Download This PaperPreliminary Investigation on the Potential Involvement of An Abc-Like Gene In Halomicronema Metazoicum (Cyanobacteria) Tolerance to Low Seawater Ph in an Ocean Acidification Scenarios
23 Pages Posted: 21 Dec 2023
Abstract
Decreasing ocean surface pH, referred to as ocean acidification (OA), is among the major risks for marine ecosystems due to human-driven atmospheric pCO2 increase. Understanding the molecular mechanisms of adaptation enabling marine species to tolerate a lowered seawater pH could support predictions of consequences of future OA scenarios for marine life. This study examined whether the ATP-binding cassette (ABC)-like gene slr2019 confers tolerance to the marine cyanobacterium Halomicronema metazoicum to low seawater pH conditions (7.7, 7.2, 6.5) in short- and long-term exposures (7 and 30 d). Photosynthetic pigment content indicated that the species can tolerate all three lowered-pH conditions. At day 7, the slr2019 was up-regulated at pH 7.7 while no changes were observed at lower pH. After 30-d exposure, a significant decrease in slr2019 transcript levels was observed in all low-pH treatments. These first results indicate an effect of low pH on the examined transporter expression in H. metazoicum.
Keywords: Halomicronema metazoicum, Cyanobacteria, acid stress tolerance, ATP-binding cassette (ABC) membrane transporter proteins, ocean acidification (OA) scenarios, low pH
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