Publications by authors named "Elliot Erskine"
Article Synopsis
- The extracellular matrix in biofilms helps protect and support the bacteria community.
- TasA is a protein that can form different types of fibrils, which are important for building the structure of biofilms.
- By studying changes to one specific part of TasA, scientists discovered that this part is crucial for forming organized biofilms and that just making fibers isn't enough for a strong structure.
Microbial growth often occurs within multicellular communities called biofilms, where cells are enveloped by a protective extracellular matrix. serves as a model organism for biofilm research and produces two crucial secreted proteins, BslA and TasA, vital for biofilm matrix formation. BslA exhibits surface-active properties, spontaneously self-assembling at hydrophobic/hydrophilic interfaces to form an elastic protein film, which renders biofilm surfaces water-repellent.
View Article and Find Full Text PDFBiofilms are ubiquitous in the natural and man-made environment. They are defined as microbes that are encapsulated in an extracellular, self-produced, biofilm matrix. Growing evidence from the genetic and biochemical analysis of single species biofilms has linked the presence of fibrous proteins to a functional biofilm matrix.
View Article and Find Full Text PDFBacterial biofilms are communities of microbial cells encased within a self-produced polymeric matrix. In the Bacillus subtilis biofilm matrix, the extracellular fibres of TasA are essential. Here, a recombinant expression system allows interrogation of TasA, revealing that monomeric and fibre forms of TasA have identical secondary structure, suggesting that fibrous TasA is a linear assembly of globular units.
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