Purification of monoclonal antibodies from whole hybridoma fermentation broth by fluidized bed adsorption

Thömmes, Jörg; Halfar, Markus; Lenz, Suzanne; Kula, Maria‐Regina

doi:10.1002/bit.260450304

Cited by 86 publications

(22 citation statements)

References 19 publications

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“…If the PGA adsorption could occur at a pH lower than 4.8, probably higher PGA dynamic capacities would have been determined. That may also happens for the ionic adsorption of other enzymes as the dynamic capacities values reported in the literature for total protein adsorption (q Prot ) capacities are comparable with the adsorption capacities obtained in this work, with crude broths and using the same cation exchanger [14,[27][28][29].…”

Section: Eba Performance On the Adsorption Of Pga Onto Streamline Sp supporting

confidence: 88%

Recovery and partial purification of penicillin G acylase from E. coli homogenate and B. megaterium culture medium using an expanded bed adsorption column

Pinotti

Fonseca

Prazeres

et al. 2009

Biochemical Engineering Journal

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Section: Eba Performance On the Adsorption Of Pga Onto Streamline Sp supporting

confidence: 88%

Recovery and partial purification of penicillin G acylase from E. coli homogenate and B. megaterium culture medium using an expanded bed adsorption column

Pinotti

Fonseca

Prazeres

et al. 2009

Biochemical Engineering Journal

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“…However, feedstocks containing particulates can be processed directly using fluidized or expanded bed adsorption procedures which are able to operate efficiently in the presence of particulates. 5,[8][9][10][11][12]22,23,27,37,44,48 G enerally, the behavior of expanded beds is different from conventional liquid-solid fluidized beds where both liquid and adsorbent phases are well mixed, which results in poor adsorption performance and low prod~ctivity. '~ In our work, a stable bed of adsorbent beads can be easily established without need to stabilize a fluidized bed using magnetic Previous work has described the operating principles of expanded bed ad~orption.~.…”

Section: Introductionmentioning

confidence: 99%

Development of operating conditions for protein purification using expanded bed techniques: The effect of the degree of bed expansion on adsorption performance

Chang

Chase

2000

Biotechnol. Bioeng.

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A strategy for the optimization of an expanded bed adsorption process has been developed by studying a model system involving the adsorption of lysozyme onto the adsorbent STREAMLINE SP. The hydrodynamic and adsorption properties of this ion exchange adsorbent in a variety of viscosities of feedstocks have been compared by analyzing bed expansion characteristics, liquid phase dispersion characteristics, equilibrium adsorption isotherms, and mass transfer characteristics. Additionally, the influences of the degree of bed expansion on adsorption performance have been investigated by frontal analysis. In these experiments, viscous feedstocks were simulated by the inclusion of glycerol in the adsorption buffers. Breakthrough curves for lysozyme were characterized and compared in terms of overall purification processing time and productivity. On the basis of these results, the relative productivities of different operating modes with the same process liquid were found to be almost the same. However, the processing time for each purification cycle decreased with increasing velocity of process liquid. It is demonstrated that an adsorption process carried out at a constant degree of bed expansion (twice its settled bed height, corresponding to bed voidage of 0.7) is more efficient, when characterized by the apparent dynamic binding capacity, than operation at a constant liquid velocity of 300 cm/h. These results have significant implications on the design and operation of the expanded bed adsorption procedures. The advantages and problems encountered in the use of expanded bed techniques for the direct extraction of proteins from unclarified feedstocks are also discussed. © 1996 John Wiley & Sons, Inc.

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“…EBA processes employ the flow of fluid through an initially packed bed structure to achieve a contactor with a high-fluid voidage. A stable bed is formed with adsorbent having a well-defined distribution of bead sizes [14]. Under these circumstances, the larger/heavier adsorbent beads will locate near the bottom of the bed, whereas the smaller/lighter adsorbent beads will locate near the top [15].…”

mentioning

confidence: 99%

Purification of recombinant nucleocapsid protein of Newcastle disease virus from unclarified feedstock using expanded bed adsorption chromatography

Tan

Ling

Tan

et al. 2006

Protein Expression and Purification

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In the present work, a single-step purification of recombinant nucleocapsid protein (NP) of the Newcastle disease virus (NDV) directly from unclarified feedstock using an expanded bed adsorption chromatography (EBAC) was developed. Streamline 25 column (ID = 25 mm) was used as a contactor and Streamline chelating adsorbent immobilized with Ni2+ ion was used as affinity adsorbent. The dynamic binding capacity of Ni2+ -loaded Streamline chelating adsorbent for the NP protein in unclarified feedstock was found to be 2.94 mg ml(-1) adsorbent at a superficial velocity of 200 cm h(-1). The direct purification of NP protein from unclarified feedstock using expanded bed adsorption has resulted in a 31% adsorption and 9.6% recovery of NP protein. The purity of the NP protein recovered was about 70% and the volume of processing fluid was reduced by a factor of 10. The results of the present study show that the IMA-EBAC developed could be used to combine the clarification, concentration and initial purification steps into a single-step operation.

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Purification of monoclonal antibodies from whole hybridoma fermentation broth by fluidized bed adsorption

Cited by 86 publications

References 19 publications

Recovery and partial purification of penicillin G acylase from E. coli homogenate and B. megaterium culture medium using an expanded bed adsorption column

Recovery and partial purification of penicillin G acylase from E. coli homogenate and B. megaterium culture medium using an expanded bed adsorption column

Development of operating conditions for protein purification using expanded bed techniques: The effect of the degree of bed expansion on adsorption performance

Purification of recombinant nucleocapsid protein of Newcastle disease virus from unclarified feedstock using expanded bed adsorption chromatography

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