Photooxidative stress‐induced and abundant small RNAs in Rhodobacter sphaeroides

Exposure to oxygen and light generates photooxidative stress by the bacteriochlorophyll a mediated formation of singlet oxygen (¹O₂) in Rhodobacter sphaeroides. Our study reports the genome‐wide search for small RNAs (sRNAs) involved in the regulatory response to ¹O₂. By using 454 pyrosequencing and Northern blot analysis, we identified 20 sRNAs from R. sphaeroides aerobic cultures or following treatment with ¹O₂ or superoxide (O^–₂). One sRNA was specifically induced by ¹O₂ and its expression depends on the extracytoplasmic function sigma factor RpoE. Two sRNAs induced by ¹O₂ and O^–₂ were cotranscribed with upstream genes preceded by promoters with target sequences for the alternative sigma factors RpoH_I and RpoH_II. The most abundant sRNA was processed in the presence of ¹O₂ but not by O^–₂. From this and a second sRNA a conserved 3′‐segment accumulated from a larger precursor. Absence of the RNA chaperone Hfq changed the half‐lives, abundance and processing of ¹O₂‐affected sRNAs. Orthologues of three sRNA genes are present in different alpha‐proteobacteria, but the majority was unique to R. sphaeroides or Rhodobacterales species. Our discovery that abundant sRNAs are affected by ¹O₂ exposure extends the knowledge on the role of sRNAs and Hfq in the regulatory response to oxidative stress.