购买进口仪器、试剂和耗材——就在始于2001年的毕特博生物 www.bitebo.com |
受到汞污染的环境对人和许多生物都有害,但一项新研究显示,用转基因技术培育的一种细菌,不仅可在含高浓度汞的环境中存活,还能清除汞,减少污染。 美国波多黎各泛美大学的研究者在新一期英国《BMC生物科技》杂志上报告说,他们用转基因手段对一些细菌进行改造,使其含有能生成金属硫化物和多磷酸盐激酶的基因。实验显示,这种细菌能抵抗高浓度汞,即使汞浓度达到致死普通细菌的24倍,它仍能存活。 此外,这种细菌还能吸收环境中的汞,将其转移到自己内部。实验显示,在高浓度汞溶液中,它可以在5天内从溶液中清除80%的汞。 领导研究的奥斯卡·鲁伊斯说,这些转基因细菌不仅可用于清除环境中的汞污染,而且在细菌内部逐渐聚集大量汞之后,还可以设法回收这些汞,供工业生产循环使用。 汞又称水银,是常温下唯一的液态金属,许多温度计中都含有汞。汞如果散布到环境中,可以形成甲基汞等毒性物质,通过呼吸道等途径侵入人体,或是被动植物吸收再通过食物链传递给人,造成汞中毒。 Characterization of mercury bioremediation by transgenic bacteria expressing metallothionein and polyphosphate kinase Oscar Ruiz, Derry Alvarez, Gloriene Gonzalez-Ruiz, Cesar Torres (provisional)Background The use of transgenic bacteria has been proposed as a suitable alternative for mercury remediation. Ideally, mercury would be sequestered by metal-scavenging agents inside transgenic bacteria for subsequent retrieval. So far, this approach has produced limited protection and accumulation. We report here the development of a transgenic system that effectively expresses metallothionein (mt-1) and polyphosphate kinase (ppk) genes in bacteria in order to provide high mercury resistance and accumulation. Results In this study, bacterial transformation with transcriptional and translational enhanced vectors designed for the expression of metallothionein and polyphosphate kinase provided high transgene transcript levels independent of the gene being expressed. Expression of polyphosphate kinase and metallothionein in transgenic bacteria provided high resistance to mercury, up to 80 microM and 120 microM, respectively. Here we show for the first time that metallothionein can be efficiently expressed in bacteria without being fused to a carrier protein to enhance mercury bioremediation. Cold vapor atomic absorption spectrometry analyzes revealed that the mt-1 transgenic bacteria accumulated up to 100.2 +/-17.6 microM of mercury from media containing 120 microM Hg. The extent of mercury remediation was such that the contaminated media remediated by the mt-1 transgenic bacteria supported the growth of untransformed bacteria. Cell aggregation, precipitation and color changes were visually observed in mt-1 and ppk transgenic bacteria when these cells were grown in high mercury concentrations. Conclusion The transgenic bacterial system described in this study presents a viable technology for mercury bioremediation from liquid matrices because it provides high mercury resistance and accumulation while inhibiting elemental mercury volatilization. This is the first report that shows that metallothionein expression provides mercury resistance and accumulation in recombinant bacteria. The high accumulation of mercury in the transgenic cells could present the possibility of retrieving the accumulated mercury for further industrial applications.
|
购买进口仪器、试剂和耗材——就在始于2001年的毕特博生物
www.bitebo.com |
|