Selective Flocculation and Precipitation for the Improvement of Virus-Like Particle Recovery from Yeast Homogenate

Sofia Tsoka; Ohla Ciniawskyj; Owen Thomas; Nigel Titchener-Hooker; Michael Hoare

Selective Flocculation and Precipitation for the Improvement of Virus-Like Particle Recovery from Yeast Homogenate

Sofia Tsoka, Ohla Ciniawskyj, Owen Thomas, Nigel Titchener-Hooker, Michael Hoare^*

^*Corresponding author for this work

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

Abstract

The purification of an intracellular product from a complex mixture of contaminants after cell disruption is a common problem in processes downstream of fermentation systems. This is particularly challenging for the recovery of particulate (80 nm in diameter) multimeric protein products, named virus-like particles (VLPs), from cell debris and other intracellular components. Selective flocculation for debris removal followed by selective precipitation of the target protein can be used as a preclarification step to aid purification. In this paper, selective borax flocculation of cell debris in yeast homogenate, followed by selective poly(ethylene glycol) precipitation of VLPs are defined with a view to demonstrating their potential in aiding the initial clarification stages of the purification sequence. The translation from laboratory scale to pilot scale operation is addressed, demonstrating the challenge of scale-up of solid-liquid
separation stages for biological particle processing.

Original language	English
Pages (from-to)	661−667
Number of pages	7
Journal	Biotechnology Progress
Volume	16
Publication status	Published - 2000
Externally published	Yes

Cite this

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title = "Selective Flocculation and Precipitation for the Improvement of Virus-Like Particle Recovery from Yeast Homogenate",

abstract = "The purification of an intracellular product from a complex mixture of contaminants after cell disruption is a common problem in processes downstream of fermentation systems. This is particularly challenging for the recovery of particulate (80 nm in diameter) multimeric protein products, named virus-like particles (VLPs), from cell debris and other intracellular components. Selective flocculation for debris removal followed by selective precipitation of the target protein can be used as a preclarification step to aid purification. In this paper, selective borax flocculation of cell debris in yeast homogenate, followed by selective poly(ethylene glycol) precipitation of VLPs are defined with a view to demonstrating their potential in aiding the initial clarification stages of the purification sequence. The translation from laboratory scale to pilot scale operation is addressed, demonstrating the challenge of scale-up of solid-liquidseparation stages for biological particle processing.",

author = "Sofia Tsoka and Ohla Ciniawskyj and Owen Thomas and Nigel Titchener-Hooker and Michael Hoare",

year = "2000",

language = "English",

volume = "16",

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journal = "Biotechnology Progress",

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TY - JOUR

T1 - Selective Flocculation and Precipitation for the Improvement of Virus-Like Particle Recovery from Yeast Homogenate

AU - Tsoka, Sofia

AU - Ciniawskyj, Ohla

AU - Thomas, Owen

AU - Titchener-Hooker, Nigel

AU - Hoare, Michael

PY - 2000

Y1 - 2000

N2 - The purification of an intracellular product from a complex mixture of contaminants after cell disruption is a common problem in processes downstream of fermentation systems. This is particularly challenging for the recovery of particulate (80 nm in diameter) multimeric protein products, named virus-like particles (VLPs), from cell debris and other intracellular components. Selective flocculation for debris removal followed by selective precipitation of the target protein can be used as a preclarification step to aid purification. In this paper, selective borax flocculation of cell debris in yeast homogenate, followed by selective poly(ethylene glycol) precipitation of VLPs are defined with a view to demonstrating their potential in aiding the initial clarification stages of the purification sequence. The translation from laboratory scale to pilot scale operation is addressed, demonstrating the challenge of scale-up of solid-liquidseparation stages for biological particle processing.

AB - The purification of an intracellular product from a complex mixture of contaminants after cell disruption is a common problem in processes downstream of fermentation systems. This is particularly challenging for the recovery of particulate (80 nm in diameter) multimeric protein products, named virus-like particles (VLPs), from cell debris and other intracellular components. Selective flocculation for debris removal followed by selective precipitation of the target protein can be used as a preclarification step to aid purification. In this paper, selective borax flocculation of cell debris in yeast homogenate, followed by selective poly(ethylene glycol) precipitation of VLPs are defined with a view to demonstrating their potential in aiding the initial clarification stages of the purification sequence. The translation from laboratory scale to pilot scale operation is addressed, demonstrating the challenge of scale-up of solid-liquidseparation stages for biological particle processing.

M3 - Article

SN - 8756-7938

VL - 16

SP - 661−667

JO - Biotechnology Progress

JF - Biotechnology Progress

ER -

Selective Flocculation and Precipitation for the Improvement of Virus-Like Particle Recovery from Yeast Homogenate

Abstract

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