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Samatey/2
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| - | This page is in | + | [[Interactive_3D_Complement_in_Proteopedia|Interactive 3D Complement in Proteopedia]]<br> |
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| + | <span style="border: 2px solid #a1a1a1; border-radius: 6px;padding:35px 50px 20px 30px;background: linear-gradient(#b0d0ff, #ffffff);"><span style="font-size:250%;">Scientific Reports</span> | ||
| + | <span style="padding: 0px 0px 0px 100px;color:#808080;font-size:120%;">an online, open access journal: [http://www.nature.com/srep nature.com/srep]</span></span> | ||
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| + | {{Clear}}<br> | ||
| + | <span style="font-size:160%;line-height:130%;"><b>Structural flexibility of the periplasmic protein, FlgA, regulates flagellar P-ring assembly in ''Salmonella enterica''.</b></span> | ||
| + | <br> | ||
| + | <span style="font-size:120%; line-height:160%;">Hideyuki '''[[User:Hideyuki_Matsunami|Matsunami]]''', Young-Ho '''Yoon''', Vladimir '''[[User:Vladimir_Meshcheryakov|Meshcheryakov]]''', Keiichi '''[http://www.fbs.osaka-u.ac.jp/eng/labo/09a.html Namba]''', and Fadel A. '''[[Fadel_A._Samatey_Group|Samatey]]'''. | ||
| + | <br> | ||
| + | ''Scientific Reports'' '''6''':27399, June 7, 2016: [http://www.nature.com/articles/srep27399 nature.com/articles/srep27399]. ([http://dx.doi.org/10.1038/srep27399 DOI: 10.1038/srep27399]) | ||
| + | </span> | ||
| + | |||
| + | <StructureSection load='' size='450' side='right' caption='' scene='User:Fadel_A._Samatey/Workbench/I3DC-3/Open/1'> | ||
| + | ==Molecular Tour== | ||
| + | This Tour is an ''[[Interactive 3D Complements|Interactive 3D Complement]]'' to the journal article<ref name="FlgA structure">Citation to the FlgA paper by Matsunami ''et al.'' will appear here after it appears in PubMed.gov. Until then, please use the links at the top of this page.</ref>, with which it assumes that you are familiar. | ||
| + | |||
| + | ===Structure (Open Form)=== | ||
| + | FlgA is a periplasmic chaperone required for the assembly of the peptidoglycan-associated flagellar P-ring, a molecular bushing that supports the rotation of the drive shaft rod for the bacterial flagellum. | ||
| + | The structure of FlgA of ''Salmonella enterica'' serovar Typhimurium (<!-- UMN798_1220?-->[http://www.uniprot.org/uniprot/P40131 UniProt P40131]) was determined to a [[resolution]] of 1.95 Å ([[3tee]], <scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Open/1'>restore initial scene</scene>). The structure shown represents the full-length mature protein, 1-198, with the N-terminal signal sequence removed. A 21-residue C-terminal His expression tag present in the crystallized protein was partially disordered and is not shown. Residues <scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Open/3'>44-47 (TGSA) are missing</scene> from the model due to disorder. | ||
| + | |||
| + | The single-chain structure has <scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Open/2'>three domains</scene> (D1, D2, D3). Domains 1 and 2 are <!--scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Open/5'--><scene name='47/478823/I3dc-3/1'>connected by a long beta strand (62-79)</scene> that extends into beta sheets in both domains, while domains 2 and 3 are connected by a short coil. | ||
| + | |||
| + | ===Comparison: Open vs. Closed Forms=== | ||
| + | A second crystal form revealed a <scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Closed/1'>closed conformation of FlgA</scene> ([[3vki]], 2.3 Å [[resolution]]). Although described as ''closed'', there is actually <scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Closed/2'>no contact between D3 and D1-D2</scene>. A [[morph]]<ref>Residues 1-198 from the open form [[3tee]] were morphed to residues 1-198 of chain A (lowest average [[temperature]]) of the closed form [[3vki]]. Residues 44-47 were deleted from the closed form since they were missing in the open form due to disorder. The two chains were globally structurally aligned using the "magic fit" (sequence-based structural alignment) tool in [http://spdbv.vital-it.ch/ Deepview]. A 24-frame [[Morphs#Linear_Interpolation|linear interpolation morph]] was performed by the [http://www.bioinformatics.org/pdbtools/morph2 morph server] kindly provided by [[User:Karsten Theis]].</ref> between the two conformations shows that, relative to the open conformation, <scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Morph/1'>D3 moves closer to D1-D2</scene>, largely by a bend of about 70<sup>o</sup> at Arg136 (black ball). The carboxy-terminus in D3 moves about 31 Å closer to D1<ref>In the closed form, the carboxy terminal alpha carbon is 15 Å from D1 (Met43), while in the open form, that distance is 46 Å.</ref>. | ||
| + | |||
| + | ===Non-motile Mutant=== | ||
| + | Salmonella strain SJW1446 is non-flagellated due to the deletion of residues Val140 through Gly143 (ΔVKAG) in the FlgA protein<ref>PMID: 8157595</ref>. This region is located in the linker connecting the D2 and D3 domains, as can be seen when <scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Open_mutant_sjw1446/1'>140-143 are highlighted as balls</scene>. | ||
| + | |||
| + | ===Disulfide-Locked Closed Form=== | ||
| + | In the closed form, <scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Locked/1'>Arg113 and Ser190</scene> were identified as a suitable location for a disulfide bond that would lock the chain in the closed form. Single mutations R113C or S190C retained motility. Wild type FlgA rescued motility in the mutant strain SJW1446, but double mutant R113C+S190C did not, unless the assay was run in a reducing medium with [http://en.wikipedia.org/wiki/Dithiothreitol DTT]. | ||
| + | |||
| + | ===Comparison with ''Thermotoga''=== | ||
| + | The structure of FlgA from ''Thermotoga maritima'' was reported in 2009 ([[3frn]], 2.0 Å). It includes domains D1, D2, and D3 each structurally similar to the corresponding domains in FlgA from ''Salmonella'', despite the sequence identity being 16%. However ''Thermotoga'' FlgA is longer, including an additional 69-residue domain D0 at the N-terminus. | ||
| + | *<scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Thermotoga_d2_alig_salmonella/2'>Show ''Thermotoga'' aligned at D2 with ''Salmonella''</scene>. | ||
| + | Buttons below will not work unless the green link above is clicked first! | ||
| + | <center><table cellpadding="2" border="0"><tr><td> | ||
| + | <span style="background-color:white;color:white;"><b><font color="#3030ff">N-</font><span style="background-color:#00e0ff;color:#00e0ff;">--</span><span style="background-color:#00ff80;color:#00ff80;">--</span><span style="background-color:#00ff00;color:#00ff00;">--</span><span style="background-color:#e0ff00;color:#e0ff00;">--</span><span style="background-color:#ff8000;color:#ff8000;">--</span><font color="#ff0000">-C</font></b></span> | ||
| + | </td><td> | ||
| + | | ||
| + | </td><td> | ||
| + | <center>Align</center> | ||
| + | </td><td> | ||
| + | Cα: RMSD | ||
| + | </td></tr><tr><td> | ||
| + | <jmol> | ||
| + | <jmolButton> | ||
| + | <script>select 1.2; trace 0.4; color group; select 1.1; trace 0.2; color black; echo "Black: Thermotoga"</script> | ||
| + | <text>Salmonella</text> | ||
| + | </jmolButton> | ||
| + | </jmol> | ||
| + | </td><td> | ||
| + | | ||
| + | </td><td> | ||
| + | <jmol> | ||
| + | <jmolButton> | ||
| + | <script>select 1.2 and (1-16);trace 0.5;delay 1;compare {1.1} {1.2} subset {*.ca and ((1.1 and 89-102), (1.2 and 2-15))} rotate translate 2</script> | ||
| + | <text>D1 Helices</text> | ||
| + | </jmolButton> | ||
| + | </jmol> | ||
| + | </td><td> | ||
| + | 13 Cα: 0.16 Å* | ||
| + | </td></tr><tr><td> | ||
| + | <jmol> | ||
| + | <jmolButton> | ||
| + | <script>select 1.1; trace 0.4; color group; select 1.2; trace 0.2; color black; echo "Black: Salmonella"</script> | ||
| + | <text>Thermotoga</text> | ||
| + | </jmolButton> | ||
| + | </jmol> | ||
| + | </td><td> | ||
| + | | ||
| + | </td><td> | ||
| + | <jmol> | ||
| + | <jmolButton> | ||
| + | <script>compare {1.1} {1.2} subset {*.ca and ((1.1 and 150-231), (1.2 and 66-147))} rotate translate 2</script> | ||
| + | <text>D2</text> | ||
| + | </jmolButton> | ||
| + | </jmol> | ||
| + | </td><td> | ||
| + | 82 Cα: 1.4 Å | ||
| + | </td></tr><tr><td> | ||
| + | | ||
| + | </td><td> | ||
| + | | ||
| + | </td><td> | ||
| + | <jmol> | ||
| + | <jmolButton> | ||
| + | <script>compare {1.1} {1.2} subset {*.ca and ((1.1 and (223-232, 244-280)), (1.2 and (139-148, 160-194)))} rotate translate 2</script> | ||
| + | <text>D3</text> | ||
| + | </jmolButton> | ||
| + | </jmol> | ||
| + | </td><td> | ||
| + | 45 Cα: 1.0 Å | ||
| + | </td></tr> | ||
| + | </table></center> | ||
| + | <center>* The alpha helices are at different angles to the beta sheets within D1 in the two structures. Aligning 70 Cα gives a poor alignment with RMSD 2.7 Å.</center> | ||
| + | |||
| + | ===Crystal Contacts=== | ||
| + | [[Crystal contacts]] are likely to play a role in determining the open and closed conformations in the crystals analyzed here. | ||
| + | |||
| + | The [[asymmetric unit]] of the closed form contains <scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Closed_asymmetric_unit/1'>four chains, interlocked and apparently stabilizing the closed form</scene>. | ||
| + | |||
| + | Another way is to show the crystal-contact atoms within 4.0 Å of one chain as <b>balls</b> decorating the surface of the central chain. <!--<scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Closed_xtlcon/1'>Crystal contacts for closed form</scene>--> | ||
| + | * <!--scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Closed_xtlcon_surface/1'--><scene name='47/478823/Closed_xtlcon_surface/2'>Closed form crystal contacts</scene> | ||
| + | * <!--scene name='User:Fadel_A._Samatey/Workbench/I3DC-3/Open_xtlcon_surface/1'--><scene name='47/478823/Open_xtlcon_surface/2'>Open form crystal contacts</scene> | ||
| + | ** Touch any atom with the mouse to identify it. | ||
| + | It can be seen that the crystal contacts are likely to stabilize the conformation in each case. Nevertheless, the two conformations demonstrate conformational flexibility, and the experiments with FlgA disulfide-locked into the closed conformation, compared with the same mutant in a reducing milieu, indicate that this conformational flexibility is crucial for function. | ||
| + | |||
| + | </StructureSection> | ||
| + | |||
| + | ==Notes and References== | ||
| + | <references /> | ||
Revision as of 13:51, 7 June 2016
Interactive 3D Complement in Proteopedia
Scientific Reports an online, open access journal: nature.com/srep
Structural flexibility of the periplasmic protein, FlgA, regulates flagellar P-ring assembly in Salmonella enterica.
Hideyuki Matsunami, Young-Ho Yoon, Vladimir Meshcheryakov, Keiichi Namba, and Fadel A. Samatey.
Scientific Reports 6:27399, June 7, 2016: nature.com/articles/srep27399. (DOI: 10.1038/srep27399)
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Notes and References
- ↑ Citation to the FlgA paper by Matsunami et al. will appear here after it appears in PubMed.gov. Until then, please use the links at the top of this page.
- ↑ Residues 1-198 from the open form 3tee were morphed to residues 1-198 of chain A (lowest average temperature) of the closed form 3vki. Residues 44-47 were deleted from the closed form since they were missing in the open form due to disorder. The two chains were globally structurally aligned using the "magic fit" (sequence-based structural alignment) tool in Deepview. A 24-frame linear interpolation morph was performed by the morph server kindly provided by User:Karsten Theis.
- ↑ In the closed form, the carboxy terminal alpha carbon is 15 Å from D1 (Met43), while in the open form, that distance is 46 Å.
- ↑ Ohnishi K, Ohto Y, Aizawa S, Macnab RM, Iino T. FlgD is a scaffolding protein needed for flagellar hook assembly in Salmonella typhimurium. J Bacteriol. 1994 Apr;176(8):2272-81. PMID:8157595
