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Melden Sie sich an (Login) um den vollen Funktionsumfang der Datenbank nutzen zu können.
Sie suchen in allen Bereichen nach dem Autor Otte K.

In der Rubrik Zeitschriften haben wir 4 Beiträge für Sie gefunden

  1. Merken

    Life at the periphery

    Rubrik: Originale

    (Treffer aus pharmind, Nr. 09, Seite 1241 (2021))

    Klingler F | Mathias S | Otte K

    Life at the periphery / How cell surface proteins can influence bioprocesses · Klingler F1, Mathias S1,2, Otte K1 · 1Institute of Applied Biotechnology, University of Applied Sciences Biberach, Biberach und Boehringer Ingelheim Pharma GmbH & Co. KG, Biberach
    Biopharmaceuticals Cell aggregation Cell surface proteins Chinese hamster ovary cells Surfaceome Cell surface proteome Chinese hamster ovary (CHO) cells are currently the main production hosts for biopharmaceuticals. Over the past decades, commercial bioprocesses have been steadily optimized to create optimal environments for the cultured cells to grow in suspension, stay viable and produce desired products at high titres and quality. However, the suspension-adapted CHO cells were originally derived from a spontaneously immortalized putative epithelial cell and sometimes regress into patterns forming large cell aggregates. This cell adhesion and aggregation may result in loss of cell viability and/or a decrease in ...

  2. Merken

    Unravelling of molecular bottlenecks in pharmaceutical production cell lines

    Rubrik: Biotechnologie

    (Treffer aus pharmind, Nr. 12, Seite 1604 (2020))

    Mathias S | Otte K

    Unravelling of molecular bottlenecks in pharmaceutical production cell lines / Mathias and Otte • Molecular bottlenecks · Mathias S1, Otte K2 · 1Boehringer Ingelheim Pharma GmbH & Co. KG, Biberach und Hochschule Biberach, Fakultät Biotechnologie, Biberach
    Therapeutic proteins represent a class of macromolecules capable of addressing a variety of yet unmet medicinal needs. In contrast to small molecule drugs, these complex biological therapeutics require to be produced by cell-based sources. This need for biological production systems results in long-lasting development timelines making the manufacture of biopharmaceuticals highly expensive. Among the different classes of recombinant therapeutic proteins, mAbs and antibody-derived formats have grown to become the dominant product class within the biopharmaceutical market [ 1 ]. However, the increasing number of non-naturally existing antibody-derived molecules such as multi-specific antibody formats often cause low production efficiencies. This may ...

  3. Merken

    Harnessing the Potential of MicroRNAs to Enhance Performance of Biopharmaceutical Production Cell Factories

    Rubrik: Übersichten

    (Treffer aus pharmind, Nr. 12, Seite 1760 (2016))

    Fischer S | Handrick R | Otte K

    Harnessing the Potential of MicroRNAs to Enhance Performance of Biopharmaceutical Production Cell Factories / Fischer et al. • Potential of MicroRNAs · Fischer S, Handrick R, Otte K · 1Institute of Applied Biotechnology, University of Applied Biotechnology, Biberach an der Riß, Germany und 2BP Process Development Germany, Boehringer Ingelheim Pharma GmbH & Co. KG, Biberach an der Riß, Germany
    Biopharmaceuticals microRNAs Chinese hamster ovary (CHO) cells Monoclonal antibodies Cell engineering Process development Biopharmaceuticals (or biologics) are complex macromolecular drugs that are used for treatment of severe disorders such as cancer, diabetes, immunological, ophthalmic or neurodegenerative diseases. As the demand for biologicals is still steadily increasing there is also a requirement to develop cost-effective and more efficient manufacturing processes. Biopharmaceuticals mostly comprise products which are generated by means of recombinant DNA technology such as peptides, proteins, nucleic acids, vaccines or viral vectors used for gene and oncolytic therapy. The first therapeutic protein approved in 1987 by the US Food and ...

  4. Es gibt 1 weitere Treffer zu Ihrer Anfrage[ Alle Treffer dieser Rubrik anzeigen ]