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In many bacteria, the twin arginine translocation (Tat) system transports folded proteins across the cytoplasmic membrane, and these proteins can play a role in symbiotic or pathogenic infections. A role for the Vibrio fischeri Tat system was identified during symbiotic colonization of its host Euprymna scolopes, demonstrating a function for the Tat system in host colonization by a member of the Vibrionaceae. Using bioinformatics, mutant analyses, and green fluorescent protein fusions, a set of Tat-targeted proteins in V. fischeri was identified. 相似文献
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Aims: The aim of this study was to compare the luminescent intensity of bioluminescence from marine luminous bacteria with different motility.
Methods and Results: Luminescent bacteria were separated according to their motility using a microfluidic device. The cell densities of the separated samples were measured using a counting plate. The luminescent intensity of the separated samples was measured using a luminometer. The luminescent intensity per cell was calculated, and the values from the mobile (swimmers) and the nonmobile cells (nonswimmers) per single cell were compared; as a result, the former were proved to be larger than the latter.
Conclusions: Microfluidics were shown to be effective for the separation of bioluminescent bacteria and the bioluminescent intensity difference per cell was recognized with this experiment.
Significance and Impact of the Study: This study introduced for the first time a method to examine the individual cell function of Photobacterium kishitanii . 相似文献
Methods and Results: Luminescent bacteria were separated according to their motility using a microfluidic device. The cell densities of the separated samples were measured using a counting plate. The luminescent intensity of the separated samples was measured using a luminometer. The luminescent intensity per cell was calculated, and the values from the mobile (swimmers) and the nonmobile cells (nonswimmers) per single cell were compared; as a result, the former were proved to be larger than the latter.
Conclusions: Microfluidics were shown to be effective for the separation of bioluminescent bacteria and the bioluminescent intensity difference per cell was recognized with this experiment.
Significance and Impact of the Study: This study introduced for the first time a method to examine the individual cell function of Photobacterium kishitanii . 相似文献
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微弱发光分析技术应用实例(五) 总被引:1,自引:0,他引:1
张仲伦 《生物化学与生物物理进展》2000,27(2):221-222
多数生物系统存在低水平化学发光,这种化学发光与生物体内的生理反应有关.生活在水和空气中的生物体受到各种污染因素危害必定引起生理变化,从而引起这种低水平化学发光的改变.利用这种现象,将某些生物体作为生物探测器,应用微弱发光分析技术可以检测水体和大气的污染程度. 相似文献
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硝化基质和产物对发光细菌的急性毒性 总被引:1,自引:0,他引:1
摘要:【目的】对硝化基质和产物对硝化过程的影响进行初步研究。【方法】采用发光细菌法,在pH=7.0的条件下,测定了氨、羟胺、亚硝酸和硝酸对发光细菌的急性毒性(15min-半抑制浓度(the half inhibitory concentration,IC50))。【结果】单一物质的毒性试验结果表明,硝化基质和产物对发光细菌的毒性随浓度的升高而增大,且具有较好的线性关系;氨、羟胺、亚硝酸和硝酸的IC50分别为2180.2 mg/L、6.2740 mg/L、1207.2 mg/L和3140.3 mg/L;其毒性大小顺序为:羟胺 >亚硝酸 >氨 >硝酸。按等效浓度混合法测定硝化基质和产物的联合毒性,结果表明:氨与羟胺、氨与亚硝酸、羟胺与亚硝酸对发光细菌的联合毒性呈相加作用;氨与硝酸、羟胺与硝酸、亚硝酸与硝酸对发光细菌的联合毒性呈独立作用;氨、羟胺、亚硝酸、硝酸四元混合物的联合毒性也呈相加作用。【结论】根据硝化基质和产物对发光细菌和硝化细菌抑制浓度的相关性,可用发光细菌发光强度的变化指示硝化基质和产物的抑制作用。 相似文献
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