A Study of the Interaction of HEK-293 Cells with Streamline Chelating Adsorbent in Expanded Bed Operation

Poulin, Frédéric; Jacquemart, Renaud; Crescenzo, Grégory De; Jolicœur, Mario; Legros, Robert

doi:10.1021/bp070173t

Cited by 15 publications

(7 citation statements)

References 25 publications

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“…From a process performance point of view, this could indicate hydrodynamic and sorption performance limitations from example, during expanded bed adsorption of bioproducts. Sorption performance utilizing Chelating/EBA systems has been reported recently [4] and characterized as moderate, in full agreement with this paper and previous work [1].…”

Section: `ü~ê~åíéêáò~íáçå=çñ=íüé=Vé~ëí=m~êíáåäéësupporting

confidence: 91%

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Surface energetics to assess biomass attachment onto immobilized metal-ion chromatography adsorbents in expanded beds

Vennapusa

Aasım

Cabrera

et al. 2009

Biotechnol Bioproc E

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^Äëíê~Åí= Cell-to-support interaction and cell-to-cell agglomeration phenomena have been studied in a model system composed of intact yeast cells and Chelating-Streamline TM adsorbents. Biomass components and beaded adsorbents were mainly characterized by contact angle determinations with three diagnostic liquids. Complementarily, zeta potential measurements were performed. These experimental values were employed to calculate free energy of interaction versus distance profiles in aqueous media. The effect of immobilized metal-ion type and buffer pH on the interaction energy was evaluated. Calculations indicated that moderate interaction between cell particles and adsorbent beads can develop due to the presence of Cu 2+ ions onto the solid phase. The strength of interaction increased with buffer pH, within the range 6.0 to 8.3 ÉKÖK secondary energy pockets increased from |15| to |60| âT. Cell-to-cell secondary energy minimum was ≥ |14| âT showing lowto-moderate tendencies to aggregate, particularly at pH ≥ 8. Extended DLVO predictions were generally confirmed by biomass deposition experiments. However, an exception was found when working with immobilized Cu 2+ at pH 8 since yeast cells were able to sequestrate such immobilized ions. Therefore, lower-than-expected values for the depositions coefficient (α) were observed. Understanding biomass attachment onto Chelating supports can help in better design and operate expanded bed adsorption of bioproducts. © KSBB hÉóïçêÇëW= ÇáêÉÅí= ëÉèìÉëíê~íáçåI= Äáçã~ëë= ÇÉéçëáíáçåI= ëìêÑ~ÅÉ= ÉåÉêÖÉíáÅëI= ÄáçéêçÅÉëë= ÇÉëáÖåI= áããçÄáäáòÉÇ= ãÉí~ä=~ÑÑáåáíó= ÅÜêçã~íçÖê~éÜóI=Éñé~åÇÉÇ=ÄÉÇ=~Çëçêéíáçå G`çêêÉëéçåÇáåÖ=~ìíÜçê=

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Section: `ü~ê~åíéêáò~íáçå=çñ=íüé=Vé~ëí=m~êíáåäéësupporting

confidence: 91%

“…biological particles and chromatographic beads are anticipated to play a minor role concerning interaction or agglomeration [2,3]. Nevertheless, evidence of potential sorption performance limitations were already observed for IMAC-EBA systems [4]. Biomass effects during EBA with group-specific adsorbents are poorly understood.…”

Section: Introductionmentioning

confidence: 99%

Surface energetics to assess biomass attachment onto immobilized metal-ion chromatography adsorbents in expanded beds

Vennapusa

Aasım

Cabrera

et al. 2009

Biotechnol Bioproc E

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“…We believe that the biomass, resin, and distributor interaction is so strong that it determines the effect on the response variable. The influence of biomass on the hydrodynamic stability of expanded beds has been demonstrated by several studies . The distributor has a strong effect on the flow structure .…”

Section: Resultsmentioning

confidence: 99%

Recovery and purification of chitosanase produced by Bacillus cereus using expanded bed adsorption and central composite design

Araújo

Pimentel

Silva

et al. 2016

J of Separation Science

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This study presents a system for expanded bed adsorption for the purification of chitosanase from broth extract in a single step. A chitosanase-producing strain was isolated and identified as Bacillus cereus C-01 and used to produce chitosanases. The expanded bed adsorption conditions for chitosanase purification were optimized statistically using STREAMLINE(TM) DEAE and a homemade column (2.6 × 30.0 cm). Dependent variables were defined by the quality criteria purification factor (P) and enzyme yield to optimize the chromatographic process. Statistical analyses showed that the optimum conditions for the maximum P were 150 cm/h load flow velocity, 6.0 cm settled bed height, and 7.36 cm distributor height. Distributor height had a strong influence on the process, considerably affecting both the P and enzyme yield. Optimizing the purification variables resulted in an approximately 3.66-fold increase in the P compared with the value under nonoptimized conditions. This system is promising for the recovery of chitosanase from B. cereus C-01 and is economically viable because it promotes the reduction steps.

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“…The effects of the biomassadsorbent interactions of different biomass types and their homogenates on the chromatographic performance of a number of commercial adsorbents (Streamline DEAE, SP, phenyl, and chelating matrices) have been studied extensively [15][16][17][18][19][20]. However, it is crucial to understand these interactions from a fundamental perspective.…”

Section: Introductionmentioning

confidence: 99%

Growth-dependent surface characteristics of Hansenula Polymorpha: implications for expanded bed adsorption chromatography

Naz

Dsouza

Yelemane

et al. 2015

Biotechnol Bioproc E

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The cell surface characteristics of a methylotrophic wild-type strain of yeast, Hansenula polymorpha, was investigated at different growth stages (early log, late log, stationary and death) of the biomass under different conditions (low and high salt in intact and disrupted forms) using extended DLVO theory. Biomass was characterized by contact angle measurements as well as zeta potential determinations. These measurements were used to describe the hydrophobic, polar, and electrostatic behavior of the biomass in its growth stages. Consequently, interaction free energy vs. distance profiles of the biomass with anionexchange and HIC adsorbents were conveniently generated. A strong interaction was calculated between cells and the adsorbents in the stationary and death phases of the biomass illustrated by the striking correlation between theoretical predictions and biomass deposition experiments. The physico-chemical properties of biomass in different growth phases have important implications for expanded bed adsorption chromatography, where unfavorable biomassadsorbent interactions adversely affect process efficiency.

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A Study of the Interaction of HEK-293 Cells with Streamline Chelating Adsorbent in Expanded Bed Operation

Cited by 15 publications

References 25 publications

Surface energetics to assess biomass attachment onto immobilized metal-ion chromatography adsorbents in expanded beds

Surface energetics to assess biomass attachment onto immobilized metal-ion chromatography adsorbents in expanded beds

Recovery and purification of chitosanase produced by Bacillus cereus using expanded bed adsorption and central composite design

Growth-dependent surface characteristics of Hansenula Polymorpha: implications for expanded bed adsorption chromatography

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