New application of depth filters for the immobilization of Candida antarctica lipase B. Schreiber, S., Thiefes, A., Schuldt, U., Daehne, L., Scheper, T., & Beutel, S. APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 101(2):599-607, JAN, 2017.
doi  abstract   bibtex   
The objective of this study was to use for the first time depth filters, which are usually intended for clarification of cell culture broth, as a direct immobilization support/matrix for industrially relevant enzymes. With this method, it is not only possible to immobilize pure enzymes; it can be also used for capturing recombinant enzymes directly out of culture supernatant. Therefore, the depth filters were coated with different anionic and cationic polymer layers by Layer-by-Layer (LbL) technology. The immobilization behavior of the model enzyme Candida antarctica lipase B (CalB) was examined. Optimal conditions for lipase immobilization were found for anionic surfaces with Poly (allylamin hydrochlorid) (PAH)/Poly (sodium-4-styrene sulfonate) (PSS) coating in 20 mM acetate buffer pH 4. Stability studies showed that immobilized CalB is 1.7-fold more stable when storage is carried out in buffer at 4 A degrees C, compared to storage in buffer at room temperature or storage after drying at 30 A degrees C for 24 h. The calculated half-life period is 108 days until half of the activity was lost. Furthermore, the possibility of direct capture of the CalB either from sonicated culture broth (Escherichia coli) or from cell-free supernatant was tested. Filter blocking prevented the immobilization of lipase from sonicated culture broth, but immobilization from cell-free supernatant could be performed successfully at moderate biomass content (OD600 = 7.0).
@article{ ISI:000392060500011,
Author = {Schreiber, Sarah and Thiefes, Axel and Schuldt, Ute and Daehne, Lars and
   Scheper, Thomas and Beutel, Sascha},
Title = {{New application of depth filters for the immobilization of Candida
   antarctica lipase B}},
Journal = {{APPLIED MICROBIOLOGY AND BIOTECHNOLOGY}},
Year = {{2017}},
Volume = {{101}},
Number = {{2}},
Pages = {{599-607}},
Month = {{JAN}},
Abstract = {{The objective of this study was to use for the first time depth filters,
   which are usually intended for clarification of cell culture broth, as a
   direct immobilization support/matrix for industrially relevant enzymes.
   With this method, it is not only possible to immobilize pure enzymes; it
   can be also used for capturing recombinant enzymes directly out of
   culture supernatant. Therefore, the depth filters were coated with
   different anionic and cationic polymer layers by Layer-by-Layer (LbL)
   technology. The immobilization behavior of the model enzyme Candida
   antarctica lipase B (CalB) was examined. Optimal conditions for lipase
   immobilization were found for anionic surfaces with Poly (allylamin
   hydrochlorid) (PAH)/Poly (sodium-4-styrene sulfonate) (PSS) coating in
   20 mM acetate buffer pH 4. Stability studies showed that immobilized
   CalB is 1.7-fold more stable when storage is carried out in buffer at 4
   A degrees C, compared to storage in buffer at room temperature or
   storage after drying at 30 A degrees C for 24 h. The calculated
   half-life period is 108 days until half of the activity was lost.
   Furthermore, the possibility of direct capture of the CalB either from
   sonicated culture broth (Escherichia coli) or from cell-free supernatant
   was tested. Filter blocking prevented the immobilization of lipase from
   sonicated culture broth, but immobilization from cell-free supernatant
   could be performed successfully at moderate biomass content (OD600 =
   7.0).}},
DOI = {{10.1007/s00253-016-7764-5}},
ISSN = {{0175-7598}},
EISSN = {{1432-0614}},
ResearcherID-Numbers = {{Beutel, Sascha/Z-5618-2019}},
ORCID-Numbers = {{Beutel, Sascha/0000-0002-0983-9748}},
Unique-ID = {{ISI:000392060500011}},
}
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