Aerobic anoxygenic phototrophs (AAPs) as being photoheterotrophs require organic substrates for growth and use light as a supplementary energy source under oxic conditions. We hypothesized that AAPs benefit from light particularly under carbon and electron donor limitation. The effect of light was determined in long-term starvation experiments with Dinoroseobacter shibae DFL 12T in both complex marine broth and defined minimal medium with succinate as the sole carbon source. The cells were starved over six months under three conditions: continuous darkness (DD), continuous light (LL), and light/dark cycle (LD, 12 h/12 h, 12 µmol photons m−2 s−1). LD starvation at low light intensity resulted in 10-fold higher total cell and viable counts, and higher bacteriochlorophyll a and polyhydroxyalkanoate contents. This coincided with better physiological fitness as determined by respiration rates, proton translocation and ATP concentrations. In contrast, LD starvation at high light intensity (>22 µmol photons m−2 s−1, LD conditions) resulted in decreasing cell survival rates but increasing carotenoid concentrations, indicating a photo-protective response. Cells grown in complex medium survived longer starvation (more than 20 weeks) than those grown in minimal medium. Our experiments show that D. shibae benefits from the light and dark cycle, particularly during starvation.
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机译:作为有氧异养菌的需氧生氧养分菌(AAP)需要有机基质才能生长,并在有氧条件下使用光作为补充能源。我们假设AAP将从光中受益,尤其是在碳和电子供体的限制下。在长期的饥饿实验中,用柴氏狄氏菌DFL 12 T 在复杂的海洋肉汤中确定了光的作用,并确定了以琥珀酸盐为唯一碳源的基本培养基。在以下三个条件下使细胞饥饿六个月:连续黑暗(DD),连续光照(LL)和明/暗循环(LD,12 h / 12 h,12 µmol光子m −2 s -1 )。低光强度下的LD饥饿导致总细胞数和存活数增加了10倍,并且细菌叶绿素a和多羟基链烷酸酯含量更高。由呼吸速率,质子移位和ATP浓度决定,这与更好的生理适应性相吻合。相反,在高光强度(> 22 µmol光子m −2 s −1 ,LD条件下)LD饥饿导致细胞存活率降低,但类胡萝卜素浓度升高,表明光保护反应。与在基本培养基中生长的细胞相比,在复杂培养基中生长的细胞可以存活更长的时间(超过20周)。我们的实验表明,柴犬(D. shibae)受益于明暗循环,特别是在饥饿期间。
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