Insights into Streptomyces coelicolor A3(2) growth and pigment formation with high‐throughput online monitoring

Affiliation
AVT ‐ Biochemical Engineering RWTH Aachen University Aachen Germany
Finger, Maurice;
Affiliation
AVT ‐ Biochemical Engineering RWTH Aachen University Aachen Germany
Sentek, Fabio;
Affiliation
AVT ‐ Biochemical Engineering RWTH Aachen University Aachen Germany
Hartmann, Lukas;
GND
1315057808
Affiliation
Faculty of Biological Sciences Friedrich‐Schiller‐University Jena Germany
Palacio‐Barrera, Ana M.;
GND
1198704284
Affiliation
Faculty of Biological Sciences Friedrich‐Schiller‐University Jena Germany
Schlembach, Ivan;
GND
132674297
Affiliation
Faculty of Biological Sciences Friedrich‐Schiller‐University Jena Germany
Rosenbaum, Miriam A.;
Affiliation
AVT ‐ Biochemical Engineering RWTH Aachen University Aachen Germany
Büchs, Jochen

Streptomyces species are intensively studied for their ability to produce a variety of natural products. However, conditions influencing and leading to product formation are often not completely recognized. Therefore, in this study, high‐throughput online monitoring is presented as a powerful tool to gain in‐depth understanding of the cultivation of the model organism Streptomyces coelicolor A3(2). Through online measurements of oxygen transfer rate and autofluorescence, valuable information about availability of nutrients and product formation patterns of the pigments actinorhodin and undecylprodigiosin can be obtained and explained. Therefore, it is possible to determine the onset of pigmentation and to study in detail the influencing factors thereof. One factor identified in this study is the filling volume of the cultivation vessel. Slight variations led to varying pigmentation levels. By combining optical and metabolic online monitoring techniques, the correlation of the filling volume with pigmentation could be explained as a result of different growth trajectories caused by varying specific power inputs and their influence on the pellet formation of the filamentous system. Finally, experiments with the addition of supernatant from unpigmented and pigmented cultures could highlight the applicability of the presented approach to study quorum sensing and cell‐cell interaction.

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