Marshall Matthew J, Dohnalkova Alice C, Kennedy David W, Plymale Andrew E, Thomas Sara H, Löffler Frank E, Sanford Robert A, Zachara John M, Fredrickson James K, Beliaev Alexander S
Biological Sciences Division, Pacific Northwest National Laborotary, Richland, WA 99354, USA.
Environ Microbiol. 2009 Feb;11(2):534-43. doi: 10.1111/j.1462-2920.2008.01795.x.
Anaeromyxobacter dehalogenans strain 2CP-C reduces U(VI) and Tc(VII) to U(IV)O(2(s)) (uraninite) and Tc(IV)O(2(S)) respectively. Kinetic studies with resting cells revealed that U(VI) or Tc(VII) reduction rates using H(2) as electron donor exceeded those observed in acetate-amended incubations. The reduction of U(VI) by A. dehalogenans 2CP-C resulted in extracellular accumulation of approximately 5 nm uraninite nanoparticles in association with a lectin-binding extracellular polymeric substance (EPS). The electron donor did not affect UO(2(S)) nanoparticle size or association with EPS, but the utilization of acetate as the source of reducing equivalents resulted in distinct UO(2(S)) nanoparticle aggregates that were approximately 50 nm in diameter. In contrast, reduction of Tc(VII) by A. dehalogenans 2CP-C cell suspensions produced dense clusters of TcO(2) particles, which were localized within the cell periplasm and on the outside of the outer membrane. In addition to direct reduction, A. dehalogenans 2CP-C cell suspensions reduced Tc(VII) indirectly via an Fe(II)-mediated mechanism. Fe(II) produced by strain 2CP-C from either ferrihydrite or Hanford Site sediment rapidly removed (99)Tc(VII)O(4)(-) from solution. These findings expand our knowledge of the radionuclide reduction processes catalysed by Anaeromyxobacter spp. that may influence the fate and transport of radionuclide contaminants in the subsurface.
脱卤厌氧粘细菌菌株2CP - C分别将U(VI)和Tc(VII)还原为U(IV)O₂(s)(晶质铀矿)和Tc(IV)O₂(s)。对静息细胞的动力学研究表明,以H₂作为电子供体时U(VI)或Tc(VII)的还原速率超过了在添加乙酸盐的培养中观察到的速率。脱卤厌氧粘细菌2CP - C对U(VI)的还原导致约5纳米的晶质铀矿纳米颗粒在细胞外积累,并与一种凝集素结合的细胞外聚合物(EPS)相关联。电子供体不影响UO₂(s)纳米颗粒的大小或与EPS的结合,但利用乙酸盐作为还原当量的来源会导致形成直径约为50纳米的不同UO₂(s)纳米颗粒聚集体。相比之下,脱卤厌氧粘细菌2CP - C细胞悬液对Tc(VII)的还原产生了密集的TcO₂颗粒簇,这些颗粒位于细胞周质内和外膜外侧。除了直接还原外,脱卤厌氧粘细菌2CP - C细胞悬液还通过Fe(II)介导的机制间接还原Tc(VII)。菌株2CP - C从水铁矿或汉福德场地沉积物中产生的Fe(II)能迅速从溶液中去除(⁹⁹)Tc(VII)O₄⁻。这些发现扩展了我们对厌氧粘细菌属催化的放射性核素还原过程的认识,这些过程可能会影响地下放射性核素污染物的归宿和迁移。
