Prediction of the structure of the complex between the 30s ribosomal subunit and colicin e3 via weighted-geometric docking

Efrat Ben-Zeev; Raz Zarivach; Menachem Shoham; Ada Yonath; Miriam Eisenstein

doi:10.1080/07391102.2003.10506883

Prediction of the structure of the complex between the 30s ribosomal subunit and colicin e3 via weighted-geometric docking

Efrat Ben-Zeev, Raz Zarivach, Menachem Shoham, Ada Yonath, Miriam Eisenstein

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Colicin E3 kills Escherichia coli cells by ribonucleolytic cleavage in the 16S rRNA. The cleavage occurs at the ribosomal decoding A-site between nucleotides A1493 and G1494. The breaking of this single phosphodiester bond results in a complete termination of protein biosynthesis leading to cell death. A model structure of the complex of the ribosomal subunit 30S and colicin E3 was constructed by means of a new weighted-geometric docking algorithm, in which interactions involving specified parts of the molecular surface can be up-weighted, allowing incorporation of experimental data in the docking search. Our model, together with available experimental data, predicts the role of the catalytic residues of colicin E3. In addition, it suggests that bound acidic immunity protein inhibits the enzymatic activity of colicin E3 by electrostatic repulsion of the negatively charged substrate.

Original language	English
Pages (from-to)	669-675
Number of pages	7
Journal	Journal of Biomolecular Structure and Dynamics
Volume	20
Issue number	5
DOIs	https://doi.org/10.1080/07391102.2003.10506883
State	Published - 1 Jan 2003
Externally published	Yes

ASJC Scopus subject areas

Structural Biology
Molecular Biology

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10.1080/07391102.2003.10506883

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abstract = "Colicin E3 kills Escherichia coli cells by ribonucleolytic cleavage in the 16S rRNA. The cleavage occurs at the ribosomal decoding A-site between nucleotides A1493 and G1494. The breaking of this single phosphodiester bond results in a complete termination of protein biosynthesis leading to cell death. A model structure of the complex of the ribosomal subunit 30S and colicin E3 was constructed by means of a new weighted-geometric docking algorithm, in which interactions involving specified parts of the molecular surface can be up-weighted, allowing incorporation of experimental data in the docking search. Our model, together with available experimental data, predicts the role of the catalytic residues of colicin E3. In addition, it suggests that bound acidic immunity protein inhibits the enzymatic activity of colicin E3 by electrostatic repulsion of the negatively charged substrate.",

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AU - Ben-Zeev, Efrat

AU - Zarivach, Raz

AU - Shoham, Menachem

AU - Yonath, Ada

AU - Eisenstein, Miriam

PY - 2003/1/1

Y1 - 2003/1/1

N2 - Colicin E3 kills Escherichia coli cells by ribonucleolytic cleavage in the 16S rRNA. The cleavage occurs at the ribosomal decoding A-site between nucleotides A1493 and G1494. The breaking of this single phosphodiester bond results in a complete termination of protein biosynthesis leading to cell death. A model structure of the complex of the ribosomal subunit 30S and colicin E3 was constructed by means of a new weighted-geometric docking algorithm, in which interactions involving specified parts of the molecular surface can be up-weighted, allowing incorporation of experimental data in the docking search. Our model, together with available experimental data, predicts the role of the catalytic residues of colicin E3. In addition, it suggests that bound acidic immunity protein inhibits the enzymatic activity of colicin E3 by electrostatic repulsion of the negatively charged substrate.

AB - Colicin E3 kills Escherichia coli cells by ribonucleolytic cleavage in the 16S rRNA. The cleavage occurs at the ribosomal decoding A-site between nucleotides A1493 and G1494. The breaking of this single phosphodiester bond results in a complete termination of protein biosynthesis leading to cell death. A model structure of the complex of the ribosomal subunit 30S and colicin E3 was constructed by means of a new weighted-geometric docking algorithm, in which interactions involving specified parts of the molecular surface can be up-weighted, allowing incorporation of experimental data in the docking search. Our model, together with available experimental data, predicts the role of the catalytic residues of colicin E3. In addition, it suggests that bound acidic immunity protein inhibits the enzymatic activity of colicin E3 by electrostatic repulsion of the negatively charged substrate.

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Prediction of the structure of the complex between the 30s ribosomal subunit and colicin e3 via weighted-geometric docking

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