Anderson D L, Pollock M E, Brower L F
J Bacteriol. 1965 Dec;90(6):1768-77. doi: 10.1128/jb.90.6.1768-1777.1965.
Anderson, D. L. (University of Minnesota, Minneapolis), M. E. Pollock, and L. F. Brower. Morphology of Mycoplasma laidlawii type A. II. Effect of glucose on growth and cellular morphology. J. Bacteriol. 90:1768-1777. 1965.-Cells of Mycoplasma laidlawii A grown in soy peptone-yeast extract (SP-YE) broth reached higher maximal titers than cells grown in SP-YE supplemented with 0.2% glucose, and remained viable longer than glucose-grown cells. Moreover, addition of glucose to SP-YE markedly affected the morphological developmental sequence of the organism. The diameter of glucose-grown cells at 28 to 40 hr was often two to four times that of cells grown without glucose; these large glucose-grown cells deteriorated progressively, and presumably liberated 0.1- to 0.25-mu small bodies. In contrast, pleomorphic 22- to 28-hr cells grown in SP-YE without glucose gave rise to uniform bodies 0.5 to 1.0 mu in diameter; limited numbers of 0.1- to 0.25-mu small bodies were also liberated in nonglucose cultures after 45 to 64 hr. Electron-microscopic counts of 16- to 64-hr cultures agreed well with counts of colony-forming units (CFU) when organisms larger than 0.25 mu were included in the microscopic counts. Small bodies, 0.1 to 0.25 mu in diameter, apparently did not contribute substantially to numbers of CFU. Droplet patterns of cells grown in Arginine Assay Medium and L15 Tissue Culture Medium were cleaner than patterns of cells grown in SP-YE.
安德森,D. L.(明尼苏达大学,明尼阿波利斯),M. E. 波洛克,以及L. F. 布劳尔。莱氏无胆甾原体A的形态学。II. 葡萄糖对生长和细胞形态的影响。《细菌学杂志》90:1768 - 1777。1965年。——在大豆蛋白胨 - 酵母提取物(SP - YE)肉汤中生长的莱氏无胆甾原体A细胞,其最大滴度比在添加0.2%葡萄糖的SP - YE中生长的细胞更高,并且比在葡萄糖中生长的细胞存活时间更长。此外,向SP - YE中添加葡萄糖显著影响了该生物体的形态发育序列。在28至40小时时,在葡萄糖中生长的细胞直径通常是未添加葡萄糖时生长细胞直径的两到四倍;这些在葡萄糖中生长的大细胞逐渐退化,并可能释放出直径为0.1至0.25微米的小体。相比之下,在无葡萄糖的SP - YE中生长22至28小时的多形细胞产生直径为0.5至1.0微米的均匀小体;在45至64小时后,无葡萄糖培养物中也释放出数量有限的直径为0.1至0.25微米的小体。当显微镜计数包括大于0.25微米的生物体时,对16至64小时培养物的电子显微镜计数与菌落形成单位(CFU)计数非常吻合。直径为0.1至0.25微米的小体显然对CFU数量贡献不大。在精氨酸测定培养基和L15组织培养基中生长的细胞的液滴模式比在SP - YE中生长的细胞的模式更清晰。
