Abstract
Genomic analyses of Viridibacillus arvi JG-B58 that was previously isolated from heavy metal contaminated environment identified three different putative surface layer (S-layer) protein genes namely slp1, slp2, and slp3. All three genes are expressed during cultivation. At least two of the V. arvi JG-B58 S-layer proteins were visualized on the surface of living cells via atomic force microscopy (AFM). These S-layer proteins form a double layer with p4 symmetry. The S-layer proteins were isolated from the cells using two different methods. Purified S-layer proteins were recrystallized on SiO2 substrates in order to study the structure of the arrays and self-assembling properties. The primary structure of all examined S-layer proteins lack some features that are typical for Bacillus or Lysinibacillus S-layers. For example, they possess no SLH domains that are usually responsible for the anchoring of the proteins to the cell wall. Further, the pI values are relatively high ranging from 7.84 to 9.25 for the matured proteins. Such features are typical for S-layer proteins of Lactobacillus species although sequence comparisons indicate a close relationship to S-layer proteins of Lysinibacillus and Bacillus strains. In comparison to the numerous descriptions of S-layers, there are only a few studies reporting the concomitant existence of two different S-layer proteins on cell surfaces. Together with the genomic data, this is the first description of a novel type of S-layer proteins showing features of Lactobacillus as well as of Bacillus-type S-layer proteins and the first study of the cell envelope of Viridibacillus arvi.
Highlights
Surface layers (S-layer) are proteinaceous cell surface structures that are ubiquitously found at the cell surface of many bacteria and archaea
This study describes for the first time the in-vivo imaging of two superimposed S-layer proteins via atomic force microscopy (AFM) analyses
Phase contrast microscopic analyses reveal that the cells of V. arvi JG-B58 are straight, round-ended and have a size of 0.8–1.0 x 3.0–5.0 μm, showing similarities to V. arvi cells as described by Heyrman, J. et al (2005) [24] and Albert, R
Summary
Surface layers (S-layer) are proteinaceous cell surface structures that are ubiquitously found at the cell surface of many bacteria and archaea They form the outermost layer of the cell as a barrier and are largely determining their interaction with the environment including interaction with other organisms, exchange of nutrients and metabolic waste products, and the interaction with external stressors e. In most cases S-layers are composed of identical (glyco)protein subunits with a molecular weight ranging from 40–200 kDa that form two-dimensional highly regular arrays of different symmetries on cells and once isolated in suspension or on suitable surfaces or interfaces [2,3]. In some cases cell envelopes that are composed of two different S-layer proteins have been described [11,12,13,14,15]
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