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Description
The heliobacteria, a family of anoxygenic phototrophs, are significant to photosynthesis evolution research, as they possess the simplest known photosynthetic apparatus. Although they are photoheterotrophs in the light, the heliobacteria may also grow chemotrophically via pyruvate metabolism in the absence

The heliobacteria, a family of anoxygenic phototrophs, are significant to photosynthesis evolution research, as they possess the simplest known photosynthetic apparatus. Although they are photoheterotrophs in the light, the heliobacteria may also grow chemotrophically via pyruvate metabolism in the absence of light. In Heliobacterium modesticaldum, the cytochrome bc complex is responsible for oxidizing menaquinol and reducing cytochrome c553 in the electron flow cycle used for phototrophy. However, there is no known electron acceptor for cytochrome c553 other than the photosynthetic reaction center. Therefore, it was hypothesized that the cytochrome bc complex is necessary for phototrophy, but unnecessary for chemotrophic growth in the dark. Under this hypothesis, a mutant of H. modesticaldum lacking the cytochrome bc complex was predicted to be viable, but non-phototrophic. In this project, a two-step method for CRISPR-based genome editing was used in H. modesticaldum to delete the genes encoding the cytochrome bc complex. Genotypic analysis verified the deletion of the petC, B, D, and A genes encoding the catalytic components of complex. Spectroscopic studies revealed that re-reduction of cytochrome c553 after flash-induced photo-oxidation was ~130 to 190 times slower in the ∆petCBDA mutant compared to wildtype, phenotypically confirming the removal of the cytochrome bc complex. The resulting ∆petCBDA mutant was unable to grow phototrophically, instead relying on pyruvate metabolism to grow chemotrophically as does wildtype in the dark.
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Details

Title
  • Knocking out the cytochrome bc complex in Heliobacterium modesticaldum
Contributors
Date Created
2020-05
Resource Type
  • Text
  • Machine-readable links