Helix signals in proteins.
暂无分享,去创建一个
[1] M. Perutz,et al. New X-Ray Evidence on the Configuration of Polypeptide Chains: Polypeptide Chains in Poly-γ-benzyl-L-glutamate, Keratin and Hæmoglobin , 1951, Nature.
[2] L. Pauling,et al. The structure of proteins; two hydrogen-bonded helical configurations of the polypeptide chain. , 1951, Proceedings of the National Academy of Sciences of the United States of America.
[3] E. Blout,et al. REVERSIBLE CONFORMATIONAL CHANGES OF MYOGLOBIN AND APOMYOGLOBIN. , 1965, The Journal of biological chemistry.
[4] G. N. Ramachandran,et al. Conformation of polypeptides and proteins. , 1968, Advances in protein chemistry.
[5] B. Lee,et al. The interpretation of protein structures: estimation of static accessibility. , 1971, Journal of molecular biology.
[6] P. Y. Chou,et al. Conformational parameters for amino acids in helical, beta-sheet, and random coil regions calculated from proteins. , 1974, Biochemistry.
[7] M. Goodman,et al. Mechanisms of protein and polypeptide helix initiation , 1975 .
[8] A. Bellocq,et al. [Conformation analysis of L-pyroglutamic acid N-methylamide by depolarized Rayleigh diffusion, vibration spectroscopy, and conformational energy calculation]. , 1975, Biopolymers.
[9] C. Chothia. The nature of the accessible and buried surfaces in proteins. , 1976, Journal of molecular biology.
[10] C. Chothia,et al. Structural patterns in globular proteins , 1976, Nature.
[11] G J Williams,et al. The Protein Data Bank: a computer-based archival file for macromolecular structures. , 1977, Journal of molecular biology.
[12] P. Y. Chou,et al. Empirical predictions of protein conformation. , 1978, Annual review of biochemistry.
[13] Wayne A. Hendrickson,et al. Structure of the hydrophobic protein crambin determined directly from the anomalous scattering of sulphur , 1981, Nature.
[14] W. DeGrado,et al. DESIGN, SYNTHESIS, AND CHARACTERIZATION OF A CYTOTOXIC PEPTIDE WITH MELITTIN-LIKE ACTIVITY , 1981 .
[15] J. Richardson,et al. The anatomy and taxonomy of protein structure. , 1981, Advances in protein chemistry.
[16] P. S. Kim,et al. Specific intermediates in the folding reactions of small proteins and the mechanism of protein folding. , 1982, Annual review of biochemistry.
[17] P. S. Kim,et al. A salt bridge stabilizes the helix formed by isolated C-peptide of RNase A. , 1982, Proceedings of the National Academy of Sciences of the United States of America.
[18] David Eisenberg,et al. The helical hydrophobic moment: a measure of the amphiphilicity of a helix , 1982, Nature.
[19] W. Kabsch,et al. Dictionary of protein secondary structure: Pattern recognition of hydrogen‐bonded and geometrical features , 1983, Biopolymers.
[20] Olga Kennard,et al. Hydrogen-bond geometry in organic crystals , 1984 .
[21] P. S. Kim,et al. A helix stop signal in the isolated S-peptide of ribonuclease A , 1984, Nature.
[22] C Sander,et al. On the use of sequence homologies to predict protein structure: identical pentapeptides can have completely different conformations. , 1984, Proceedings of the National Academy of Sciences of the United States of America.
[23] E. Baker,et al. Hydrogen bonding in globular proteins. , 1984, Progress in biophysics and molecular biology.
[24] Jack D. Dunitz,et al. Lone-pair directionality in hydrogen-bond potential functions for molecular mechanics calculations: the inhibition of human carbonic anhydrase II by sulfonamides , 1985 .
[25] Wim G. J. Hol,et al. The role of the α-helix dipole in protein function and structure , 1985 .
[26] J. Deisenhofer,et al. Structure of the protein subunits in the photosynthetic reaction centre of Rhodopseudomonas viridis at 3Å resolution , 1985, Nature.
[27] L. Gierasch,et al. Molecular mechanisms of protein secretion: the role of the signal sequence. , 1986, Advances in protein chemistry.
[28] T. Steitz,et al. Identifying nonpolar transbilayer helices in amino acid sequences of membrane proteins. , 1986, Annual review of biophysics and biophysical chemistry.
[29] R. L. Baldwin. Seeding protein folding , 1986 .
[30] A. Lesk,et al. Determinants of a protein fold. Unique features of the globin amino acid sequences. , 1987, Journal of molecular biology.
[31] M. Jiménez,et al. 1H NMR and CD evidence of the folding of the isolated ribonuclease 50–61 fragment , 1987, FEBS letters.
[32] Florante A. Quiocho,et al. Stabilization of charges on isolated ionic groups sequestered in proteins by polarized peptide units , 1987, Nature.
[33] Robert L. Baldwin,et al. Tests of the helix dipole model for stabilization of α-helices , 1987, Nature.
[34] J. Lecomte,et al. /sup 1/H NMR probe for hydrogen bonding of distal residues to bound ligands in heme proteins: isotope effect on heme electronic structure of myoglobin , 1987 .
[35] A. Kossiakoff,et al. Tertiary structure is a principal determinant to protein deamidation. , 1988, Science.
[36] J. Richardson,et al. Amino acid preferences for specific locations at the ends of alpha helices. , 1988, Science.