Chemistry Reference
In-Depth Information
226. Peterson RW, Lefebvre BG, Wand AJ (2005) High-resolution NMR studies of encapsulated
proteins in liquid ethane. J Am Chem Soc 127:10176-10177
227. Van Horn WD, Ogilvie ME, Flynn PF (2008) Use of reverse micelles in membrane protein
structural biology. J Biomol NMR 40:203-211
228. Kielec JM, Valentine KG, Babu CR, Wand AJ (2009) Reverse micelles in integral membrane
protein structural biology by solution NMR spectroscopy. Structure 17:345-351
229. Binks BP, Chatenay D, Nicot C, Urbach W, Waks M (1989) Structural parameters of the
myelin transmembrane proteolipid in reverse micelles. Biophys J 55:949-955
230. Flynn PF, Mattiello DL, Hill HDW, Wand AJ (2000) Optimal use of cryogenic probe
technology in NMR studies of proteins. J Am Chem Soc 122:4823-4824
231. Kruger J, Fischer WB (2010) Structural implications of mutations assessed by molecular
dynamics: Vpu(1-32) from HIV-1. Eur Biophys J 39:1069-1077
232. Stanczak P, Horst R, Serrano P, Wuthrich K (2009) NMR characterization of membrane
protein-detergent micelle solutions by use of microcoil equipment. J Am Chem Soc
131:18450-18456
233. Lee D, Hilty C, Wider G, Wuthrich K (2006) Effective rotational correlation times of proteins
from NMR relaxation interference. J Magn Reson 178:72-76
234. Maslennikov I, Kefala G, Johnson C, Riek R, Choe S, Kwiatkowski W (2007) NMR
spectroscopic and analytical ultracentrifuge analysis of membrane protein detergent
complexes. BMC Struct Biol 7:74
235. Kovacs H, Moskau D, Spraul M (2005) Cryogenically cooled probes - a leap in NMR
technology. Prog Nucl Magn Reson Spectrosc 46:131-155
236. McDonnell PA, Shon K, Kim Y, Opella SJ (1993) fd coat protein-structure in membrane
environments. J Mol Biol 233:447-463
237. Olson DL, Peck TL, Webb AG, Magin RL, Sweedler JV (1995) High-resolution microcoil
1
H-NMR for mass-limited, nanoliter-volume samples. Science 270:1967-1970
238. Peck TL, Magin RL, Laterbur PC (1995) Design and analysis of microcoils for NMR
spectroscopy. J Magn Reson B 108:114-124
239. Webb AG, Grant SC (1996) Signal-to-noise and magnetic susceptibility trade-offs in sole-
noidal microcoils for NMR. J Magn Reson B 113:83-87
240. Li Y, Logan TT, Edison AS, Webb A (2003) Design of small volume HX and triple-
resonance probes for improved limits of detection in protein NMR experiments. J Magn
Reson 164:128-135
241. Peti W, Norcross J, Eldridge G, O'Neil-Johnson M (2004) Biomolecular NMR using a
microcoil NMR probe - new technique for the chemical shift assignment of aromatic side
chains in proteins. J Am Chem Soc 126:5873-5878
242. Aramini JM, Rossi P, Anklin C, Xiao R, Montelione GT (2007) Microgram-scale protein
structure determination by NMR. Nat Methods 4:491-493
243. Wu Y, Shih SC, Goto NK (2007) Probing the structure of the Ff bacteriophage major
coat protein transmembrane helix dimer by solution NMR. Biochim Biophys Acta 1768:
3206-3215
244. King G, Oates J, Patel D, van den Berg HA, Dixon AM (2011) Towards a structural
understanding of the smallest known oncoprotein: investigation of the bovine papillomavirus
E5 protein using solution-state NMR. Biochim Biophys Acta 1808:1493-1501
245. Fleming KG (2002) Standardizing the free energy change of transmembrane helix-helix
interactions. J Mol Biol 323:563-571
246. Strop P, Brunger AT (2005) Refractive index-based determination of detergent concentration
and its application to the study of membrane proteins. Protein Sci 14:2207-2211
247. Oxenoid K, Kim HJ, Jacob J, S
onnichsen FD, Sanders CR (2004) NMR assignments for a
helical 40 kDa membrane protein. J Am Chem Soc 126:5048-5049
248. Goto NK, Kay LE (2000) New developments in isotope labeling strategies for protein
solution NMR spectroscopy. Curr Opin Struct Biol 10:585-592
€
