Marine Biology Institute, Shantou University, Shantou, Guangdong 515063, China.
Plant Physiol Biochem. 2012 May;54:43-8. doi: 10.1016/j.plaphy.2012.01.018. Epub 2012 Feb 2.
In this study, Dunaliella salina (D. salina) maintained in 30‰ salinity for more than two years was exposed to the salinities of 5‰, 10‰, 20‰, 30‰ (control) in order to investigate oxidative burst and it's possible connection with extracellular carbonic anhydrase (CA) under hypo-osmotic stress (low salinity). The results indicated that intracellular ROS contents increased significantly when cells were exposed to salinity of 5 and 10‰, and the increase also occurred at 20‰ salinity. The activity of extracellular CA and its gene (P60) expression decreased significantly when cells were exposed to salinity of 5-20‰. Data from H₂O₂ treatments hinted that ROS production was possibly one of the factors affecting CA, including enzyme activity and gene expression levels. Significant inhibition of effective quantum efficiency of PSII and photosynthetic oxygen evolution rate were observed with the increase of ROS production and decline of CA activities. Taken together, hypo-osmotic stresses could induce ROS production in D. salina, and CA enzyme activities and expression levels were consequently inhibited. As a result, algal photosynthesis and oxygen evolution were inhibited.
在这项研究中,将超过两年时间维持在 30‰盐度下的杜氏盐藻(D. salina)暴露于 5‰、10‰、20‰和 30‰(对照)的盐度中,以研究在低盐度(低渗透压)下的氧化爆发及其与细胞外碳酸酐酶(CA)之间可能的联系。结果表明,当细胞暴露于 5‰和 10‰盐度时,细胞内 ROS 含量显著增加,当细胞暴露于 20‰盐度时也会发生这种增加。当细胞暴露于 5-20‰盐度时,细胞外 CA 的活性及其基因(P60)表达显著下降。来自 H₂O₂处理的数据表明,ROS 产生可能是影响 CA 的因素之一,包括酶活性和基因表达水平。随着 ROS 产生的增加和 CA 活性的下降,观察到 PSII 的有效量子效率和光合放氧速率显著抑制。总之,低渗透压胁迫可诱导杜氏盐藻中 ROS 的产生,随后抑制 CA 酶的活性和表达水平。结果,藻类光合作用和氧气释放受到抑制。
