The Tryptophan/Histidine interaction in α-helices
暂无分享,去创建一个
Juan Fernández-Recio | Javier Sancho | Paz Sevilla | J. Fernández-Recio | J. Sancho | P. Sevilla | C. Civera | A. Vázquez | Ana Vázquez | Concepción Civera | A. Vazquez
[1] U. Hobohm,et al. Enlarged representative set of protein structures , 1994, Protein science : a publication of the Protein Society.
[2] L Serrano,et al. Elucidating the folding problem of helical peptides using empirical parameters. III. Temperature and pH dependence. , 1995, Journal of molecular biology.
[3] Luis Serrano,et al. Elucidating the folding problem of helical peptides using empirical parameters , 1994, Nature Structural Biology.
[4] B. Zimm,et al. Theory of the Phase Transition between Helix and Random Coil in Polypeptide Chains , 1959 .
[5] G Vriend,et al. A novel search method for protein sequence--structure relations using property profiles. , 1994, Protein engineering.
[6] Y H Chen,et al. Determination of the helix and beta form of proteins in aqueous solution by circular dichroism. , 1974, Biochemistry.
[7] Christopher A. Hunter,et al. The nature of .pi.-.pi. interactions , 1990 .
[8] R. L. Baldwin,et al. The energetics of ion-pair and hydrogen-bonding interactions in a helical peptide. , 1993, Biochemistry.
[9] S. Lifson,et al. On the Theory of Helix—Coil Transition in Polypeptides , 1961 .
[10] R. R. Ernst,et al. Two‐dimensional spectroscopy. Application to nuclear magnetic resonance , 1976 .
[11] L Serrano,et al. Side-chain interactions between sulfur-containing amino acids and phenylalanine in alpha-helices. , 1995, Biochemistry.
[12] P. V. von Hippel,et al. Calculation of protein extinction coefficients from amino acid sequence data. , 1989, Analytical biochemistry.
[13] E. Stellwagen,et al. Incorporation of pairwise interactions into the Lifson‐Roig model for helix prediction , 1995, Protein science : a publication of the Protein Society.
[14] F E Cohen,et al. Studies of synthetic helical peptides using circular dichroism and nuclear magnetic resonance. , 1990, Journal of molecular biology.
[15] A. Fersht,et al. Fluorescence spectrum of barnase: contributions of three tryptophan residues and a histidine-related pH dependence. , 1991, Biochemistry.
[16] K Wüthrich,et al. Efficient computation of three-dimensional protein structures in solution from nuclear magnetic resonance data using the program DIANA and the supporting programs CALIBA, HABAS and GLOMSA. , 1991, Journal of molecular biology.
[17] A. Doig,et al. Addition of side chain interactions to modified Lifson‐Roig helix‐coil theory: Application to energetics of Phenylalanine‐Methionine interactions , 1995, Protein science : a publication of the Protein Society.
[18] D. A. Dougherty,et al. Cation-π Interactions in Chemistry and Biology: A New View of Benzene, Phe, Tyr, and Trp , 1996, Science.
[19] F. Richards,et al. Relationship between nuclear magnetic resonance chemical shift and protein secondary structure. , 1991, Journal of molecular biology.
[20] A. Fersht,et al. Structural studies on peptides corresponding to mutants of the major alpha-helix of barnase. , 1994, Biochemistry.
[21] D. G. Davis,et al. Practical aspects of two-dimensional transverse NOE spectroscopy , 1985 .
[22] M. Rico,et al. 1H n.m.r. parameters of the N-terminal 19-residue S-peptide of ribonuclease in aqueous solution. , 2009, International journal of peptide and protein research.
[23] F. Bermejo,et al. Thermodynamic parameters for the helix–coil thermal transition of ribonuclease‐S‐peptide and derivatives from 1H‐nmr data , 1986, Biopolymers.
[24] A. Fersht,et al. Histidine residues at the N- and C-termini of alpha-helices: perturbed pKas and protein stability. , 1992, Biochemistry.
[25] R. L. Baldwin,et al. Helix-stabilizing interaction between tyrosine and leucine or valine when the spacing is i, i + 4. , 1994, Journal of molecular biology.
[26] J Moult,et al. An analysis of protein folding pathways. , 1991, Biochemistry.
[27] W. Kabsch,et al. Dictionary of protein secondary structure: Pattern recognition of hydrogen‐bonded and geometrical features , 1983, Biopolymers.
[28] M. Shinttzky,et al. Fluorometric Detection of Histidine‐Tryptophan Complexes in Peptides and Proteins , 1967 .
[29] R. L. Baldwin,et al. The (i,i+4) Phe-His Interaction Studied in an Alanine-based α-Helix , 1993 .
[30] A. Fersht,et al. Histidine-aromatic interactions in barnase. Elevation of histidine pKa and contribution to protein stability. , 1992, Journal of molecular biology.
[31] Richard R. Ernst,et al. Elucidation of cross relaxation in liquids by two-dimensional N.M.R. spectroscopy , 1980 .
[32] S. Wodak,et al. Extracting information on folding from the amino acid sequence: accurate predictions for protein regions with preferred conformation in the absence of tertiary interactions. , 1992, Biochemistry.
[33] R. L. Baldwin,et al. Helix propensities of the amino acids measured in alanine‐based peptides without helix‐stabilizing side‐chain interactions , 1994, Protein science : a publication of the Protein Society.
[34] G Vriend,et al. WHAT IF: a molecular modeling and drug design program. , 1990, Journal of molecular graphics.
[35] M. Rance. Improved techniques for homonuclear rotating-frame and isotropic mixing experiments , 1987 .
[36] R. L. Baldwin,et al. Effect of a single aspartate on helix stability at different positions in a neutral alanine‐based peptide , 1993, Protein science : a publication of the Protein Society.
[37] R. L. Baldwin,et al. Aromatic side-chain contribution to far-ultraviolet circular dichroism of helical peptides and its effect on measurement of helix propensities. , 1993, Biochemistry.
[38] Jen-Tsi Yang,et al. Two-Point Calibration of Circular Dichrometer with d-10-Camphorsulfonic Acid , 1977 .
[39] L Serrano,et al. Development of the multiple sequence approximation within the AGADIR model of alpha-helix formation: comparison with Zimm-Bragg and Lifson-Roig formalisms. , 1997, Biopolymers.