- Location of fluorotryptophan sequestered in an amphiphilic nanoparticle by rotational-echo double-resonance NMR.
Location of fluorotryptophan sequestered in an amphiphilic nanoparticle by rotational-echo double-resonance NMR.
Biophysical journal (1998-10-28)
A H Baugher, J M Goetz, L M McDowell, H Huang, K L Wooley, J Schaefer
PMID9788953
摘要
Rotational-echo double-resonance (REDOR) 13C NMR spectra (with 19F dephasing) have been obtained of 6-fluorotryptophan complexed by a polymeric amphiphilic nanosphere consisting of a polystyrene core covalently attached to a poly(acrylic acid)-polyacrylamide shell. The REDOR spectra show that aromatic carbons from the polystyrene core and oxygenated carbons in the poly(acrylic acid)-polyacrylamide shell are both proximate to the 19F of 6-fluorotryptophan. Molecular modeling restrained by distances inferred from the REDOR spectra suggests that all of the 6-fluorotryptophans are in the shell but within 10 A of the core-shell interface.