Abstract
In freeze-etched preparations, whole cells from Bacillus coagulans E38-66 exhibited an oblique S-layer lattice (a = 9.4 nm; b = 7.4 nm; gamma = 80 degrees). The three-dimensional structure of the crystalline array was characterized by optical and computer image analysis. The lattice showed two distinctly shaped types of pores. In vitro self-assembly of isolated subunits yielded flat sheets and open-ended cylinders composed of two back-to-back monolayers. Unlike whole cells, in vitro self-assembly products were capable of binding polycationized ferritin (pI, approximately 11). This showed that only the inner S-layer face adhering to the peptidoglycan-containing layer in whole cells was net negatively charged. S-layer monomers and/or oligomers were capable of generating a closed monolayer with oblique symmetry on poly-L-lysine-coated supports. The monolayer had a typical crazy paving appearance, with numerous crystal boundaries. The handedness of the oblique lattice and ability to bind polycationized ferritin revealed that the subunits had bound with the outer, not net negatively charged face to the poly-L-lysine-coated supports. Carbodiimide-activated carboxyl groups on either cell wall fragments or self-assembly products could covalently bind high-molecular-weight nucleophiles such as ferritin. This confirmed the location of negatively charged carboxyl groups on the outermost surface of both S-layer faces. The difference in pH optimum for carbodiimide activation indicated a preponderance of alpha- and beta-carboxyl groups on the inner S-layer face and a preponderance of beta- and gamma-carboxyl groups on the outer S-layer face.
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Selected References
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