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2MMU

Structure of CrgA, a Cell Division Structural and Regulatory Protein from Mycobacterium tuberculosis, in Lipid Bilayers

Summary for 2MMU
Entry DOI10.2210/pdb2mmu/pdb
NMR InformationBMRB: 19867
DescriptorCell division protein CrgA (1 entity in total)
Functional Keywordscrga structure, membrane protein, hydrated lipid bilayer, cell cycle
Biological sourceMycobacterium tuberculosis
Total number of polymer chains1
Total formula weight11510.77
Authors
Das, N.,Dai, J.,Hung, I.,Rajagopalan, M.,Zhou, H.,Cross, T.A. (deposition date: 2014-03-18, release date: 2014-12-17, Last modification date: 2024-05-15)
Primary citationDas, N.,Dai, J.,Hung, I.,Rajagopalan, M.R.,Zhou, H.X.,Cross, T.A.
Structure of CrgA, a cell division structural and regulatory protein from Mycobacterium tuberculosis, in lipid bilayers.
Proc.Natl.Acad.Sci.USA, 112:E119-E126, 2015
Cited by
PubMed Abstract: The 93-residue transmembrane protein CrgA in Mycobacterium tuberculosis is a central component of the divisome, a large macromolecular machine responsible for cell division. Through interactions with multiple other components including FtsZ, FtsQ, FtsI (PBPB), PBPA, and CwsA, CrgA facilitates the recruitment of the proteins essential for peptidoglycan synthesis to the divisome and stabilizes the divisome. CrgA is predicted to have two transmembrane helices. Here, the structure of CrgA was determined in a liquid-crystalline lipid bilayer environment by solid-state NMR spectroscopy. Oriented-sample data yielded orientational restraints, whereas magic-angle spinning data yielded interhelical distance restraints. These data define a complete structure for the transmembrane domain and provide rich information on the conformational ensembles of the partially disordered N-terminal region and interhelical loop. The structure of the transmembrane domain was refined using restrained molecular dynamics simulations in an all-atom representation of the same lipid bilayer environment as in the NMR samples. The two transmembrane helices form a left-handed packing arrangement with a crossing angle of 24° at the conserved Gly39 residue. This helix pair exposes other conserved glycine and alanine residues to the fatty acyl environment, which are potential sites for binding CrgA's partners such as CwsA and FtsQ. This approach combining oriented-sample and magic-angle spinning NMR spectroscopy in native-like lipid bilayers with restrained molecular dynamics simulations represents a powerful tool for structural characterization of not only isolated membrane proteins, but their complexes, such as those that form macromolecular machines.
PubMed: 25548160
DOI: 10.1073/pnas.1415908112
PDB entries with the same primary citation
Experimental method
SOLID-STATE NMR
Structure validation

227933

数据于2024-11-27公开中

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