E M Sonnenfeld scite author profile

The cell wall of BaciUus subtilis is capable of binding different kinds of metal ions. The wall-ion complex appears to be dependent on both phosphoryl from teichoic acid and carboxylate from peptidoglycan. In the present study, cationized ferritin (CF) was used as 4 probe for charge distribution on the wall of B. subtilis 168. Detergent-extracted cell walls bound CF only on the outer wall face. Completed cell poles bound CF, but septa did not. When the wails were permitted to autolyze briefly, binding of CF occurred on both faces. In contrast, limited hydrolysis of the wails by egg white lysozyme resulted in the penetration of CF into the wall matrix. When walls were made teichoic acid-free, CF-binding asymmetry was preserved, suggesting that carboxyl groups were oriented toward the surface. Wails with carboxylates chemically neutralized also retained charge asymmetry. Phosphate-free and carboxyl-modified walls bound CF only poorly or not at all. These results indicate that negative charges contributed by both phosphate and carboxyl are responsible for the binding of CF and that the observed asymmetry in the distribution of the label is due to the orientation of teichoic acid and muramyl peptides toward the outside of the cell wall, above the plane of the glycan strands.

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Properties of the Cell Surfaces of Pathogenic Bacteria

Doyle

Sonnenfeld

1989

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Assessment of biological activity of synthetic fragments of transforming growth factor‐alpha

Darłak

Franklin

Woost

et al. 1988

J of Cellular Biochemistry

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Transforming growth factor-alpha (TGF-alpha) is a single chain polypeptide hormone of 50 amino acids that stimulates growth of some human cancer cells via an autocrine mechanism. The domain(s) of TGF-alpha that bind and activate its receptor have not been reported. Hydrophilicity plots of TGF-alpha indicate three discrete sequences that are theoretically exposed on the hormone's surface and thus potentially able to interact with the TGF-alpha receptor. Fragments of TGF-alpha encompassing these hydrophilic domains were prepared by using solid-phase peptide synthesis (SPPS) techniques and purified by use of high performance liquid chromotography (HPLC). Assessment of biological activity of the TGF-alpha fragments indicated that none of the fragments significantly inhibited binding of EGF to the receptor, stimulated DNA synthesis of cells, inhibited EGF-induced DNA synthesis of cells, stimulated growth of cells in soft agar, or induced phosphorylation of the receptor or p35 protein. These results indicate that the receptor binding domain of TGF-alpha is not totally encompassed by any of the separate fragments tested and probably is formed by multiple separate regions of TGF-alpha.

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Cellular location of origin and terminus of replication in Bacillus subtilis

Sonnenfeld¹,

Koch²,

Doyle³

1985

J Bacteriol

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The origin of replication of Bacillus subtilis 168 trp thy dna-i (temperature-sensitive initiation mutant) was labeled with [3H]thymidine. Analysis of labeled cells by autoradiography revealed that most of the radioactivity was associated with cell pole areas. To label the terminus, cells that had initiated were treated with chloramphenicol to inhibit cell growth and division but to allow continued DNA synthesis. These cells were then labeled with [3H]thymidine at a time when chromosome replication was nearly complete. The distribution of radioactivity was similar to that observed in origin-labeled cells. In contrast, exponentially growing cells that were labeled for a brief time at the permissive temperature showed a random distribution of radioactivity. These data indicate that the origin and terminus of replication are located at cell poles.

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E M Sonnenfeld

Discontinuity of charge on cell wall poles of Bacillus subtilis

Asymmetric distribution of charge on the cell wall of Bacillus subtilis

Properties of the Cell Surfaces of Pathogenic Bacteria

Assessment of biological activity of synthetic fragments of transforming growth factor‐alpha

Cellular location of origin and terminus of replication in Bacillus subtilis

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