MPI Kolloquiumsreihe: Prof. Dr. Wolfgang Wiechert, Simulating huge Bioreactors in tiny Chips: Technologies for Microbial Single Cell Analysis

MPI Kolloquiumsreihe: Prof. Dr. Wolfgang Wiechert, Systems Biotechnology, Forschungszentrum Jülich

  • Datum: 14.02.2019
  • Uhrzeit: 16:00 - 17:00
  • Vortragende(r): Prof. Dr. Wolfgang Wiechert
  • Head of Systems Biotechnology, Forschungszentrum Jülich
  • Ort: Max-Planck-Institut Magdeburg
  • Raum: Großer Seminarraum "Prigogine"
  • Kontakt: sek-bpe@mpi-magdeburg.mpg.de
MPI Kolloquiumsreihe: Prof. Dr. Wolfgang Wiechert, Simulating huge Bioreactors in tiny Chips: Technologies for Microbial Single Cell Analysis

Das Max-Planck-Institut Magdeburg lädt Sie herzlich zu seiner öffentlichen Kolloquiumsreihe ein.

Hochrangige Wissenschaftler aus verschiedenen Fachgebieten, eingeladen vom Max-Planck-Institut Magdeburg, präsentieren ihre Forschungsarbeit.

Abstract

Established methods for bioprocess development mostly rely on two homogeneity assumptions: The bioreactor is well stirred and the cell population is homogeneous. Although this is a good starting point for process engineers, it is presently not understood how far spatial or population heterogeneity influences the performance of industrial processes or even leads to the failure of traditional methods. A state of the art experimental tool to give answers to these questions is to build up picolitre scale bioreactors with a perfect environmental control in space and time. In recent years, such a microfluidic cultivation platform for bacterial cells has been established at the Jülich biotechnology institute IBG-1.


Several examples from recent research projects will be given illustrating the great potential of single cell bioreactors for biological research. From an engineering viewpoint, a focus will be laid on the computational design of microfluidic cultivation devices and it will be shown how far a perfect environmental control is already possible. The crucial role of image analysis algorithms for the evaluation of experiments and even the close-loop steering of cultivations will be demonstrated. Finally, aiming at single cell systems biology, the “holy grail” problem of single cell metabolomics will be discussed.





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