Rational and systematic protein purification process development: the next generation

Beckley K. Nfor; Peter D.E.M. Verhaert; Luuk A.M. van der Wielen; Jürgen Hubbuch; Marcel Ottens

doi:10.1016/j.tibtech.2009.09.002

Rational and systematic protein purification process development: the next generation

Beckley K. Nfor
, Peter D.E.M. Verhaert
, Luuk A.M. van der Wielen
, Jürgen Hubbuch
, Marcel Ottens

Delft University of Technology
Karlsruhe Institute of Technology

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

Abstract

Current biopharmaceutical manufacturing strongly relies on using purification platform processes, offering harmonization of practices and speed-to-market. However, the ability of such processes to respond quickly to anticipated higher quality and capacity demands is under question. Here, we describe novel approaches for purification process development that incorporate biothermodynamics, modern high throughput experimentation and simulation tools. Such development leads to production platform-specific databases containing thermodynamic protein descriptors of major host cell proteins over a range of experimental conditions. This will pave the way for in silico purification process development, providing better process understanding and the potential to respond quickly to product quality and market demands. Future efforts will focus on improving this field further and enabling more rationale in process development.

Original language	English
Pages (from-to)	673-679
Number of pages	7
Journal	Trends in Biotechnology
Volume	27
Issue number	12
DOIs	https://doi.org/10.1016/j.tibtech.2009.09.002
Publication status	Published - Dec 2009
Externally published	Yes

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This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 9 Industry, Innovation, and Infrastructure

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10.1016/j.tibtech.2009.09.002

Cite this

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title = "Rational and systematic protein purification process development: the next generation",

abstract = "Current biopharmaceutical manufacturing strongly relies on using purification platform processes, offering harmonization of practices and speed-to-market. However, the ability of such processes to respond quickly to anticipated higher quality and capacity demands is under question. Here, we describe novel approaches for purification process development that incorporate biothermodynamics, modern high throughput experimentation and simulation tools. Such development leads to production platform-specific databases containing thermodynamic protein descriptors of major host cell proteins over a range of experimental conditions. This will pave the way for in silico purification process development, providing better process understanding and the potential to respond quickly to product quality and market demands. Future efforts will focus on improving this field further and enabling more rationale in process development.",

author = "Nfor, \{Beckley K.\} and Verhaert, \{Peter D.E.M.\} and \{van der Wielen\}, \{Luuk A.M.\} and J{\"u}rgen Hubbuch and Marcel Ottens",

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AU - Nfor, Beckley K.

AU - Verhaert, Peter D.E.M.

AU - van der Wielen, Luuk A.M.

AU - Hubbuch, Jürgen

AU - Ottens, Marcel

PY - 2009/12

Y1 - 2009/12

N2 - Current biopharmaceutical manufacturing strongly relies on using purification platform processes, offering harmonization of practices and speed-to-market. However, the ability of such processes to respond quickly to anticipated higher quality and capacity demands is under question. Here, we describe novel approaches for purification process development that incorporate biothermodynamics, modern high throughput experimentation and simulation tools. Such development leads to production platform-specific databases containing thermodynamic protein descriptors of major host cell proteins over a range of experimental conditions. This will pave the way for in silico purification process development, providing better process understanding and the potential to respond quickly to product quality and market demands. Future efforts will focus on improving this field further and enabling more rationale in process development.

AB - Current biopharmaceutical manufacturing strongly relies on using purification platform processes, offering harmonization of practices and speed-to-market. However, the ability of such processes to respond quickly to anticipated higher quality and capacity demands is under question. Here, we describe novel approaches for purification process development that incorporate biothermodynamics, modern high throughput experimentation and simulation tools. Such development leads to production platform-specific databases containing thermodynamic protein descriptors of major host cell proteins over a range of experimental conditions. This will pave the way for in silico purification process development, providing better process understanding and the potential to respond quickly to product quality and market demands. Future efforts will focus on improving this field further and enabling more rationale in process development.

UR - https://www.scopus.com/pages/publications/70449393573

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M3 - Article

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AN - SCOPUS:70449393573

SN - 0167-7799

VL - 27

SP - 673

EP - 679

JO - Trends in Biotechnology

JF - Trends in Biotechnology

IS - 12

ER -

Rational and systematic protein purification process development: the next generation

Abstract

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