Chemistry Reference
In-Depth Information
95. Luz Z, Meiboom S (1963) Nuclear magnetic resonance study of the protolysis of trimethy-
lammonium ion in aqueous solution - order of the reaction with respect to solvent. J Chem
Phys 39:366-370
96. Allerhand A, Gutowsky HS (1964) Spin-echo NMR studies of chemical exchange. 1. Some
general aspects. J Chem Phys 41:2115
97. Gutowsky HS, Vold RL, Wells EJ (1965) Theory of chemical exchange effects in magnetic
resonance. J Chem Phys 43:4107-4125
98. Carver JP, Richards RE (1972) General 2-site solution for chemical exchange produced
dependence of T2 upon Carr-Purcell pulse separation. J Magn Reson 6:89-105
99. Jen J (1978) Chemical exchange and NMR T2 relaxation - multisite case. J Magn Reson 30:
111-128
100. Bleich HE, Day AR, Freer RJ, Glasel JA (1979) NMR rotating frame relaxation studies of
intramolecular motion in peptides. Tyrosine ring motion in methionine-enkephalin. Biochem
Biophys Res Commun 87:1146-1153
101. Snyder GH, Rowan R III, Karplus S, Sykes BD (1979) NMR rotating frame relaxation studies
of intramolecular motion in peptides. Tyrosine ring motion in methionine-enkephalin.
Biochem Biophys Res Commun 87:1146-1153
102. Bloom M, Reeves LW, Wells EJ (1965) Spin echoes and chemical exchange. J Chem Phys
42:1615-1624
103. Davis DG, Perlman ME, London RE (1994) Direct measurements of the dissociation-rate
constant for inhibitor-enzyme complexes via the T-1-Rho and T-2 (Cpmg) methods. J Magn
Reson Ser B 104:266-275
104. Szyperski S, Luginb
uhl P, Otting G, G
untert P, W
uthrich K (1993) Protein dynamics studied
€
€
€
by rotating frame. J Biomol NMR 3:151-164
105. Orekhov VY, Pervushin KV, Arseniev AS (1994) Backbone dynamics of (1-71)bacterioopsin
studied by two-dimensional
1
H-15N NMR spectroscopy. Eur J Biochem 219:887-896
106. Akke M, Palmer AGr (1996) Monitoring macromolecular motions on microsecond to
millisecond time scales by R1
r
R1 constant relaxation time NMR spectroscopy. J Am
Chem Soc 118:911-912
107. Zinn-Justin S, Berthault P, Guenneugues M, Desvaus H (1997) Off-resonance rf fields in
heteronuclear NMR. Application to the study of slow motions. J Biomol NMR 10:363-372
108. Mulder FA, van Tilborg PJ, Kaptein R, Boelens R (1999) Microsecond time scale dynamics
in the RXR DNA-binding domain from a combination of spin-echo and off-resonance
rotating frame relaxation measurements. J Biomol NMR 13:275-288
109. Loria JP, Rance M, Palmer AG (1999) A relaxation-compensated Carr-Purcell-Meiboom-
Gill sequence for characterizing chemical exchange by NMR spectroscopy. J Am Chem Soc
121:2331-2332
110. Hansen DF, Vallurupalli P, Kay LE (2007) An improved (15)N relaxation dispersion
experiment for the measurement of millisecond time-scale dynamics in proteins. J Phys
Chem B 112(19):5898-5904
111. Gadian DG, Robinson FNH (1979) Radiofrequency losses in NMR experiments on electri-
cally conducting samples. J Magn Reson 34:449-455
112. Hoult DI, Lauterbur PC (1979) The sensitivity of the zeugmatographic experiment involving
human samples. J Magn Reson 34:425-433
113. Kelly AE, Ou HD, Withers R, Dotsch V (2002) Low-conductivity buffers for high-sensitivity
NMR measurements. J Am Chem Soc 124:12013-12019
114. Horiuchi T, Takahashi M, Kikuchi J, Yokoyama S, Maeda H (2005) Effect of dielectric
properties of solvents on the quality factor for a beyond 900 MHz cryogenic probe model.
J Magn Reson 174:34-42
115. Mulder FA, Skrynnikov NR, Hon B, Dahlquist FW, Kay LE (2001) Measurement of slow
(micros-ms) time scale dynamics in protein side chains by (15)N relaxation dispersion NMR
spectroscopy: application to Asn and Gln residues in a cavity mutant of T4 lysozyme. J Am
Chem Soc 123:967-975
