Direct assignment of 13 C solid-state NMR signals of TF o F 1 ATP synthase subunit c -ring in lipid membranes and its implication for the ring structure
Direct assignment of 13 C solid-state NMR signals of TF o F 1 ATP synthase subunit c -ring in lipid membranes and its implication for the ring structure
FoF1-ATP synthase catalyzes ATP hydrolysis/synthesis coupled with a transmembrane H+ translocation in membranes. The Fo c-subunit ring plays a major role in this reaction. We have developed an assignment strategy for solid-state 13C NMR (ssNMR) signals of the Fo c-subunit ring of thermophilic Bacillus PS3 (TFo c-ring, 72 residues), carrying one of the basic folds of membrane proteins. In a ssNMR spectrum of uniformly 13C-labeled sample, the signal overlap has been a major bottleneck because most amino acid residues are hydrophobic. To overcome signal overlapping, we developed a method designated as COmplementary Sequential assignment with MInimum Labeling Ensemble (COSMILE). According to this method, we generated three kinds of reverse-labeled samples to suppress signal overlapping. To assign the carbon signals sequentially, two-dimensional Cα(i+1)â??Câ?²Cα(i) correlation and dipolar assisted rotational resonance (DARR) experiments were performed under magic-angle sample spinning. On the basis of inter- and intra-residue 13Câ??13C chemical shift correlations, 97% of Cα, 97% of Cβ and 92% of Câ?² signals were assigned directly from the spectra. Secondary structure analysis predicted a hairpin fold of two helices with a central loop. The effects of saturated and unsaturated phosphatidylcholines on TFo c-ring structure were examined. The DARR spectra at 15Â*ms mixing time are essentially similar to each other in saturated and unsaturated lipid membranes, suggesting that TFo c-rings have similar structures under the different environments. The spectrum of the sample in saturated lipid membranes showed better resolution and structural stability in the gel state. The C-terminal helix was suggested to locate in the outer layer of the c-ring.
[NMR paper] Structure of Amorphous Selenium by 2D 77Se NMR Spectroscopy: An End to The Dilemma of Chain vs. Ring
Structure of Amorphous Selenium by 2D 77Se NMR Spectroscopy: An End to The Dilemma of Chain vs. Ring
Amorphous selenium, owing to its tremendous technological importance and perhaps to its chemical simplicity, has been studied for nearly a century and yet an unequivocal structural description of this material remains lacking in the literature to date. The primary controversy regarding the structure of a-Se relates to the relative fraction of Se atoms residing in infinite (Se) chains vs. in Se8 rings. Here we present the results of a two-dimensional solid-state 77Se nuclear magnetic...
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[NMR paper] Cardiolipin Interaction with Subunit c of ATP synthase: Solid-state NMR Characterization.
Cardiolipin Interaction with Subunit c of ATP synthase: Solid-state NMR Characterization.
Related Articles Cardiolipin Interaction with Subunit c of ATP synthase: Solid-state NMR Characterization.
Biochim Biophys Acta. 2014 Aug 25;
Authors: Laage S, Tao Y, McDermott AE
Abstract
The interaction of lipids with subunit c from F1Fo ATP synthase are studied by biophysical methods. Subunit c from both Escherichia coli and Streptococcus pneumoniae interact and copurify with cardiolipin. Solid state NMR data on oligomeric rings of Fo...
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08-30-2014 11:00 PM
[NMR paper] Active-site structure of the thermophilic foc-subunit ring in membranes elucidated by solid-state NMR.
Active-site structure of the thermophilic foc-subunit ring in membranes elucidated by solid-state NMR.
Active-site structure of the thermophilic foc-subunit ring in membranes elucidated by solid-state NMR.
Biophys J. 2014 Jan 21;106(2):390-8
Authors: Kang SJ, Todokoro Y, Yumen I, Shen B, Iwasaki I, Suzuki T, Miyagi A, Yoshida M, Fujiwara T, Akutsu H
Abstract
FoF1-ATP synthase uses the electrochemical potential across membranes or ATP hydrolysis to rotate the Foc-subunit ring. To elucidate the underlying mechanism, we carried out a...
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01-28-2014 11:53 AM
Structure analysis of membrane-reconstituted subunit c-ring of E. coli H+-ATP synthase by solid-state NMR.
Structure analysis of membrane-reconstituted subunit c-ring of E. coli H+-ATP synthase by solid-state NMR.
Structure analysis of membrane-reconstituted subunit c-ring of E. coli H+-ATP synthase by solid-state NMR.
J Biomol NMR. 2010 Sep;48(1):1-11
Authors: Todokoro Y, Kobayashi M, Sato T, Kawakami T, Yumen I, Aimoto S, Fujiwara T, Akutsu H
The subunit c-ring of H(+)-ATP synthase (F(o) c-ring) plays an essential role in the proton translocation across a membrane driven by the electrochemical potential. To understand its structure and function, we...
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12-18-2010 12:00 PM
[NMR paper] NMR assignment methods for the aromatic ring resonances of phenylalanine and tyrosine residues in proteins.
NMR assignment methods for the aromatic ring resonances of phenylalanine and tyrosine residues in proteins.
Related Articles NMR assignment methods for the aromatic ring resonances of phenylalanine and tyrosine residues in proteins.
J Am Chem Soc. 2005 Sep 14;127(36):12620-6
Authors: Torizawa T, Ono AM, Terauchi T, Kainosho M
The unambiguous assignment of the aromatic ring resonances in proteins has been severely hampered by the inherently poor sensitivities of the currently available methodologies developed for uniformly 13C/15N-labeled...
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[NMR paper] High precision NMR structure and function of the RING-H2 finger domain of EL5, a rice
High precision NMR structure and function of the RING-H2 finger domain of EL5, a rice protein whose expression is increased upon exposure to pathogen-derived oligosaccharides.
Related Articles High precision NMR structure and function of the RING-H2 finger domain of EL5, a rice protein whose expression is increased upon exposure to pathogen-derived oligosaccharides.
J Biol Chem. 2003 Apr 25;278(17):15341-8
Authors: Katoh S, Hong C, Tsunoda Y, Murata K, Takai R, Minami E, Yamazaki T, Katoh E
EL5, a RING-H2 finger protein, is rapidly induced by...
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[NMR paper] Structure determination of the cyclohexene ring of retinal in bacteriorhodopsin by so
Structure determination of the cyclohexene ring of retinal in bacteriorhodopsin by solid-state deuterium NMR.
Related Articles Structure determination of the cyclohexene ring of retinal in bacteriorhodopsin by solid-state deuterium NMR.
Biochemistry. 1992 Oct 27;31(42):10390-9
Authors: Ulrich AS, Heyn MP, Watts A
The orientation and conformation of retinal within bacteriorhodopsin of the purple membrane of Halobacterium halobium was established by solid-state deuterium NMR spectroscopy, through the determination of individual chemical bond...
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08-21-2010 11:45 PM
Structure analysis of membrane-reconstituted subunit c-ring of E. coli H+-ATP synthas
Abstract The subunit c-ring of H+-ATP synthase (Fo c-ring) plays an essential role in the proton translocation across a membrane driven by the electrochemical potential. To understand its structure and function, we have carried out solid-state NMR analysis under magic-angle sample spinning. The uniformly -labeled Fo c from E. coli (EFo c) was reconstituted into lipid membranes as oligomers. Its high resolution two- and three-dimensional spectra were obtained, and the 13C and 15N signals were assigned. The obtained chemical shifts suggested that EFo c takes on a hairpin-type helix-loop-helix...
Direct assignment of 13 C solid-state NMR signals of TF o F 1 ATP synthase subunit c -ring in lipid membranes and its implication for the ring structure
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