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Solution Structure of C-Terminal Escherichia coli Translation Initiation Factor IF2 by Small-Angle X-ray Scattering

Initiation of protein synthesis in bacteria involves the combined action of three translation initiation factors, including translation initiation factor IF2. Structural knowledge of this bacterial protein is scarce. A fragment consisting of the four C-terminal domains of IF2 from Escherichia coli w...

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Published in:	Biochemistry (Easton) 2008-05, Vol.47 (20), p.5590-5598
Main Authors:	Rasmussen, Louise Carøe Vohlander, Oliveira, Cristiano Luis Pinto, Jensen, Janni Mosgaard, Pedersen, Jan Skov, Sperling-Petersen, Hans Uffe, Mortensen, Kim Kusk
Format:	Article
Language:	English
Subjects:	Amino Acid Sequence Computer Simulation Crystallography, X-Ray Escherichia coli - chemistry Escherichia coli - genetics Escherichia coli - metabolism Models, Molecular Molecular Sequence Data Nuclear Magnetic Resonance, Biomolecular Prokaryotic Initiation Factor-2 - chemistry Prokaryotic Initiation Factor-2 - genetics Prokaryotic Initiation Factor-2 - metabolism Protein Structure, Tertiary Sequence Alignment Sequence Homology, Amino Acid Structural Homology, Protein
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cited_by	cdi_FETCH-LOGICAL-a351t-e9e67838fcfd50e34216ab2da5f4a10d94f5a3fdada8a99718aa46ccf59eada63
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creator	Rasmussen, Louise Carøe Vohlander Oliveira, Cristiano Luis Pinto Jensen, Janni Mosgaard Pedersen, Jan Skov Sperling-Petersen, Hans Uffe Mortensen, Kim Kusk
description	Initiation of protein synthesis in bacteria involves the combined action of three translation initiation factors, including translation initiation factor IF2. Structural knowledge of this bacterial protein is scarce. A fragment consisting of the four C-terminal domains of IF2 from Escherichia coli was expressed, purified, and characterized by small-angle X-ray scattering (SAXS), and from the SAXS data, a radius of gyration of 43 ± 1 Å and a maximum dimension of ∼145 Å were obtained for the molecule. Furthermore, the SAXS data revealed that E. coli IF2 in solution adopts a structure that is significantly different from the crystal structure of orthologous aIF5B from Methanobacterium thermoautotrophicum. This crystal structure constitutes the only atomic resolution structural knowledge of the full-length factor. Computer programs were applied to the SAXS data to provide an initial structural model for IF2 in solution. The low-resolution nature of SAXS prevents the elucidation of a complete and detailed structure, but the resulting model for C-terminal E. coli IF2 indicates important structural differences between the aIF5B crystal structure and IF2 in solution. The chalice-like structure with a highly exposed α-helical stretch observed for the aIF5B crystal structure was not found in the structural model of IF2 in solution, in which domain VI-2 is moved closer to the rest of the protein.
doi_str_mv	10.1021/bi8000598
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Structural knowledge of this bacterial protein is scarce. A fragment consisting of the four C-terminal domains of IF2 from Escherichia coli was expressed, purified, and characterized by small-angle X-ray scattering (SAXS), and from the SAXS data, a radius of gyration of 43 ± 1 Å and a maximum dimension of ∼145 Å were obtained for the molecule. Furthermore, the SAXS data revealed that E. coli IF2 in solution adopts a structure that is significantly different from the crystal structure of orthologous aIF5B from Methanobacterium thermoautotrophicum. This crystal structure constitutes the only atomic resolution structural knowledge of the full-length factor. Computer programs were applied to the SAXS data to provide an initial structural model for IF2 in solution. The low-resolution nature of SAXS prevents the elucidation of a complete and detailed structure, but the resulting model for C-terminal E. coli IF2 indicates important structural differences between the aIF5B crystal structure and IF2 in solution. 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Structural knowledge of this bacterial protein is scarce. A fragment consisting of the four C-terminal domains of IF2 from Escherichia coli was expressed, purified, and characterized by small-angle X-ray scattering (SAXS), and from the SAXS data, a radius of gyration of 43 ± 1 Å and a maximum dimension of ∼145 Å were obtained for the molecule. Furthermore, the SAXS data revealed that E. coli IF2 in solution adopts a structure that is significantly different from the crystal structure of orthologous aIF5B from Methanobacterium thermoautotrophicum. This crystal structure constitutes the only atomic resolution structural knowledge of the full-length factor. Computer programs were applied to the SAXS data to provide an initial structural model for IF2 in solution. The low-resolution nature of SAXS prevents the elucidation of a complete and detailed structure, but the resulting model for C-terminal E. coli IF2 indicates important structural differences between the aIF5B crystal structure and IF2 in solution. 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subjects	Amino Acid Sequence Computer Simulation Crystallography, X-Ray Escherichia coli - chemistry Escherichia coli - genetics Escherichia coli - metabolism Models, Molecular Molecular Sequence Data Nuclear Magnetic Resonance, Biomolecular Prokaryotic Initiation Factor-2 - chemistry Prokaryotic Initiation Factor-2 - genetics Prokaryotic Initiation Factor-2 - metabolism Protein Structure, Tertiary Sequence Alignment Sequence Homology, Amino Acid Structural Homology, Protein
title	Solution Structure of C-Terminal Escherichia coli Translation Initiation Factor IF2 by Small-Angle X-ray Scattering
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