Etoh Y, Dewhirst F E, Paster B J, Yamamoto A, Goto N
Department of Oral Microbiology, Showa University School of Dentistry, Tokyo, Japan.
Int J Syst Bacteriol. 1993 Oct;43(4):631-9. doi: 10.1099/00207713-43-4-631.
Nine Campylobacter-like strains were isolated from human gingival crevices and characterized. These strains were gram-negative, straight rods that were motile by means of multiple unipolar flagella. They were asaccharolytic and preferred an anaerobic atmosphere rather than a microaerophilic atmosphere for growth, and their growth was stimulated by formate and fumarate. These strains were biochemically similar to Campylobacter curvus and Campylobacter rectus, but were clearly distinguishable from these organisms by the number of flagella (two to five flagella at one end of the cell), by being catalase positive, by their whole-cell protein profiles, by their Western blot (immunoblot) patterns, and on the basis of DNA-DNA homology data. They could also be differentiated from the other species of the genus Campylobacter. The nine Campylobacter-like strains were compared with two strains (FDC 286 and VPI 10279) representing a previously described but unnamed Wolinella sp. The nine isolates and strains FDC 286 and VPI 10279 were found to be members of a single species. The 16S rRNA sequences of two strains of the newly identified species were compared with the rRNA sequences of 21 reference Campylobacter, Wolinella, and Helicobacter species in order to generate a phylogenetic tree. We propose the name Campylobacter showae for the newly identified strains; strain SU A4 (= ATCC 51146) is the type strain of this new species.
从人牙龈沟中分离出9株弯曲杆菌样菌株并进行了鉴定。这些菌株为革兰氏阴性直杆菌,通过多根单极鞭毛运动。它们不分解糖类,生长时更偏好厌氧环境而非微需氧环境,甲酸盐和富马酸盐可刺激其生长。这些菌株在生化特性上与弯曲弯曲杆菌和直肠弯曲杆菌相似,但通过鞭毛数量(细胞一端有2至5根鞭毛)、过氧化氢酶阳性、全细胞蛋白图谱、蛋白质印迹(免疫印迹)模式以及DNA - DNA同源性数据可与这些菌明显区分。它们也可与弯曲杆菌属的其他菌种相鉴别。将这9株弯曲杆菌样菌株与代表先前描述但未命名的沃氏菌属的两株菌(FDC 286和VPI 10279)进行了比较。发现这9株分离株以及FDC 286和VPI 10279菌株属于同一菌种。将新鉴定菌种的两株菌的16S rRNA序列与21种弯曲杆菌、沃氏菌和螺杆菌属参考菌种的rRNA序列进行比较,以构建系统发育树。我们提议将新鉴定的菌株命名为绍氏弯曲杆菌;菌株SU A4(= ATCC 51146)是该新菌种的模式菌株。
