Goodwin K D, Varner R K, Crill P M, Oremland R S
Cooperative Institute for Marine and Atmospheric Studies, Rosenstiel School of Marine and Atmospheric Sciences, University of Miami, Miami, Florida 33149, USA.
Appl Environ Microbiol. 2001 Dec;67(12):5437-43. doi: 10.1128/AEM.67.12.5437-5443.2001.
Pure cultures of methylotrophs and methanotrophs are known to oxidize methyl bromide (MeBr); however, their ability to oxidize tropospheric concentrations (parts per trillion by volume [pptv]) has not been tested. Methylotrophs and methanotrophs were able to consume MeBr provided at levels that mimicked the tropospheric mixing ratio of MeBr (12 pptv) at equilibrium with surface waters ( approximately 2 pM). Kinetic investigations using picomolar concentrations of MeBr in a continuously stirred tank reactor (CSTR) were performed using strain IMB-1 and Leisingeria methylohalidivorans strain MB2(T) - terrestrial and marine methylotrophs capable of halorespiration. First-order uptake of MeBr with no indication of threshold was observed for both strains. Strain MB2(T) displayed saturation kinetics in batch experiments using micromolar MeBr concentrations, with an apparent K(s) of 2.4 microM MeBr and a V(max) of 1.6 nmol h(-1) (10(6) cells)(-1). Apparent first-order degradation rate constants measured with the CSTR were consistent with kinetic parameters determined in batch experiments, which used 35- to 1 x 10(7)-fold-higher MeBr concentrations. Ruegeria algicola (a phylogenetic relative of strain MB2(T)), the common heterotrophs Escherichia coli and Bacillus pumilus, and a toluene oxidizer, Pseudomonas mendocina KR1, were also tested. These bacteria showed no significant consumption of 12 pptv MeBr; thus, the ability to consume ambient mixing ratios of MeBr was limited to C(1) compound-oxidizing bacteria in this study. Aerobic C(1) bacteria may provide model organisms for the biological oxidation of tropospheric MeBr in soils and waters.
已知甲基营养菌和甲烷氧化菌的纯培养物可氧化甲基溴(MeBr);然而,它们氧化对流层浓度(体积分数为万亿分之一[pptv])的能力尚未得到测试。甲基营养菌和甲烷氧化菌能够消耗以与地表水达到平衡时MeBr的对流层混合比(12 pptv)水平提供的MeBr(约2 pM)。使用菌株IMB-1和甲基卤氧化雷氏菌MB2(T)菌株(能够进行卤呼吸的陆地和海洋甲基营养菌)在连续搅拌釜式反应器(CSTR)中使用皮摩尔浓度的MeBr进行了动力学研究。两种菌株均观察到MeBr的一级吸收,且无阈值迹象。在使用微摩尔MeBr浓度的分批实验中,MB2(T)菌株表现出饱和动力学,表观K(s)为2.4 μM MeBr,V(max)为1.6 nmol h(-1)(10(6)个细胞)(-1)。用CSTR测得的表观一级降解速率常数与在分批实验中确定的动力学参数一致,分批实验中使用的MeBr浓度高35至1×10(7)倍。还测试了嗜藻鲁杰氏菌(MB2(T)菌株的系统发育亲缘种)、常见异养菌大肠杆菌和短小芽孢杆菌以及甲苯氧化菌门多西假单胞菌KR1。这些细菌对12 pptv MeBr没有明显消耗;因此,在本研究中,消耗环境混合比MeBr的能力仅限于C(1)化合物氧化细菌。需氧C(1)细菌可为土壤和水中对流层MeBr的生物氧化提供模式生物。