AI Article Synopsis
- Photoferrotrophy is a type of photosynthesis where bacteria use ferrous iron or electrodes as electron donors to fix CO2 using light.
- Researchers studied a model bacterium, TIE-1, finding that a protein complex made of a decaheme cytochrome (PioA) and an outer membrane porin (PioB) facilitates electron uptake from both iron and electrodes.
- The research reveals that PioA undergoes a process that shortens it and is crucial for forming a functional complex with PioB, indicating a conserved mechanism among various phototrophic bacteria that utilize these electron donors.
Article Abstract
Photoferrotrophy is a form of anoxygenic photosynthesis whereby bacteria utilize soluble or insoluble forms of ferrous iron as an electron donor to fix carbon dioxide using light energy. They can also use poised electrodes as their electron donor via phototrophic extracellular electron uptake (phototrophic EEU). The electron uptake mechanisms underlying these processes are not well understood. Using TIE-1 as a model, we show that a single periplasmic decaheme cytochrome , PioA, and an outer membrane porin, PioB, form a complex allowing extracellular electron uptake across the outer membrane from both soluble iron and poised electrodes. We observe that PioA undergoes postsecretory proteolysis of its N terminus to produce a shorter heme-attached PioA (holo-PioA, where PioA represents the C terminus of PioA), which can exist both freely in the periplasm and in a complex with PioB. The extended N-terminal peptide controls heme attachment, and its processing is required to produce wild-type levels of holo-PioA and holo-PioAB complex. It is also conserved in PioA homologs from other phototrophs. The presence of PioAB in these organisms correlate with their ability to perform photoferrotrophy and phototrophic EEU. Some anoxygenic phototrophs use soluble iron, insoluble iron minerals (such as rust), or their proxies (poised electrodes) as electron donors for photosynthesis. However, the underlying electron uptake mechanisms are not well established. Here, we show that these phototrophs use a protein complex made of an outer membrane porin and a periplasmic decaheme cytochrome (electron transfer protein) to harvest electrons from both soluble iron and poised electrodes. This complex has two unique characteristics: (i) it lacks an extracellular cytochrome , and (ii) the periplasmic decaheme cytochrome undergoes proteolytic cleavage to produce a functional electron transfer protein. These characteristics are conserved in phototrophs harboring homologous proteins.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6831781 | PMC |
| http://dx.doi.org/10.1128/mBio.02668-19 | DOI Listing |
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