Publications and projects according to DDC
Publications
Publications and projects according to DDC 660.6: Biotechnology
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Teale, Misha Alexander; Schneider, Samuel Lukas; Eibl, Dieter; Eibl-Schindler, Regine,
2024.
Process intensification in human pluripotent stem cell expansion with microcarriers.
Processes.
12(3), pp. 426.
Available from: https://doi.org/10.3390/pr12030426
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Buller, R.; Lutz, S.; Kazlauskas, R. J.; Snajdrova, R.; Moore, J. C.; Bornscheuer, U. T.,
2023.
From nature to industry : harnessing enzymes for biocatalysis.
Science.
382(6673), pp. eadh8615.
Available from: https://doi.org/10.1126/science.adh8615
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Giger, Sandro; Buller, Rebecca,
2023.
Advances in noncanonical amino acid incorporation for enzyme engineering applications.
Chimia.
77(6), pp. 395-402.
Available from: https://doi.org/10.2533/chimia.2023.395
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Raguz Nakic, Zrinka; Peters, Christin,
2023.
Modular cloning by Golden Gate assembly and possible application in pathway design.
Chimia.
77(6), pp. 437-441.
Available from: https://doi.org/10.2533/chimia.2023.437
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Pielhop, Thomas,
2023.
Chimia.
77(6), pp. 403-416.
Available from: https://doi.org/10.2533/chimia.2023.403
Projects
Projects according to DDC 660.6: Biotechnology
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Flow Chemistry für Enzymkaskaden
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EBDOmics – Comparative genomics of Enterobacter spp. causing Bulb Decay of Onions
Enterobacter bulb disease of onions (EBDO) is caused by members of the Enterobacter cloacae complex. This includes a diverse group of Enterobacter species that occur as clinical isolates and in the environment. Although EBDO has been known for several years, no systematic study has been conducted on their correct ...
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USP development with CHO cells
CDR-Life is a biotechnology company pioneering a new and differentiated class of highly tumor-specific immuno-oncology therapeutics based on its proprietary antibody-based T cell engager technology. The collaboration between the competence center for Biochemical Engineering and Cell Cultivation Technique at ZHAW and ...
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Valorisation of industrial residues for a sustainable industry (VARESI)
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Process development and biomass production of S. cerevisiae spiked with heavy water
In this project, process development, media optimization, and scale-up of yeasts of the genus S. cerevisiae are investigated. The aim is to achieve maximum biomass yield.