Mergeay M, Nies D, Schlegel H G, Gerits J, Charles P, Van Gijsegem F
J Bacteriol. 1985 Apr;162(1):328-34. doi: 10.1128/jb.162.1.328-334.1985.
Alcaligenes eutrophus strain CH34, which was isolated as a bacterium resistant to cobalt, zinc, and cadmium ions, shares with A. eutrophus strain H16 the ability to grow lithoautotrophically on molecular hydrogen, to form a cytoplasmic NAD-reducing and a membrane-bound hydrogenase, and most metabolic attributes; however, it does not grow on fructose. Strain CH34 contains two plasmids, pMOL28 (163 kilobases) specifying nickel, mercury, and cobalt resistance and pMOL30 (238 kilobases) specifying zinc, cadmium, mercury, and cobalt resistance. The plasmids are self-transmissible in homologous matings, but at low frequencies. The transfer frequency was strongly increased with IncP1 plasmids RP4 and pUZ8 as helper plasmids. The phenotypes of the wild type, cured strains, and transconjugants are characterized by the following MICs (Micromolar) in strains with the indicated phenotypes: Nic+, 2.5; Nic-, 0.6; Cob+A, 5.0; Cob+B, 20.0; Cob-, less than 0.07; Zin+, 12.0; Zin-, 0.6; Cad+, 2.5; and Cad-, 0.6. Plasmid-free cells of strain CH34 are still able to grow lithoautotrophically and to form both hydrogenases, indicating that the hydrogenase genes are located on the chromosome, in contrast to the Hox structural genes of strain H16, which are located on the megaplasmid pHG1 (450 kilobases).
产碱杆菌CH34菌株最初是作为一种对钴、锌和镉离子具有抗性的细菌分离得到的,它与产碱杆菌H16菌株一样,具有利用分子氢进行无机自养生长的能力,能形成胞质NAD还原型和膜结合氢化酶,以及大多数代谢特性;然而,它不能在果糖上生长。CH34菌株含有两个质粒,pMOL28(163千碱基)赋予镍、汞和钴抗性,pMOL30(238千碱基)赋予锌、镉、汞和钴抗性。这些质粒在同源交配中可自我传递,但频率较低。以IncP1质粒RP4和pUZ8作为辅助质粒时,转移频率会显著增加。野生型、治愈菌株和转接合子的表型通过以下最低抑菌浓度(微摩尔)来表征,这些菌株具有所示的表型:Nic+,2.5;Nic-,0.6;Cob+A,5.0;Cob+B,20.0;Cob-,小于0.07;Zin+,12.0;Zin-,0.6;Cad+,2.5;和Cad-,0.6。CH34菌株的无质粒细胞仍然能够进行无机自养生长并形成两种氢化酶,这表明氢化酶基因位于染色体上,这与H16菌株的Hox结构基因位于大质粒pHG1(450千碱基)上形成对比。
