[1]Wüethrich K. NMR of Proteins and Nucleic Acids[M].New York: Wiley Interscience,1986.
[2]
[2]Woodward C, Barbar E, Carulla N, et al. Experimental App roaches to Protein Folding Based on the Concept of a Slow Hydrogen Exchange Core[J]. J Mol Graph Model, 2001, 19: 94-101.
[3]
[3]Bai Y W, Sosnick T, Mayne R L, et al. Protein Folding Intermediates: Native-State Hydrogen Exchange[J]. Science, 1995, 269: 192- 197.
[4]
[4]Englander S W. Protein Folding Intermediates and Pathways Studies by Hy drogen Exchange[J]. Ann Rev Biophys Biomol Struc, 2000, 29: 213-238.
[5]
[5]Mierlo C P M, van and Steensma E. Protein folding and stability investiga ted by fluorescence, circular dichroism (CD), and nuclear magnetic resonance (NMR) spectroscopy: the flavodoxin story[J]. J Biotechn, 2000,79: 281-298.
[6]
[6]Bain A D. Blurring the distinction between slow and intermediate chemic al exchange[J]. Biochem Cell Biol, 1998, 76: 171-176.
[7]
[7]Patel D J, Surl A K, Jiang F, et al.Structure, Recognition and Adaptive Binding in RNA Aptamer Complexes[J]. {J Mol} Biol, 1997, 272: 645-664.
[8]
[8]Emerson M T, Grunwald E, Kromhout R A. Proton-Transfer Studies by Nucle ar Magnetic Resonance. I. Diffusion Control in the Reaction of Ammonium Ion i n Aqueous Acid[J]. J Chem Phys, 1960, 33: 547-555.
[9]
[9]Grunwald E, Karabatsos P J, Kromhout R A, et al. Proton-Tran sfer Studies by Nuclear Magnetic Resonance. II. Rate Constants and Mechanism for the Reaction CH3NH+3+OH2+NH2CH3 in Aqueous Acid[J]. J Chem Phys,1960, 33: 556-563.
[10]
[10]Emerson M T, Grunwald E, Kaplan M L, et al. Proton-Transfe r Studies by Nuclear Magnetic Resonance. III. The Mean Life of the Amine-WaterHydrogen Bond in Aqueous Solution[J]. J Am Chem Soc, 1960, 82: 6307-6314.
[11]
[11]Eigen M, Proton Transfer, Acid-Base Catalysis, and Enzymatic Hydrolysis. P art I: Elementary Processes[J]. Angew Chem Intl Ed, 1964, 3: 1-19.
[12]
and the references therein.
[13]
[12]Englander S W, Downer N W, Teitelbaum H. Hydrogen Exchange[J]. Ann- Rev Biochem, 1972, 41: 903-924. and the references therein.
[14]
[13]Perrin C L. Proton Exchange in Amides: Surprises from Simple Systems[J]. Acc Chem Res, 1989, 22: 268-275.
[15]
[14]Perrin C L, Engler R E. Secondary H/D Kinetic Isotope Effect for Dissociation of Aqueous Ammonium Ion[J]. J Phys Chem, 1991, 95: 8431-8433.
[16]
[15]Nonin S, Gueron M, Leroy J L. Terminal Base pairs of Oligodeoxynucl eotides: Imino Proton Exchange and Fraying[J]. Biochemistry, 1995, 34: 10652- 10659.
[17]
[16]Kettani A, Gueron M, Leroy J L. Amino Proton Exchange Processes in Mononucleosides[J]. J Am Chem Soc, 1997, 119: 1108-1115.
[18]
[17]Jeener J, Meier B H, Bachman P, et al. Investigation of exchan ge processes by two-dimensional NMR spectroscopy[J]. J Chem Phys, 1979, 71: 4 546.
[19]
[18]Wu D, Chen A, Johnson Jr C S. An Improved Diffusion-Ordered Spec tros copy Experiment Incorporating Bipolar-Gradient Pulses[J]. J Magn Reson, 1995,115A: 260.
[20]
[19]Mao X A, Kohlmann O. Diffusion-Broadened Velocity Spectra of Conv e ction in Variable-Temperature BP-LED Experiments[J]. J Mag Reson, 2001, 150: 35.
[21]
[20]Johnson Jr C S. Effects of Chemical Exchange in Diffusion-Ordered 2D NMR Spectra[J]. J Magn Reson, 1993, 102A: 214.
[22]
[21]Holz M, Mao X A, Seiferling D, et al. Experimental study of dyna mic isotope effects in molecular liquids: Detection of translation-rotation cou pling[J]. J Chem Phys, 1996, 104: 669.
[23]
[22]Bockris J O'M, Reddy A K N. in Modern Electrochemistry, Vol. 1.Ionics. 2nd ed[M].New York: Plenum Press, 1998. Chap 4.
[24]
[23]Perrin C L, Gipe R K. Rotation, Solvation, and Hydrogen Bonding of Aqueo us Ammonium Ion[J]. J Am Chem Soc, 1986, 108: 1089.
[25]
[24]Perrin C L, Gipe R K. Rotation and Solvation of Ammonium Ion[J]. Sci ence, 1987, 238: 1393.
[26]
[25]Atkins P W. in Physical Chemistry (second edition)[M]. London: Oxford University Press, 1982. 368.
