Abstract
Filamentous cyanobacterium Fremyella diplosiphon is known to alter its pigmentation and morphology during complementary chromatic acclimation (CCA) to efficiently harvest available radiant energy for photosynthesis. F. diplosiphon cells are rectangular and filaments are longer under green light (GL), whereas smaller, spherical cells and short filaments are prevalent under red light (RL). Light regulation of bolA morphogene expression is correlated with photoregulation of cellular morphology in F. diplosiphon. Here, we investigate a role for quantitative regulation of cellular BolA protein levels in morphology determination. Overexpression of bolA in WT was associated with induction of RL-characteristic spherical morphology even when cultures were grown under GL. Overexpression of bolA in a ΔrcaE background, which lacks cyanobacteriochrome photosensor RcaE and accumulates lower levels of BolA than WT, partially reverted the cellular morphology of the strain to a WT-like state. Overexpression of BolA in WT and ΔrcaE backgrounds was associated with decreased cellular reactive oxygen species (ROS) levels and an increase in filament length under both GL and RL. Morphological defects and high ROS levels commonly observed in ΔrcaE could, thus, be in part due to low accumulation of BolA. Together, these findings support an emerging model for RcaE-dependent photoregulation of BolA in controlling the cellular morphology of F. diplosiphon during CCA.
Highlights
Cyanobacteria are important components of aquatic ecosystems where they perform ecologically important functions of photosynthesis and nitrogen fixation
Prior analyses indicated that photoregulation of bolA mRNA levels is inversely correlated with accumulation of bacterial-actin encoding mreB mRNA levels, which is associated with lightdependent regulation of cellular morphology in F. diplosiphon (Singh and Montgomery, 2014)
The expression of morphogene bolA was found to be differentially regulated under green light (GL) and red light (RL) in a RcaE-dependent manner in F. diplosiphon (Singh and Montgomery, 2014)
Summary
Cyanobacteria are important components of aquatic ecosystems where they perform ecologically important functions of photosynthesis and nitrogen fixation. The rods are primarily composed of PE under green light (GL), whereas PC constitute the rods of PBSs under red light (RL) in Fremyella diplosiphon (Gutu and Kehoe, 2012). This ecologically important phenomenon is known as complementary chromatic acclimation (CCA) and has been well characterized in the filamentous, freshwater cyanobacterium F. diplosiphon (Bennett and Bogorad, 1973; Kehoe and Gutu, 2006; Kehoe, 2010). PCC 7601 (Yerrapragada et al, 2015), to tune photosynthesis to different light qualities by tuning the pigment composition of rods of PBSs (Campbell, 1996; Kehoe and Gutu, 2006; Gutu and Kehoe, 2012)
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