Synechocystis sp. PCC 6803 Requires the Bidirectional Hydrogenase to Metabolize Glucose and Arginine Under Oxic Conditions

Heinrich Burgstaller, Yingying Wang, Johanna Caliebe, Vanessa Hueren, Jens Appel, Marko Boehm, Sinje Leitzke, Marius Theune, Paul King, Kirstin Gutekunst

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4 Scopus Citations

Abstract

The cyanobacterium Synechocystis sp.PCC 6803 possesses a bidirectional NiFe-hydrogenase, HoxEFUYH. It functions to produce hydrogen under dark, fermentative conditions and photoproduces hydrogen when dark-adapted cells are illuminated. Unexpectedly, we found that the deletion of the large subunit of the hydrogenase (HoxH) in Synechocystis leads to an inability to grow on arginine and glucose under continuous light in the presence of oxygen. This is surprising, as the hydrogenase is an oxygen-sensitive enzyme. In wild-type (WT) cells, thylakoid membranes largely disappeared, cyanophycin accumulated, and the plastoquinone (PQ) pool was highly reduced, whereas ΔhoxH cells entered a dormant-like state and neither consumed glucose nor arginine at comparable rates to the WT. Hydrogen production was not traceable in the WT under these conditions. We tested and could show that the hydrogenase does not work as an oxidase on arginine and glucose but has an impact on the redox states of photosynthetic complexes in the presence of oxygen. It acts as an electron valve as an immediate response to the supply of arginine and glucose but supports the input of electrons from arginine and glucose oxidation into the photosynthetic electron chain in the long run, possibly via the NDH-1 complex. Despite the data presented in this study, the latter scenario requires further proof. The exact role of the hydrogenase in the presence of arginine and glucose remains unresolved. In addition, a unique feature of the hydrogenase is its ability to shift electrons between NAD(H), NADP(H), ferredoxin, and flavodoxin, which was recently shown in vitro and might be required for fine-tuning. Taken together, our data show that Synechocystis depends on the hydrogenase to metabolize organic carbon and nitrogen in the presence of oxygen, which might be an explanation for its prevalence in aerobic cyanobacteria.

Original languageAmerican English
Article number896190
Number of pages16
JournalFrontiers in Microbiology
Volume13
DOIs
StatePublished - 2022

Bibliographical note

Publisher Copyright:
Copyright © 2022 Burgstaller, Wang, Caliebe, Hueren, Appel, Boehm, Leitzke, Theune, King and Gutekunst.

NREL Publication Number

  • NREL/JA-2700-82418

Keywords

  • arginine
  • diaphorase
  • hydrogenase
  • photomixotrophy
  • photosynthesis
  • photosynthetic complex I (NDH-1)
  • respiration

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