The dynamic structure of EF-G studied by fusidic acid resistance and internal revertants

U Johanson; A Aevarsson; A Liljas; D Hughes

doi:10.1006/jmbi.1996.0259

The dynamic structure of EF-G studied by fusidic acid resistance and internal revertants

U Johanson, A Aevarsson, A Liljas, D Hughes

Biochemistry and Structural Biology

Uppsala University

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

Abstract

We have previously identified 20 different fusidic acid-resistant alleles of fusA, encoding mutant forms of the ribosomal translocase EF-G. One of these, P413L, is used here as the starting point in selections for internal revertants, identifying 20 different pseudo-wild-type forms of EF-G. We have also identified two alleles of fusA previously isolated as suppressors of 4.5 S RNA deficiency. All of these mutants are analysed in terms of their effects on the structural dynamics of EF-G. Most mutation conferring fusidic acid-resistance interfere with conformational changes of EF-G, but some may be located at a possible fusidic acid binding site. Revertants of the P413L mutations restore the function of EF-G with or without affecting the level of resistance to fusidic acid. The revertant mutations probably restore the balance between the GDP and GTP conformations of EF-G off the ribosome, and most of them are located close to the interface between the G domain and domain II. The procedure for the isolation of pseudo-wild-type forms of EF-G can be used to direct evolution progressively away from the wild-type while still maintaining the essential functions of EF-G.

Original language	English
Pages (from-to)	420-32
Number of pages	13
Journal	Journal of Molecular Biology
Volume	258
Issue number	3
DOIs	https://doi.org/10.1006/jmbi.1996.0259
Publication status	Published - 1996 May 10

Subject classification (UKÄ)

Biological Sciences
Microbiology

Free keywords

Anti-Bacterial Agents
Binding Sites
DNA Mutational Analysis
Directed Molecular Evolution
Drug Resistance, Microbial
Escherichia coli
Fusidic Acid
Models, Molecular
Mutation
Peptide Elongation Factor G
Peptide Elongation Factors
Protein Structure, Tertiary
Protein Synthesis Inhibitors
RNA, Ribosomal
Salmonella typhimurium
Spectinomycin
Suppression, Genetic
Thermus thermophilus
Journal Article
Research Support, Non-U.S. Gov't

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10.1006/jmbi.1996.0259

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title = "The dynamic structure of EF-G studied by fusidic acid resistance and internal revertants",

abstract = "We have previously identified 20 different fusidic acid-resistant alleles of fusA, encoding mutant forms of the ribosomal translocase EF-G. One of these, P413L, is used here as the starting point in selections for internal revertants, identifying 20 different pseudo-wild-type forms of EF-G. We have also identified two alleles of fusA previously isolated as suppressors of 4.5 S RNA deficiency. All of these mutants are analysed in terms of their effects on the structural dynamics of EF-G. Most mutation conferring fusidic acid-resistance interfere with conformational changes of EF-G, but some may be located at a possible fusidic acid binding site. Revertants of the P413L mutations restore the function of EF-G with or without affecting the level of resistance to fusidic acid. The revertant mutations probably restore the balance between the GDP and GTP conformations of EF-G off the ribosome, and most of them are located close to the interface between the G domain and domain II. The procedure for the isolation of pseudo-wild-type forms of EF-G can be used to direct evolution progressively away from the wild-type while still maintaining the essential functions of EF-G.",

keywords = "Anti-Bacterial Agents, Binding Sites, DNA Mutational Analysis, Directed Molecular Evolution, Drug Resistance, Microbial, Escherichia coli, Fusidic Acid, Models, Molecular, Mutation, Peptide Elongation Factor G, Peptide Elongation Factors, Protein Structure, Tertiary, Protein Synthesis Inhibitors, RNA, Ribosomal, Salmonella typhimurium, Spectinomycin, Suppression, Genetic, Thermus thermophilus, Journal Article, Research Support, Non-U.S. Gov't",

author = "U Johanson and A Aevarsson and A Liljas and D Hughes",

year = "1996",

month = may,

day = "10",

doi = "10.1006/jmbi.1996.0259",

language = "English",

volume = "258",

pages = "420--32",

journal = "Journal of Molecular Biology",

issn = "0022-2836",

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T1 - The dynamic structure of EF-G studied by fusidic acid resistance and internal revertants

AU - Johanson, U

AU - Aevarsson, A

AU - Liljas, A

AU - Hughes, D

PY - 1996/5/10

Y1 - 1996/5/10

N2 - We have previously identified 20 different fusidic acid-resistant alleles of fusA, encoding mutant forms of the ribosomal translocase EF-G. One of these, P413L, is used here as the starting point in selections for internal revertants, identifying 20 different pseudo-wild-type forms of EF-G. We have also identified two alleles of fusA previously isolated as suppressors of 4.5 S RNA deficiency. All of these mutants are analysed in terms of their effects on the structural dynamics of EF-G. Most mutation conferring fusidic acid-resistance interfere with conformational changes of EF-G, but some may be located at a possible fusidic acid binding site. Revertants of the P413L mutations restore the function of EF-G with or without affecting the level of resistance to fusidic acid. The revertant mutations probably restore the balance between the GDP and GTP conformations of EF-G off the ribosome, and most of them are located close to the interface between the G domain and domain II. The procedure for the isolation of pseudo-wild-type forms of EF-G can be used to direct evolution progressively away from the wild-type while still maintaining the essential functions of EF-G.

AB - We have previously identified 20 different fusidic acid-resistant alleles of fusA, encoding mutant forms of the ribosomal translocase EF-G. One of these, P413L, is used here as the starting point in selections for internal revertants, identifying 20 different pseudo-wild-type forms of EF-G. We have also identified two alleles of fusA previously isolated as suppressors of 4.5 S RNA deficiency. All of these mutants are analysed in terms of their effects on the structural dynamics of EF-G. Most mutation conferring fusidic acid-resistance interfere with conformational changes of EF-G, but some may be located at a possible fusidic acid binding site. Revertants of the P413L mutations restore the function of EF-G with or without affecting the level of resistance to fusidic acid. The revertant mutations probably restore the balance between the GDP and GTP conformations of EF-G off the ribosome, and most of them are located close to the interface between the G domain and domain II. The procedure for the isolation of pseudo-wild-type forms of EF-G can be used to direct evolution progressively away from the wild-type while still maintaining the essential functions of EF-G.

KW - Anti-Bacterial Agents

KW - Binding Sites

KW - DNA Mutational Analysis

KW - Directed Molecular Evolution

KW - Drug Resistance, Microbial

KW - Escherichia coli

KW - Fusidic Acid

KW - Models, Molecular

KW - Mutation

KW - Peptide Elongation Factor G

KW - Peptide Elongation Factors

KW - Protein Structure, Tertiary

KW - Protein Synthesis Inhibitors

KW - RNA, Ribosomal

KW - Salmonella typhimurium

KW - Spectinomycin

KW - Suppression, Genetic

KW - Thermus thermophilus

KW - Journal Article

KW - Research Support, Non-U.S. Gov't

U2 - 10.1006/jmbi.1996.0259

DO - 10.1006/jmbi.1996.0259

M3 - Article

C2 - 8642600

SN - 0022-2836

VL - 258

SP - 420

EP - 432

JO - Journal of Molecular Biology

JF - Journal of Molecular Biology

IS - 3

ER -

The dynamic structure of EF-G studied by fusidic acid resistance and internal revertants

Abstract

Subject classification (UKÄ)

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