Abstract

Summary Pseudomonas putida is recognized as a very promising strain for industrial application due to its high redox capacity and frequently observed tolerance towards organic solvents. In this research, we studied the metabolic and transcriptional response of P. putida KT2440 exposed to large‐scale heterogeneous mixing conditions in the form of repeated glucose shortage. Cellular responses were mimicked in an experimental setup comprising a stirred tank reactor and a connected plug flow reactor. We deciphered that a stringent response‐like transcriptional regulation programme is frequently induced, which seems to be linked to the intracellular pool of 3‐hydroxyalkanoates (3‐HA) that are known to serve as precursors for polyhydroxyalkanoates (PHA). To be precise, P. putida is endowed with a survival strategy likely to access cellular PHA, amino acids and glycogen in few seconds under glucose starvation to obtain ATP from respiration, thereby replenishing the reduced ATP levels and the adenylate energy charge. Notably, cells only need 0.4% of glucose uptake to build those 3‐HA‐based energy buffers. Concomitantly, genes that are related to amino acid catabolism and β‐oxidation are upregulated during the transient absence of glucose. Furthermore, we provide a detailed list of transcriptional short‐ and long‐term responses that increase the cellular maintenance by about 17% under the industrial‐like conditions tested.

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