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PAHs reduce DNA synthesis and delay cell division in the widespread primary producer Prochlorococcus

PAHs reduce DNA synthesis and delay cell division in the widespread primary producer Prochlorococcus

M.I. Cerezo, S. Agusti. PAHs reduce DNA synthesis and delay cell division in the widespread primary producer Prochlorococcus. Environmental Pollution, 196, 147-155, (2015)
Maria Isabel Cerezoa, Susana Agustí
Cell cycle, DNA, PAHs, Prochlorococcus, Ocean
2015
​The cyanobacteria Prochlorococcus is the most abundant primary producer in the ocean. In a global study across the Atlantic, Indian and Pacific Oceans, we tested the effect of organic pollutants on the growth and cell division of natural Prochlorococcus populations. Sub-lethal concentrations of Polycyclic Aromatic Hydrocarbons (PAHs) altered Prochlorococcus cell division by reducing DNA synthesis and decreasing the percentage of cells entering mitosis. Cell division time increased with PAHs dosage by 1.2 h per μg L−1 of mixture added. At PAHs dosages >1 μg L−1, Prochlorococcus cell division tended to arrest at S-phase (DNA synthesis). As a consequence, population growth was significantly reduced in the presence of PAHs. The presence of PAHs resulted in a predictable alteration of the cell cycle of the widespread cyanobacteria. The dosages tested are above concentrations in the open ocean, but found in the coastal ocean, where Prochlorococcus growth must be inhibited.
http://dx.doi.org/10.1016/j.envpol.2014.09.023