Chemistry",

author = "Wendel, \{Sebastian O\} and Perera, \{Ayomi S\} and Pfromm, \{Peter H\} and Peter Czermak and Bossmann, \{Stefan H\}",

note = "Note: This work was supported by the National Science Foundation [award number: EPS-0903806] and the State of Kansas through Kansas Technology Enterprise Corporation.",

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AU - Wendel, Sebastian O

AU - Perera, Ayomi S

AU - Pfromm, Peter H

AU - Czermak, Peter

AU - Bossmann, Stefan H

N1 - Note: This work was supported by the National Science Foundation [award number: EPS-0903806] and the State of Kansas through Kansas Technology Enterprise Corporation.

PY - 2013/5/17

Y1 - 2013/5/17

N2 - The adaptation of the organism to a simple and cost-effective growth medium is mandatory in developing a process for large scale production of the octamericporinMspA, which is isolated from Mycobacterium smegmatis. A fermentation optimization with the minimal nutrients required for growth has been performed. During the fermentation, the iron- and ammonium chloride concentrations in the medium were varied to determine their impact on the observed growth rates and cell mass yields. Common antibiotics to control contamination were eliminated in favor of copper sulfate to reduce costs. MspA has been successfully isolated from the harvested M. smegmatisusing aqueous nOPOE (n-octyloligooxyethylene) at 65°C. Because of the extraordinary stability of MspA, it is possible to denature and precipitate virtually all other proteins and contaminants by following this approach. To further purify the product, acetone is used for precipitation. Gel electrophoresis confirmed the presence and purity of MspA. A maximum of 840µg (via Bradford assay) of pure MspA per liter of the optimized simple growth medium has been obtained. This is a 40% increase with respect to the previously reported culture medium for MspA.

AB - The adaptation of the organism to a simple and cost-effective growth medium is mandatory in developing a process for large scale production of the octamericporinMspA, which is isolated from Mycobacterium smegmatis. A fermentation optimization with the minimal nutrients required for growth has been performed. During the fermentation, the iron- and ammonium chloride concentrations in the medium were varied to determine their impact on the observed growth rates and cell mass yields. Common antibiotics to control contamination were eliminated in favor of copper sulfate to reduce costs. MspA has been successfully isolated from the harvested M. smegmatisusing aqueous nOPOE (n-octyloligooxyethylene) at 65°C. Because of the extraordinary stability of MspA, it is possible to denature and precipitate virtually all other proteins and contaminants by following this approach. To further purify the product, acetone is used for precipitation. Gel electrophoresis confirmed the presence and purity of MspA. A maximum of 840µg (via Bradford assay) of pure MspA per liter of the optimized simple growth medium has been obtained. This is a 40% increase with respect to the previously reported culture medium for MspA.

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DO - 10.2174/1874285801307010092

M3 - Article

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VL - 7

SP - 92

EP - 98

JO - The Open Microbiology Journal

JF - The Open Microbiology Journal

ER -

Adaptation of 'Mycobacterium smegmatis' to an industrial scale medium & isolation of the mycobacterial porin MspA

Abstract

Bibliographical note

Keywords

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