Biosynthesis of pullulan using immobilized Aureobasidium pullulans cells

Ashok Mulchandani; John H.T. Luong; Anh LeDuy

doi:10.1002/bit.260330309

Biosynthesis of pullulan using immobilized Aureobasidium pullulans cells

Ashok Mulchandani
, John H.T. Luong
, Anh LeDuy

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

Abstract

Immobilization of Aureobasidium pullulans by adsorption on solid supports and entrapment in open pore polyurethane foam were attempted. By adsorption, the highest cell loading of 0.012–0.018 g dry wt/cm² support was obtained in pH 2.0 medium. Under this acidic condition, the net surface charges (zeta potentials) of both the cells and supports were close to zero and no pullulan was synthesized. Cationic coatings of Cytodex and polyethylenimine were not efficient in enhancing the binding strength between the cells and the supports. Surface immobilized cells and polyurethane foam entrapped cells exhibited a similar fermentation characteristics resulting in ca. 18 g/L pullulan and ca. 5 g/L leaked cells. However, cells entrapped in the polyurethane foam were more shear resistant. The immobilized cells thus could be repeatedly used for pullulan biosynthesis.

Original language	English
Pages (from-to)	306-312
Number of pages	7
Journal	Biotechnology and Bioengineering
Volume	33
Issue number	3
DOIs	https://doi.org/10.1002/bit.260330309
Publication status	Published - 15 Jan 1989
Externally published	Yes

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title = "Biosynthesis of pullulan using immobilized Aureobasidium pullulans cells",

abstract = "Immobilization of Aureobasidium pullulans by adsorption on solid supports and entrapment in open pore polyurethane foam were attempted. By adsorption, the highest cell loading of 0.012–0.018 g dry wt/cm2 support was obtained in pH 2.0 medium. Under this acidic condition, the net surface charges (zeta potentials) of both the cells and supports were close to zero and no pullulan was synthesized. Cationic coatings of Cytodex and polyethylenimine were not efficient in enhancing the binding strength between the cells and the supports. Surface immobilized cells and polyurethane foam entrapped cells exhibited a similar fermentation characteristics resulting in ca. 18 g/L pullulan and ca. 5 g/L leaked cells. However, cells entrapped in the polyurethane foam were more shear resistant. The immobilized cells thus could be repeatedly used for pullulan biosynthesis.",

author = "Ashok Mulchandani and Luong, \{John H.T.\} and Anh LeDuy",

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AU - Mulchandani, Ashok

AU - Luong, John H.T.

AU - LeDuy, Anh

PY - 1989/1/15

Y1 - 1989/1/15

N2 - Immobilization of Aureobasidium pullulans by adsorption on solid supports and entrapment in open pore polyurethane foam were attempted. By adsorption, the highest cell loading of 0.012–0.018 g dry wt/cm2 support was obtained in pH 2.0 medium. Under this acidic condition, the net surface charges (zeta potentials) of both the cells and supports were close to zero and no pullulan was synthesized. Cationic coatings of Cytodex and polyethylenimine were not efficient in enhancing the binding strength between the cells and the supports. Surface immobilized cells and polyurethane foam entrapped cells exhibited a similar fermentation characteristics resulting in ca. 18 g/L pullulan and ca. 5 g/L leaked cells. However, cells entrapped in the polyurethane foam were more shear resistant. The immobilized cells thus could be repeatedly used for pullulan biosynthesis.

AB - Immobilization of Aureobasidium pullulans by adsorption on solid supports and entrapment in open pore polyurethane foam were attempted. By adsorption, the highest cell loading of 0.012–0.018 g dry wt/cm2 support was obtained in pH 2.0 medium. Under this acidic condition, the net surface charges (zeta potentials) of both the cells and supports were close to zero and no pullulan was synthesized. Cationic coatings of Cytodex and polyethylenimine were not efficient in enhancing the binding strength between the cells and the supports. Surface immobilized cells and polyurethane foam entrapped cells exhibited a similar fermentation characteristics resulting in ca. 18 g/L pullulan and ca. 5 g/L leaked cells. However, cells entrapped in the polyurethane foam were more shear resistant. The immobilized cells thus could be repeatedly used for pullulan biosynthesis.

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ER -

Biosynthesis of pullulan using immobilized Aureobasidium pullulans cells

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