Department of Oceanography, University of Washington, Seattle, Washington 98195.
Appl Environ Microbiol. 1980 Apr;39(4):913-8. doi: 10.1128/aem.39.4.913-918.1980.
Nitrification is one of the important microbiological transformations of nitrogen in the ocean. Traditional enrichment-culture methods for enumerating the autotrophic bacteria which oxidize ammonium to nitrite are very time consuming (months) and are believed to seriously underestimate natural abundances. A fluorescent-antibody assay for a marine ammonium-oxidizing bacterium was developed to provide a rapid and direct means of identifying these microorganisms. Antibodies to Nitrosococcus oceanus were prepared and tested against pure cultures of marine, freshwater, and soil ammonium oxidizers and against bacteria from natural seawater samples. Cell counts of culture samples determined by the fluorescent-antibody assay agreed with hemacytometer and acridine orange counts. Our results demonstrated that the immunofluorescent assay is a powerful tool for the detection of Nitrosococcus in the marine environment.
硝化作用是海洋氮素的重要微生物转化之一。传统的富集培养方法用于计数将氨氧化为亚硝酸盐的自养细菌非常耗时(数月),并且据信严重低估了自然丰度。开发了一种用于海洋氨氧化细菌的荧光抗体测定法,以提供快速直接的方法来识别这些微生物。制备了针对海洋、淡水和土壤氨氧化菌的对 Nitrosococcus oceanus 的抗体,并针对天然海水样本中的细菌进行了测试。荧光抗体测定法确定的培养物样本的细胞计数与血球计数板和吖啶橙计数一致。我们的结果表明,免疫荧光测定法是检测海洋环境中 Nitrosococcus 的有力工具。