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Prochlorococcusphage ferredoxin: structural characterization and electron transfer to cyanobacterial sulfite reductases
- Publication Year :
- 2020
- Publisher :
- Cold Spring Harbor Laboratory, 2020.
-
Abstract
- Marine cyanobacteria are infected by phage whose genomes encode ferredoxin (Fd) electron carriers. While these Fds are thought to redirect the energy harvested from light to phage-encoded oxidoreductases that enhance viral fitness, it is not clear how the biophysical properties and partner specificities of phage Fds relate to those in photosynthetic organisms. Bioinformatic analysis using a sequence similarity network revealed that phage Fds are most closely related to cyanobacterial Fds that transfer electrons from photosystems to oxidoreductases involved in nutrient assimilation. Structural analysis of myovirus P-SSM2 Fd (pssm2-Fd), which infectsProchlorococcus marinus, revealed high similarity to cyanobacterial Fds (≤0.5 Å RMSD). Additionally, pssm2-Fd exhibits a low midpoint reduction potential (−336 mV vs. SHE) similar to other photosynthetic Fds, albeit lower thermostability (Tm= 28°C) than many Fds. When expressed in anEscherichia colistrain with a sulfite assimilation defect, pssm2-Fd complemented growth when coexpressed with aProchlorococcus marinussulfite reductase, revealing that pssm2-Fd can transfer electrons to a host protein involved in nutrient assimilation. The high structural similarity with cyanobacterial Fds and reactivity with a host sulfite reductase suggest that phage Fds evolved to transfer electrons to cyanobacterial-encoded oxidoreductases.
- Subjects :
- Cyanobacteria
0303 health sciences
biology
Structural similarity
medicine.disease_cause
biology.organism_classification
Sulfite reductase
03 medical and health sciences
chemistry.chemical_compound
0302 clinical medicine
Sulfite
chemistry
Biochemistry
medicine
Prochlorococcus
Escherichia coli
030217 neurology & neurosurgery
Ferredoxin
030304 developmental biology
Photosystem
Subjects
Details
- Database :
- OpenAIRE
- Accession number :
- edsair.doi...........15f2a7676dca845f04ee223be0dd94a3
- Full Text :
- https://doi.org/10.1101/2020.02.07.937771