Montana V. Childress, David Millar, Todd M. Alam, Kevin A. Kreisel, Glenn P. A. Yap, Lev N. Zakharov, James A. Golen, Arnold L. Rheingold, and Linda H...
Nov 29, 2007 - are linked to the glycerol backbone via ester groups, whereas SMs ... spectra. This material is available free of charge via the Internet at.
Strong, Low-Barrier Hydrogen Bonds May Be Available to Enzymes. Jacob D. Graham .... Roger W. Yeh , Jo M. Grimley , Maurice M. Bursey. Biological Mass ...
The acidities of 2-aminopyridine and 4-aminopyridine were also measured for comparison. Compared with aniline as the parent compound, the acidity of.
Microhydration of Protonated Biomolecular Building Blocks: IR Spectra of Protonated Imidazole-Watern Complexes. Horia-Sorin Andrei , Nicola Solcà , Otto ...
FEATURE ARTICLE. Interactions between Polymers and Surfactants. P. G. de Gennes. CollPge de France, 75231 Paris Cedex 05, France (Received: April 5, ...
Feb 4, 2010 - 3)Fc2- 2εv. F s1. -. 2εQ(Fc1. + F s1) - 2εor(Fc1. - F s1). 2ηc2) 2η + V. 2+ (V4- 2V2- 2V3)Fc1. +. (V5. - V. 2. - V. 3)Fs1- 2εv. F c2. -. 2εQ(Fc2. + F.
May 18, 2010 - The paper describes immobilization methods of bacteriophage P22 and tailspike gp9 proteins isolated from P22 on atomic force microscope (AFM) probes. The paper also reports single molecule force spectroscopy (SMFS) using AFM of the imm
Feb 10, 2015 - â¢S Supporting Information. ABSTRACT: This study investigated the physicochemical interactions between a rhamnolipid biosurfactant and a bio ...
May 12, 1976 - (1) Nelson, J. D., Jr., Colwell, R. R., Microb. Ecol., 1, 191-218. (1975). (2) Sayier, G. S., Shon, M., Colwell, R. R., ibid., submitted for pub- lication.
Mar 22, 2012 - Department of Chemistry and Biochemistry, University of Mississippi, University, Mississippi 38677-1848 United States. â¢S Supporting ...
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J . Am. Chem. SOC.1990, 112, 5924-5946
spin-diffusion becomes meaningless as each pair of protons may exhibit either behavior or behavior between the extremes. The relative sign of a cross-peak will not necessarily accurately reflect the rate of global molecular reorientation. Extreme-narrowing (anti-phase with respect to the diagonal) cross-peaks observed in NOESY spectra of macromolecules should not be ignored or automatically assigned to artifacts. The simulations show that motional averaging about an angle in the range of 50' to 60' will produce this type of cross-peak. Indeed, confirmation of a negative cross-peak would yield a new structural constraint. A spatial constraint would define a range of angles for the orientation of motional averaging of a proton pair with respect to the major axis of global molecular reorientation. The calculations indicate that highly anisotropic molecular orientation will produce results that cannot be explained by calculations on the basis of the rigid isotropic assumptions. Oriented molecules in lipid bilayers and micelles or semiflexible polymers encountered in material sciences demand application
of the full spectral density functions. In extremely high magnetic fields ('H frequencies >500 MHz) molecules with large dipole moments are known to align along the direction of the static field. The results for highly anisotropic motion (7'
