Identification of Biofilm Matrix-Associated Proteins from an Acid Mine Drainage Microbial Community

Author:

Jiao Yongqin1,D'haeseleer Patrik2,Dill Brian D.3,Shah Manesh4,VerBerkmoes Nathan C.3,Hettich Robert L.3,Banfield Jillian F.5,Thelen Michael P.1

Affiliation:

1. Physical and Life Sciences, Lawrence Livermore National Laboratory, Livermore, California 94550

2. Computations Directorate, Lawrence Livermore National Laboratory, Livermore, California 94550

3. Chemical Sciences, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831

4. Biosciences Divisions, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831

5. Department of Environmental Science, Policy, and Management, University of California, Berkeley, California 94720

Abstract

ABSTRACT In microbial communities, extracellular polymeric substances (EPS), also called the extracellular matrix, provide the spatial organization and structural stability during biofilm development. One of the major components of EPS is protein, but it is not clear what specific functions these proteins contribute to the extracellular matrix or to microbial physiology. To investigate this in biofilms from an extremely acidic environment, we used shotgun proteomics analyses to identify proteins associated with EPS in biofilms at two developmental stages, designated DS1 and DS2. The proteome composition of the EPS was significantly different from that of the cell fraction, with more than 80% of the cellular proteins underrepresented or undetectable in EPS. In contrast, predicted periplasmic, outer membrane, and extracellular proteins were overrepresented by 3- to 7-fold in EPS. Also, EPS proteins were more basic by ∼2 pH units on average and about half the length. When categorized by predicted function, proteins involved in motility, defense, cell envelope, and unknown functions were enriched in EPS. Chaperones, such as histone-like DNA binding protein and cold shock protein, were overrepresented in EPS. Enzymes, such as protein peptidases, disulfide-isomerases, and those associated with cell wall and polysaccharide metabolism, were also detected. Two of these enzymes, identified as β- N -acetylhexosaminidase and cellulase, were confirmed in the EPS fraction by enzymatic activity assays. Compared to the differences between EPS and cellular fractions, the relative differences in the EPS proteomes between DS1 and DS2 were smaller and consistent with expected physiological changes during biofilm development.

Publisher

American Society for Microbiology

Subject

Ecology,Applied Microbiology and Biotechnology,Food Science,Biotechnology

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