Carapito Christine, Muller Daniel, Turlin Evelyne, Koechler Sandrine, Danchin Antoine, Van Dorsselaer Alain, Leize-Wagner Emmanuelle, Bertin Philippe N, Lett Marie-Claire
LSMBO, Laboratoire de Spectrométrie de Masse Bio-Organique ECPM, Bâtiment R5, 67087 Strasbourg, France CNRS-UMR 7509/Université Louis-Pasteur, Strasbourg, France.
Biochimie. 2006 Jun;88(6):595-606. doi: 10.1016/j.biochi.2005.11.004. Epub 2005 Dec 5.
The effect of high concentrations of arsenic has been investigated in Caenibacter arsenoxydans, a beta-proteobacterium isolated from an arsenic contaminated environment and able to oxidize arsenite to arsenate. As the genome of this bacterium has not yet been sequenced, the use of a specific proteomic approach based on nano-high performance liquid chromatography tandem mass spectrometry (nanoLC-MS/MS) studies and de novo sequencing to perform cross-species protein identifications was necessary. In addition, a random mutational analysis was performed. Twenty-two proteins and 16 genes were shown to be differentially accumulated and expressed, respectively, in cells grown in the presence of arsenite. Two genes involved in arsenite oxidation and one in arsenite efflux as well as two proteins responsible for arsenate reduction were identified. Moreover, numerous genes and proteins belonging to various functional classes including information and regulation pathways, intermediary metabolism, cell envelope and cellular processes were also up- or down-regulated, which demonstrates that bacterial response to arsenic is pleiotropic.
已在砷氧化钙杆菌中研究了高浓度砷的影响,该菌是一种从受砷污染环境中分离出的β-变形菌,能够将亚砷酸盐氧化为砷酸盐。由于该细菌的基因组尚未测序,因此有必要使用基于纳米高效液相色谱串联质谱(nanoLC-MS/MS)研究和从头测序的特定蛋白质组学方法来进行跨物种蛋白质鉴定。此外,还进行了随机突变分析。结果表明,在亚砷酸盐存在下生长的细胞中,分别有22种蛋白质和16个基因差异积累和表达。鉴定出了两个参与亚砷酸盐氧化的基因、一个参与亚砷酸盐外排的基因以及两个负责砷酸盐还原的蛋白质。此外,许多属于各种功能类别的基因和蛋白质,包括信息和调节途径、中间代谢、细胞膜和细胞过程,也被上调或下调,这表明细菌对砷的反应是多效性的。
