细胞壁
干酪乳杆菌
溶解
肽聚糖
生物
乳酸菌
渗透浓度
生物化学
青霉素结合蛋白
青霉素
渗透性休克
细胞
微生物学
发酵
抗生素
基因
作者
Mariana Piuri,Carmen Sánchez-Rivas,Sandra M. Ruzal
标识
DOI:10.1111/j.1365-2672.2004.02428.x
摘要
To study the modification of the cell wall of Lactobacillus casei ATCC 393 grown in high salt conditions.Differences in the overall structure of cell wall between growth in high salt (MRS + 1 mol l(-1) NaCl; N condition) and control (MRS; C condition) conditions were determined by transmission electronic microscopy and analytical procedures. Lactobacillus casei cells grown in N condition were significantly larger than cells grown under unstressed C condition. Increased sensitivity to mutanolysin and antibiotics with target in the cell wall was observed in N condition. Purified cell wall also showed the increased sensitivity to lysis by mutanolysin. Analysis of peptidoglycan (PG) from stressed cells showed that modification was at the structural level in accordance with a decreased PG cross-link involving penicillin-binding proteins (PBP). Nine PBP were first described in this species and these proteins were expressed in low percentages or presented a modified pattern of saturation with penicillin G (Pen G) during growth in high salt. Three of the essential PBP were fully saturated in N condition at lower Pen G concentrations than in C condition, suggesting differences in functionality in vivo.The results show that growth in high salt modified the structural properties of the cell wall.Advances in understanding the adaptation to high osmolarity, in particular those involving sensitivity to lysis of lactic acid bacteria.
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