Li Hong Zhang scite author profile

Li Hong Zhang

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Purification and Characterization of Colicin V from Escherichia coli Culture Supernatants

Fath¹,

Zhang²,

Rush³

et al. 1994

Biochemistry

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The peptide antibiotic, colicin V (ColV), has been purified and characterized from Escherichia coli culture supernatants by precipitation with trichloroacetic acid (TCA) and high-performance liquid chromatography (HPLC). Polyacrylamide gel electrophoresis (PAGE) and Western analysis identifies ColV as a polypeptide with an apparent molecular mass of 5.8 kDa. The protein identified remains biologically active after purification and SDS-PAGE. A mutant form of ColV, ColV-1, removes the carboxy-terminal 21 amino acids and replaces them with eight heterologous residues. The ColV-1 mutant is also secreted into the extracellular medium, demonstrating that the carboxy-terminal 21 amino acids are not required for secretion by the dedicated ColV export system, CvaAB/TolC. N-Terminal amino acid sequencing shows that the primary translation product of cvaC, the ColV structural gene, is processed to remove the N-terminal 15 amino acids. The cleavage site is preceded by the sequence Ser-Gly-Gly, making it a potential substrate for leader peptidase. The ColV leader sequence has many characteristics in common with the amino-terminal leader sequences of the lactococcins, lactacins, and pediocins from Gram-positive bacteria. Mass spectroscopy of purified ColV shows that it has a mass of 8741.0 amu, consistent with the mass of the unmodified 88 amino acid polypeptide. The purification scheme provides a rapid and simple way to obtain ColV for further biochemical analysis.

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Genetic analysis of the colicin V secretion pathway.

Zhang¹,

Fath²,

Mahanty³

et al. 1995

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Colicin V (ColV) is peptide antibiotic secreted by Escherichia coli through a dedicated exporter composed of three proteins, CvaA, CvaB, and TolC. ColV secretion is independent of the E. coli general secretory pathway (Sec) but requires an N-terminal export signal specific for the CvaAB/TolC exporter. ColV secretion was characterized using genetic and biochemical methods. When the ColV N-terminal extension is replaced with the OmpA signal sequence, the Sec system can localize ColV to the periplasm. Periplasmic ColV is lethal to cells lacking the ColV immunity protein, Cvi. Based on this result, a genetic assay was designed to monitor for the presence of periplasmic ColV during normal CvaAB/TolC mediated secretion. Results indicate that low levels of ColV may be present in the periplasm during secretion. Precursor and mature ColV were also characterized from the wild-type system and in various exporter mutant backgrounds using immunoprecipitation. ColV processing is rapid in wild-type cells, and CvaA and CvaB are critical for processing to occur. In contrast, processing occurs normally, albeit more slowly, in a TolC mutant.

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Li Hong Zhang

Purification and Characterization of Colicin V from Escherichia coli Culture Supernatants

Genetic analysis of the colicin V secretion pathway.

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