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Literature DB >> 21231967

Determination of the structure of the MinD-ATP complex reveals the orientation of MinD on the membrane and the relative location of the binding sites for MinE and MinC.

Wei Wu¹, Kyung-Tae Park, Todd Holyoak, Joe Lutkenhaus.

Abstract

The three Min proteins spatially regulate Z ring positioning in Escherichia coli and are dynamically associated with the membrane. MinD binds to vesicles in the presence of ATP and can recruit MinC or MinE. Biochemical and genetic evidence indicate the binding sites for these two proteins on MinD overlap. Here we solved the structure of a hydrolytic-deficient mutant of MinD truncated for the C-terminal amphipathic helix involved in binding to the membrane. The structure solved in the presence of ATP is a dimer and reveals the face of MinD abutting the membrane. Using a combination of random and extensive site-directed mutagenesis additional residues important for MinE and MinC binding were identified. The location of these residues on the MinD structure confirms that the binding sites overlap and reveals that the binding sites are at the dimer interface and exposed to the cytosol. The location of the binding sites at the dimer interface offers a simple explanation for the ATP dependence of MinC and MinE binding to MinD.

Entities: Chemical Disease Gene Mutation Species

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Year: 2011 PMID： 21231967 PMCID： PMC3077903 DOI： 10.1111/j.1365-2958.2010.07536.x

Source DB: PubMed Journal: Mol Microbiol ISSN： 0950-382X Impact factor: 3.501

62 in total

1. MinDE-dependent pole-to-pole oscillation of division inhibitor MinC in Escherichia coli.

Authors: D M Raskin; P A de Boer
Journal: J Bacteriol Date: 1999-10 Impact factor: 3.490

2. Recruitment of MinC, an inhibitor of Z-ring formation, to the membrane in Escherichia coli: role of MinD and MinE.

Authors: Zonglin Hu; Cristian Saez; Joe Lutkenhaus
Journal: J Bacteriol Date: 2003-01 Impact factor: 3.490

3. Mapping the MinE site involved in interaction with the MinD division site selection protein of Escherichia coli.

Authors: Lu-Yan Ma; Glenn King; Lawrence Rothfield
Journal: J Bacteriol Date: 2003-08 Impact factor: 3.490

4. MinC mutants deficient in MinD- and DicB-mediated cell division inhibition due to loss of interaction with MinD, DicB, or a septal component.

Authors: Huaijin Zhou; Joe Lutkenhaus
Journal: J Bacteriol Date: 2005-04 Impact factor: 3.490

Review 5. MinD and role of the deviant Walker A motif, dimerization and membrane binding in oscillation.

Authors: Joe Lutkenhaus; M Sundaramoorthy
Journal: Mol Microbiol Date: 2003-04 Impact factor: 3.501

6. Structure of ADP x AIF4(-)-stabilized nitrogenase complex and its implications for signal transduction.

Authors: H Schindelin; C Kisker; J L Schlessman; J B Howard; D C Rees
Journal: Nature Date: 1997-05-22 Impact factor: 49.962

7. SlmA, a nucleoid-associated, FtsZ binding protein required for blocking septal ring assembly over Chromosomes in E. coli.

Authors: Thomas G Bernhardt; Piet A J de Boer
Journal: Mol Cell Date: 2005-05-27 Impact factor: 17.970

8. Automated MAD and MIR structure solution.

Authors: T C Terwilliger; J Berendzen
Journal: Acta Crystallogr D Biol Crystallogr Date: 1999-04

9. Crystal structure of Helicobacter pylori MinE, a cell division topological specificity factor.

Authors: Gil Bu Kang; Hye-Eun Song; Mun-Kyoung Kim; Hyung-Seop Youn; Jung-Gyu Lee; June Yop An; Jang-Soo Chun; Hyesung Jeon; Soo Hyun Eom
Journal: Mol Microbiol Date: 2010-04-14 Impact factor: 3.501

10. Structure determination of the 1918 H1N1 neuraminidase from a crystal with lattice-translocation defects.

Authors: Xueyong Zhu; Xiaojin Xu; Ian A Wilson
Journal: Acta Crystallogr D Biol Crystallogr Date: 2008-07-17

45 in total

Review 1. Evolution and tinkering: what do a protein kinase, a transcriptional regulator and chromosome segregation/cell division proteins have in common?

Authors: Abderahmane Derouiche; Lei Shi; Aida Kalantari; Ivan Mijakovic
Journal: Curr Genet Date: 2015-08-19 Impact factor: 3.886

2. Membrane-bound MinDE complex acts as a toggle switch that drives Min oscillation coupled to cytoplasmic depletion of MinD.

Authors: Anthony G Vecchiarelli; Min Li; Michiyo Mizuuchi; Ling Chin Hwang; Yeonee Seol; Keir C Neuman; Kiyoshi Mizuuchi
Journal: Proc Natl Acad Sci U S A Date: 2016-02-16 Impact factor: 11.205

3. SIMIBI twins in protein targeting and localization.

Authors: Gert Bange; Irmgard Sinning
Journal: Nat Struct Mol Biol Date: 2013-07 Impact factor: 15.369

4. MinC protein shortens FtsZ protofilaments by preferentially interacting with GDP-bound subunits.

Authors: Víctor M Hernández-Rocamora; Concepción García-Montañés; Belén Reija; Begoña Monterroso; William Margolin; Carlos Alfonso; Silvia Zorrilla; Germán Rivas
Journal: J Biol Chem Date: 2013-07-12 Impact factor: 5.157

5. The Min oscillator uses MinD-dependent conformational changes in MinE to spatially regulate cytokinesis.

Authors: Kyung-Tae Park; Wei Wu; Kevin P Battaile; Scott Lovell; Todd Holyoak; Joe Lutkenhaus
Journal: Cell Date: 2011-08-05 Impact factor: 41.582

Review 6. Mechanistic insights of the Min oscillator via cell-free reconstitution and imaging.

Authors: Kiyoshi Mizuuchi; Anthony G Vecchiarelli
Journal: Phys Biol Date: 2018-03-01 Impact factor: 2.583

7. MinD-like ATPase FlhG effects location and number of bacterial flagella during C-ring assembly.

Authors: Jan S Schuhmacher; Florian Rossmann; Felix Dempwolff; Carina Knauer; Florian Altegoer; Wieland Steinchen; Anja K Dörrich; Andreas Klingl; Milena Stephan; Uwe Linne; Kai M Thormann; Gert Bange
Journal: Proc Natl Acad Sci U S A Date: 2015-03-02 Impact factor: 11.205