Related ArticlesMolecular insight into the electrostatic membrane surface potential by 14n/31p MAS NMR spectroscopy: nociceptin-lipid association.
J Am Chem Soc. 2005 May 11;127(18):6610-6
Authors: Lindström F, Williamson PT, Gröbner G
Exploiting naturally abundant (14)N and (31)P nuclei by high-resolution MAS NMR (magic angle spinning nuclear magnetic resonance) provides a molecular view of the electrostatic potential present at the surface of biological model membranes, the electrostatic charge distribution across the membrane interface, and changes that occur upon peptide association. The spectral resolution in (31)P and (14)N MAS NMR spectra is sufficient to probe directly the negatively charged phosphate and positively charged choline segment of the electrostatic P(-)-O-CH(2)-CH(2)-N(+)(CH(3))(3) headgroup dipole of zwitterionic DMPC (dimyristoylphosphatidylcholine) in mixed-lipid systems. The isotropic shifts report on the size of the potential existing at the phosphate and ammonium group within the lipid headgroup while the chemical shielding anisotropy ((31)P) and anisotropic quadrupolar interaction ((14)N) characterize changes in headgroup orientation in response to surface potential. The (31)P/(14)N isotropic chemical shifts for DMPC show opposing systematic changes in response to changing membrane potential, reflecting the size of the electrostatic potential at opposing ends of the P(-)-N(+) dipole. The orientational response of the DMPC lipid headgroup to electrostatic surface variations is visible in the anisotropic features of (14)N and (31)P NMR spectra. These features are analyzed in terms of a modified "molecular voltmeter" model, with changes in dynamic averaging reflecting the tilt of the C(beta)-N(+)(CH)(3) choline and PO(4)(-) segment. These properties have been exploited to characterize the changes in surface potential upon the binding of nociceptin to negatively charged membranes, a process assumed to proceed its agonistic binding to its opoid G-protein coupled receptor.
Membrane binding of an acyl-lactoferricin B antimicrobial peptide from solid-state NMR experiments and molecular dynamics simulations.
Membrane binding of an acyl-lactoferricin B antimicrobial peptide from solid-state NMR experiments and molecular dynamics simulations.
Membrane binding of an acyl-lactoferricin B antimicrobial peptide from solid-state NMR experiments and molecular dynamics simulations.
Biochim Biophys Acta. 2011 Aug;1808(8):2019-30
Authors: Romo TD, Bradney LA, Greathouse DV, Grossfield A
Abstract
One approach to the growing health problem of antibiotic resistant bacteria is the development of antimicrobial peptides (AMPs) as alternative treatments. The...
[NMR paper] The solution NMR structure of Antheraea polyphemus PBP provides new insight into pher
The solution NMR structure of Antheraea polyphemus PBP provides new insight into pheromone recognition by pheromone-binding proteins.
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J Mol Biol. 2004 Mar 19;337(2):443-51
Authors: Mohanty S, Zubkov S, Gronenborn AM
Pheromone-binding proteins (PBPs) located in the antennae of male moth species play an important role in olfaction. They are carrier proteins, believed to transport volatile...
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[NMR paper] Study of electrostatic potential surface distribution of wild-type plastocyanin Synec
Study of electrostatic potential surface distribution of wild-type plastocyanin Synechocystis solution structure determined by homonuclear NMR.
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Biopolymers. 2003 Oct;70(2):212-20
Authors: Monleón D, Celda B
Plastocyanin is a small (approximately 10 kDa), type I blue copper protein that works as an electron donor to photosystem I from cytochrome f in both chloroplast systems and in some...
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[NMR paper] Insight into the mechanism of serpin-proteinase inhibition from 2D [1H-15N] NMR studi
Insight into the mechanism of serpin-proteinase inhibition from 2D NMR studies of the 69 kDa alpha 1-proteinase inhibitor Pittsburgh-trypsin covalent complex.
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Biochemistry. 2001 May 29;40(21):6284-92
Authors: Peterson FC, Gettins PG
We have used -HSQC NMR to investigate the structural changes that occur in both serpin and proteinase in forming the kinetically trapped...
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[NMR paper] NMR solution structure of AlcR (1-60) provides insight in the unusual DNA binding pro
NMR solution structure of AlcR (1-60) provides insight in the unusual DNA binding properties of this zinc binuclear cluster protein.
Related Articles NMR solution structure of AlcR (1-60) provides insight in the unusual DNA binding properties of this zinc binuclear cluster protein.
J Mol Biol. 2000 Jan 28;295(4):729-36
Authors: Cerdan R, Cahuzac B, Félenbok B, Guittet E
The three-dimensional structure of the DNA-binding domain (residues 1-60) of the ethanol regulon transcription factor AlcR from Aspergillus nidulans has been solved by NMR....
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[NMR paper] Membrane protein structure: the contribution and potential of novel solid state NMR a
Membrane protein structure: the contribution and potential of novel solid state NMR approaches.
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Mol Membr Biol. 1995 Jul-Sep;12(3):233-46
Authors: Watts A, Ulrich AS, Middleton DA
Alternative methods for describing molecular detail for large integral membrane proteins are required in the absence of routine crystallographic approaches. Novel solid state NMR methods, devised for the study of large molecular assemblies, are now finding...
Molecular insight into the electrostatic membrane surface potential by 14n/31p MAS NM
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