Fang Jiasong, Kato Chiaki, Sato Takako, Chan Olivia, McKay David
Department of Geological and Atmospheric Sciences, Iowa State University, 360 Science I, Ames, IA 50011, USA.
Comp Biochem Physiol B Biochem Mol Biol. 2004 Apr;137(4):455-61. doi: 10.1016/j.cbpc.2004.01.009.
The biochemistry of piezophilic bacteria is unique in that piezophiles produce polyunsaturated fatty acids (PUFAs). A pertinent question is if piezophilic bacteria synthesize PUFA de novo, through dietary uptake, or both. This study was undertaken to examine the biosynthesis and cellular uptake of PUFAs by piezophilic bacteria. A moderately piezophilic (Shewanella violacea DSS12) and two hyperpiezophilic bacteria (S. benthica DB21MT-2 and Moritella yayanosii DB21MT-5) were grown under 50 MPa (megapascal) and 100 MPa, respectively, in media containing marine broth 2216 supplemented with arachidonic acid (AA, sodium salt) and/or antibiotic cerulenin. There was active uptake and cellular incorporation of AA in the hyperpiezophilic bacteria DB21MT-2 (14.7% of total fatty acids) and DB21MT-5 (1.4%), but no uptake was observed in DSS12. When cells were treated with cerulenin, all three strains incorporated AA into cell membranes (13-19%). The biosynthesis of monounsaturated fatty acids was significantly inhibited (10-37%) by the addition of cerulenin, whereas the concentrations of PUFAs increased by 2-4 times. These results suggest that piezophilic bacteria biosynthesize and/or incorporate dietary polyunsaturated fatty acids that are important for their growth and piezoadaptation. The significance of these findings is also discussed in the context of phenotypic classification of piezophiles.
嗜压细菌的生物化学特性独特,因为嗜压菌会产生多不饱和脂肪酸(PUFAs)。一个相关问题是,嗜压细菌是从头合成PUFA、通过饮食摄取PUFA,还是两者兼而有之。本研究旨在检测嗜压细菌对PUFAs的生物合成及细胞摄取情况。一株中度嗜压菌(紫色希瓦氏菌DSS12)和两株超嗜压菌(深海希瓦氏菌DB21MT - 2和耶氏莫拉菌DB21MT - 5)分别在50兆帕(MPa)和100兆帕的压力下,于添加了花生四烯酸(AA,钠盐)和/或抗生素浅蓝菌素的2216海洋肉汤培养基中培养。超嗜压菌DB21MT - 2(占总脂肪酸的14.7%)和DB21MT - 5(占总脂肪酸的1.4%)对AA有活跃摄取及细胞内掺入,但在DSS12中未观察到摄取现象。当用浅蓝菌素处理细胞时,所有三株菌都将AA掺入细胞膜(13 - 19%)。添加浅蓝菌素后,单不饱和脂肪酸的生物合成受到显著抑制(10 - 37%),而PUFAs浓度增加了2 - 4倍。这些结果表明,嗜压细菌能生物合成和/或摄取对其生长和压力适应很重要的膳食多不饱和脂肪酸。还在嗜压菌的表型分类背景下讨论了这些发现的意义。
