细胞分裂周期可能参与大肠杆菌从生物膜中的扩散。

Possible involvement of the division cycle in dispersal of Escherichia coli from biofilms.

作者信息

Allison D G, Evans D J, Brown M R, Gilbert P

机构信息

Pharmaceutical Sciences Institute, Aston University, Birmingham, United Kingdom.

出版信息

J Bacteriol. 1990 Mar;172(3):1667-9. doi: 10.1128/jb.172.3.1667-1669.1990.

DOI:10.1128/jb.172.3.1667-1669.1990

PMID:2407730

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC208648/

Abstract

Growth rate control of adherent, sessile populations was achieved by the controlled perfusion of membrane-associated bacterial biofilms by the method of Gilbert et al. (P. Gilbert, D. G. Allison, D. J. Evans, P. S. Handley, and M. R. W. Brown, Appl. Environ. Microbiol. 55:1308-1311, 1989). Changes in cell surface hydrophobicity were evaluated with respect to growth rate for such sessile Escherichia coli cells and compared with those of suspended (planktonic) populations grown in a chemostat. Newly formed daughter cells shed at the various growth rates from the biofilm during its growth and development were also included in the study. Surface hydrophobicity decreased with growth rate similarly for both planktonic and sessile E. coli; no significant differences were noted between the two. Daughter cells dislodged from the biofilm, however, were significantly more hydrophilic than those remaining, indicating that hydrophobicity changed during the division cycle. Our data support the hypothesis that dispersal of cells from adhesive biofilms and recolonization of new surfaces reflect cell-cycle-mediated events.

摘要

通过采用吉尔伯特等人（P. 吉尔伯特、D. G. 艾利森、D. J. 埃文斯、P. S. 汉德利和M. R. W. 布朗，《应用与环境微生物学》55:1308 - 1311，1989年）的方法，对附着的、固着群体的生长速率进行了控制，即对与膜相关的细菌生物膜进行受控灌注。针对此类固着的大肠杆菌细胞，评估了细胞表面疏水性随生长速率的变化，并与在恒化器中生长的悬浮（浮游）群体的变化进行了比较。在生物膜生长和发育过程中以各种生长速率从生物膜脱落的新形成的子细胞也纳入了研究。浮游和固着的大肠杆菌的表面疏水性均随生长速率降低，两者之间未观察到显著差异。然而，从生物膜中脱落的子细胞比留在生物膜中的子细胞亲水性显著更高，这表明疏水性在分裂周期中发生了变化。我们的数据支持这样一种假设，即细胞从附着生物膜中的扩散以及在新表面上的重新定殖反映了细胞周期介导的事件。

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