Cellular chain formation in Escherichia coli biofilms.

Microbiology (Reading)

Microbial Genomics Group, Centre for Biological Sequence Analysis, Department of Systems Biology, Technical University of Denmark, Building 301, DK-2800 Kgs. Lyngby, Denmark.

Published: May 2009

AI Article Synopsis

  • The study identifies a unique structural feature in E. coli biofilms called cellular chain formation, which is driven by clonal expansion and intercellular interactions facilitated by the Ag43 protein, rather than filamentous growth.
  • Immunofluorescence microscopy shows that Ag43 is concentrated at cell poles and that factors like flow and surface growth also influence biofilm structure.
  • The research suggests that this chain formation is not exclusive to E. coli K-12, as certain urinary tract infection isolates, including one associated with asymptomatic bacteriuria, also display complex chain structures, highlighting the diversity of biofilm architectures within single microbial species.

Article Abstract

In this study we report on a novel structural phenotype in Escherichia coli biofilms: cellular chain formation. Biofilm chaining in E. coli K-12 was found to occur primarily by clonal expansion, but was not due to filamentous growth. Rather, chain formation was the result of intercellular interactions facilitated by antigen 43 (Ag43), a self-associating autotransporter (SAAT) protein, which has previously been implicated in auto-aggregation and biofilm formation. Immunofluorescence microscopy suggested that Ag43 was concentrated at or near the cell poles, although when the antigen was highly overexpressed, a much more uniform distribution was seen. Immunofluorescence microscopy also indicated that other parameters, including dimensional constraints (flow, growth alongside a surface), may also affect the final biofilm architecture. Moreover, chain formation was affected by other surface structures; type I fimbriae expression significantly reduced cellular chain formation, presumably by steric hindrance. Cellular chain formation did not appear to be specific to E. coli K-12. Although many urinary tract infection (UTI) isolates were found to form rather homogeneous, flat biofilms, three isolates, including the prototypic asymptomatic bacteriuria strain, 83972, formed highly elaborate cellular chains during biofilm growth in human urine. Combined, these results illustrate the diversity of biofilm architectures that can be observed even within a single microbial species.

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Source
http://dx.doi.org/10.1099/mic.0.026419-0DOI Listing

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