Moustafa H H, Collins E B
J Bacteriol. 1968 Feb;95(2):592-602. doi: 10.1128/jb.95.2.592-602.1968.
Cells of Streptococcus diacetilactis DRCI grown at 32 C in media containing glucose as the energy source were osmotically fragile and began to lyse immediately after growth was stopped (by the action of chloramphenicol or the exhaustion of glucose), unless they were then stabilized by hypertonic medium or spermine or by storage at low pH or low temperature, or both. In media containing excess glucose, with growth limited by exhaustion of some nutrient other than the energy source, the appearance of lysis was masked by the occurrence of a balance between lysis and synthesis. The osmotic fragility apparently resulted from inability of the organism to use glucose as an adequate precursor of galactosamine, and conditions of temperature and pH that promoted rapid growth on glucose were particularly conducive to the formation of cells that lysed readily. Growing the organism in media containing galactose, lactose, maltose, or glucose (at 17 C) as energy source resulted in the formation of cells that were resistant to lysis and richer in galactosamine than unstable cells formed on glucose at 32 C. The results indicate that the organism phosphorolyzes maltose to glucose plus beta-glucose-1-phosphate, and suggest that it can use the beta-glucose-1-phosphate in place of alpha-glucose-1-phosphate in the formation of cell materials.
在含有葡萄糖作为能源的培养基中于32℃培养的双乙酰乳酸链球菌DRCI细胞对渗透压敏感,生长停止后(通过氯霉素作用或葡萄糖耗尽)会立即开始裂解,除非随后用高渗培养基、精胺或在低pH或低温下储存使其稳定,或两者同时使用。在含有过量葡萄糖的培养基中,生长因能源以外的某些营养物质耗尽而受到限制时,裂解现象被裂解与合成之间的平衡所掩盖。渗透压敏感性显然是由于该生物体无法将葡萄糖用作氨基半乳糖的合适前体,并且促进在葡萄糖上快速生长的温度和pH条件特别有利于形成易于裂解的细胞。在含有半乳糖、乳糖、麦芽糖或葡萄糖(在17℃)作为能源的培养基中培养该生物体,会形成对裂解具有抗性且氨基半乳糖含量比在32℃下由葡萄糖形成的不稳定细胞更高的细胞。结果表明该生物体将麦芽糖磷酸解为葡萄糖加β-葡萄糖-1-磷酸,并表明它可以在形成细胞物质时使用β-葡萄糖-1-磷酸代替α-葡萄糖-1-磷酸。