References

Next: About this document Up: No Title Previous: Acknowledgements

References

Adman, 1984: Adman, E. T. (1984). Structure and function of small blue copper proteins. In Metalloproteins: Metal Proteins with Redox Rules, (Harrison, P. M., ed.), pp. 1-42. Verlag Chemie, Basel.
Argos et al., 1991: Argos, P., Vingron, M. &Vogt, G. (1991). Protein sequence comparison: methods and significance. Protein Engineering, 4, 375-383.
Barton, 1990: Barton, G. J. (1990). Protein multiple sequence alignment and flexible pattern matching. Methods in Enzymology, 183, 403-428.
Barton &Sternberg, 1987: Barton, G. J. &Sternberg, M. J. E. (1987). A strategy for the rapid multiple alignment of protein sequences: confidence levels from tertiary structure comparisons. Journal of Molecular Biology, 198, 327-337.
Barton &Sternberg, 1988: Barton, G. J. &Sternberg, M. J. E. (1988). Lopal and scamp: techniques for the comparison and display of protein structures. Journal of Molecular Graphics, 6, 190-196.
Barton &Sternberg, 1990: Barton, G. J. &Sternberg, M. J. E. (1990). Flexible protein sequence patterns - a sensitive method to detect weak structural similarities. Journal of Molecular Biology, 212, 389-402.
Bashford et al., 1987: Bashford, D., Chothia, C. &Lesk, A. M. (1987). Determinants of a protein fold, unique features of the globin amino acid sequences. Journal of Molecular Biology, 196, 199-216.
Bernstein et al., 1977: Bernstein, F. C., Koetzle, T. F., Williams, G. J. B., Meyer, E. F., Brice, M. D., Rodgers, J. R., Kennard, O., Shimanovichi, T. &Tasumi, M. (1977). The protein data bank: a computer-based archival file for macromolecular structures. Journal of Molecular Biology, 112, 535-542.
Blundell et al., 1979: Blundell, T. L., Sewell, B. T. &McLachlan, A. D. (1979). Four-fold structural repeat in the acid proteases. Biochem. Biophys. Acta, 580, 24-31.
Bordo &Argos, 1990: Bordo, D. &Argos, P. (1990). Evolution of protein cores: constraints in point mutations as observed in globin tertiary structures. Journal of Molecular Biology, 211, 975-988.
Bordo &Argos, 1991: Bordo, D. &Argos, P. (1991). Suggestions for ``safe'' residue substitutions in site-directed mutagenesis. Journal of Molecular Biology, 217, 721-729.
Bowie et al., 1990: Bowie, J. U., Clarke, N. D., Pabo, C. O. &Sauer, R. T. (1990). Identification of protein folds: matching hydrophobicity patterns of sequence sets with solvent accessibiity patterns of known structures. Proteins: Structure, Function and Genetics, 7, 257-264.
Bowie &Eisenberg, 1993: Bowie, J. U. &Eisenberg, D. (1993). Inverted protein structure prediction. Current Opinion in Structural Biology, 3, 437-444.
Bowie et al., 1991: Bowie, J. U., Luthy, R. &Eisnenberg, D. (1991). A method to identify protein sequences that fold into a known three-dimensional structure. Science, 253, 164-170.
Brooks et al., 1983: Brooks, B. R., Bruccoleri, R. E., Olafson, B. D., States, D. J., Swaminathan, S. &Karplus, M. (1983). CHARMM: a program for macromolecular energy, minimization and dynamics calculations. Journal of Computational Chemistry, 4, 187-217.
Bryant &Lawrence, 1993: Bryant, S. H. &Lawrence, C. E. (1993). An empirical energy function for threading a protein sequence through the folding motif. Proteins: Structure, Function and Genetics, 16, 92-112.
Chelvanayagam et al., 1992: Chelvanayagam, G., Heringa, J. &Argos, P. (1992). Anatomy and evolution of protein displaying the viral capsid jelly roll topology. Journal of Molecular Biology, 228, 220-242.
Chothia &Lesk, 1982: Chothia, C. &Lesk, A. M. (1982). Evolution of proteins formed by -sheets I. Plastocyanin and azurin. Journal of Molecular Biology, 160, 309-323.
Chothia &Lesk, 1986: Chothia, C. &Lesk, A. M. (1986). The relation between the divergence of sequence and structure in proteins. EMBO Journal, 5, 823-826.
Craik et al., 1983: Craik, C. S., Rutter, W. J. &Fletterick, R. (1983). Splice junctions: association with variation in protein structure. Science, 220, 1125-1129.
Dayhoff et al., 1978: Dayhoff, M. O., Schwartz, R. M. &Orcutt, B. C. (1978). A model of evolutionary change in proteins. matrices for detecting distant relationships. In Atlas of protein sequence and structure, (Dayhoff, M. O., ed.), vol. 5, pp. 345-358. National biomedical research foundation Washington DC.
Drenth et al., 1980: Drenth, J., Low, B. W., Richardson, J. S. &Wright, C. S. (1980). The toxin-agglutinin fold. A new group of small proteinn structures organized around a four-disulphide core. Journal of Biological Chemistry, 255, 2652-2655.
Farber, 1993: Farber, G. K. (1993). An barrel full of evolutionary strouble. Current Opinion in Structural Biology, 3, 409-412.
Farber &Petsko, 1990: Farber, G. K. &Petsko, G. A. (1990). The evolution of barrel enzymes. Trends in the Biochemical Sciences, 15, 228-234.
Flores et al., 1993: Flores, T. P., Orengo, C. A., Moss, D. S. &Thornton, J. M. (1993). Comparison of conformational characteristics in structurally similar protein pairs. Protein Science, 2, 1811-1826.
Göbel et al., 1994: Göbel, U., Sander, C., Schneider, R. &Valencia, A. (1994). Correlated mutations and residue contacts in proteins. Proteins: Structure, Function and Genetics, 18, 309-317.
Godzik et al., 1993: Godzik, A., Kolinski, A. &Skolnick, J. (1993). Toplogy fingerprint approach to the inverse protein folding problem. Journal of Molecular Biology, 227, 227-238.
Gribskov et al., 1987: Gribskov, M., McLachlan, A. D. &Eisenberg, D. (1987). Profile analysis: Detection of distantly related proteins. Proceedings of the National Academy of Science, 84, 4355-4358.
Hazes &Hol, 1992: Hazes, B. &Hol, W. G. J. (1992). Comparison of the hemocyanin - barrel with other greek key - barrels: possible improtance of the `` - zipper'' in protein structure and folding. Proteins: Structure, Function and Genetics, 12, 278-298.
Henikoff &Henikoff, 1993: Henikoff, S. &Henikoff, J. G. (1993). Performance evaluation of amino acid substitution matrices. Proteins: Structure, Function and Genetics, 17, 49-61.
Holm &Sander, 1993a: Holm, L. &Sander, C. (1993a). Globin fold in a bacterial toxin. Nature, 361, 309.
Holm &Sander, 1993b: Holm, L. &Sander, C. (1993b). Structural alignment of globins, phycocyanins and colicin A. FEBS Letters, 315, 301-306.
Hutchinson &Thornton, 1992: Hutchinson, E. G. &Thornton, J. M. (1992). The greek key motif: extraction, classification and analysis. Protein Engineering, 6, 233-245.
Johnson et al., 1993: Johnson, M. S., Overginton, J. P. &Blundell, T. L. (1993). Alignment and searching for common protein folds using a data bank of structural templates. Journal of Molecular Biology, 231, 735-752.
Jones et al., 1992: Jones, D. T., Taylor, W. R. &Thornton, J. M. (1992). A new approach to protein fold recognition. Nature, 358, 86-89.
Kabsch &Sander, 1983: Kabsch, W. &Sander, C. (1983). A dictionary of protein secondary structure. Biopolymers, 22, 2577-2637.
Lapatto et al., 1989: Lapatto, R., Blundell, T., Hemmings, A., Overington, J., Wilderspin, A., Wood, S., Merson, J. R., Whittle, P. J., Danely, D. E. &Geoghegan, K. F. (1989). X-ray analysis of HIV-1 proteinase at Å resolution confirms structural homologue among retroviral enzymes. Nature, 342, 299-302.
Lesk &Chothia, 1980: Lesk, A. M. &Chothia, C. (1980). How different amino acid sequences determine similar protein structures: the structure and evolutionary dynamics of the globins. Journal of Molecular Biology, 136, 225-270.
Lesk &Chothia, 1982: Lesk, A. M. &Chothia, C. (1982). Evolution of proteins formed by -sheets II. The core of the immunoglobulin domains. Journal of Molecular Biology, 160, 325-342.
Lim &Sauer, 1989: Lim, W. A. &Sauer, R. T. (1989). Alternative packing arrangements in the hydrophobic core of repressor. Nature, 339, 31-36.
Lipman &Pearson, 1985: Lipman, D. J. &Pearson, W. R. (1985). Rapid and sensitive protein similarity searches. Science, 227, 1435-1441.
Luthy et al., 1991: Luthy, R., D., M. A. &Eisenberg, D. (1991). Secondary structure-based profiles: use of structure-conserving scoring tables in searching protein sequence databases for structural similarities. Proteins: Structure, Function and Genetics, 10, 229-239.
McLachlan, 1979: McLachlan, A. D. (1979). Gene duplication in the structural evolution of chymotrypsin. Journal of Molecular Biology, 128, 49-79.
Miller et al., 1987: Miller, S., Janin, J., Lesk, A. M. &Chothia, C. (1987). Interior and surface of monomeric proteins. Journal of Molecular Biology, 196, 641-656.
Mitchell et al., 1989: Mitchell, E. M., Artymiuk, P. J., Rice, D. W. &Willett, P. (1989). Use of techniques derived from graph theory to compare secondary structure motifs in proteins. Journal of Molecular Biology, 212, 151-166.
Morris et al., 1992: Morris, A. L., MacArthor, M. W., Hutchinson, E. G. &Thornton, J. M. (1992). Sterochemical quality of protein structure coordinates. Proteins: Structure, Function and Genetics, 12, 345-364.
Murzin et al., 1992: Murzin, A. G., Lesk, A. M. &Chothia, C. (1992). -trefoil fold patterns of structure and sequence in the Kunitz inhibitors interleukins-1 and 1 and fibroblast growth factors. Journal of Molecular Biology, 223, 531-543.
Murzin, 1993: Murzin, A. Z. (1993). OB(oligonucleotide/oligosaccharide binding)-fold: common structural and functional solution for non-homologous sequences. EMBO Journal, 12, 861-867.
Narayana &Argos, 1984: Narayana, S. U. L. &Argos, P. (1984). International Journal of Peptide and Protein Research, 24, 25-39.
Needleman &Wunsch, 1970: Needleman, S. B. &Wunsch, C. D. (1970). A general method applicable to the search for similarities in the amino acid sequence of two proteins. Journal of Molecular Biology, 48, 443-453.
Neher, 1994: Neher, E. (1994). How frequent are correlated changes in families of protein sequences? Proceedings of the National Academy of Science, 91, 98-102.
Nishikawa &Matsuo, 1993: Nishikawa, K. &Matsuo, Y. (1993). Development of pseudoenergy potentials for assessing protein 3-D - 1D compatability and detecting weak homologies. Protein Engineering, 8, 811-820.
Novotny et al., 1984: Novotny, J., Bruccoleris, R. &Karplus, M. (1984). An analysis of incorrectly folded protein models. Implications for structure predictions. Journal of Molecular Biology, 177, 787-818.
Novotny et al., 1988: Novotny, J., Rashin, A. A. &Bruccoleri, R. E. (1988). Criteria that discriminate between native proteins and incorrectly folded models. Proteins: Structure, Function and Genetics, 4, 19-30.
Ollis et al., 1992: Ollis, D. L., Cheah, E., Cygler, M., Dijkstra, B., Frolow, S. M., Ranken, S. M., Harel, M., Remington, S. J., Silman, I. &Schrag, J. (1992). The alpha/beta hydrolase fold. Protein Engineering, 5, 197-211.
Orengo et al., 1993: Orengo, C. A., Flores, T. P., Taylor, W. R. &Thornton, J. M. (1993). Identification and classification of protein fold families. Protein Engineering, 6, 485-500.
Otto et al., 1980: Otto, J., Argos, P. &Rossmann, M. G. (1980). Prediction of secondary structural elements in glycerol-3-phosphate dehydrogenase by comparison with other dehydrogenases. European Journal of Biochemistry, 109, 325-330.
Ouzounis et al., 1993: Ouzounis, O., Sander, C., Scharf, M. &Schneider, R. (1993). Prediction of protein structure by evaluation of sequence-structure fitness. Aligning sequences to contact profiles derived from three-dimensional structures. Journal of Molecular Biology, 232, 805-825.
Overington et al., 1992: Overington, J., Donnelly, D., Johnson, M. S., Sali, A. &Blundell, T. L. (1992). Environment-specific amino acid substitution tables: tertiary templates and prediction of protein folds. Protein Science, 1, 216-226.
Overington et al., 1990: Overington, J., Johnson, M. S., Sali, A. &Blundell, T. L. (1990). Tertiary structural constraints on protein evolutionary diversity: templates, key residues and structure prediction. Proc. R. Soc. Lond. B, 241, 132-145.
Pascarella &Argos, 1992: Pascarella, S. &Argos, P. (1992). A data bank merging protein structures and sequences. Protein Engineering, 5, 121-137.
Pastore &Lesk, 1990: Pastore, A. &Lesk, A. M. (1990). Comparison of the structures of globins and phycocyanins: evidence for evolutionary relationship. Proteins: Structure, Function and Genetics, 8, 133-155.
Pastore et al., 1988: Pastore, A., Lesk, A. M., Bolognesi, M. &Onesti, S. (1988). Structural alignment and analysis of two distantly related proteins: aplysia limacina myoglobin and sea lamprey globin. Proteins: Structure, Function and Genetics, 4, 240-250.
Pickett et al., 1992: Pickett, S. D., Saqi, M. A. S. &Sternberg, M. J. E. (1992). Evaluation of the sequence template method for protein structure prediction. Discrimination of the -barrel fold. Journal of Molecular Biology, 228, 170-187.
Rose &Dworkin, 1989: Rose, G. D. &Dworkin, J. E. (1989). The hydrophobicity profile. In Prediction of protein structure and the principles of protein conformation, (Fasman, G. D., ed.), chapter 15, pp. 625-634. Plenum press 233 Spring street, New York, NY, 10013.
Rossmann &Argos, 1976: Rossmann, M. G. &Argos, P. (1976). Exploring structural homology in proteins. Journal of Molecular Biology, 105, 75-95.
Rossmann et al., 1974: Rossmann, M. G., Moras, D. &Olsen, K. W. (1974). Chemical and biological evolution of a nucleotide-binding protein. Nature, 250, 194-199.
Russell, 1994: Russell, R. B. (1994). STAMP User Manual. University of Oxford.
Russell &Barton, 1992: Russell, R. B. &Barton, G. J. (1992). Multiple protein sequence alignment from tertiary structure comparison: assignment of global and residue confidence levels. Proteins: Structure, Function and Genetics, 14, 309-323.
Russell &Barton, 1993a: Russell, R. B. &Barton, G. J. (1993a). An SH2-SH3 domain hybrid. Nature, 364, 765.
Russell &Barton, 1993b: Russell, R. B. &Barton, G. J. (1993b). The limits of protein secondary structure prediction accuracy from multiple sequence alignment. Journal Molecular Biology, 234, 951-957.
Sali &Blundell, 1990: Sali, A. &Blundell, T. L. (1990). Definition of general topological equivalence in protein structures a procedure involving comparison of properties and relationships through simulated annealing and dynamic programming. Journal of Molecular Biology, 212, 403-428.
Shindylav et al., 1994: Shindylav, I. N., Kolchanov, N. A. &Sander, C. (1994). Can three-dimensional contacts in protein structure be predicted by analysis of correlated mutations? Protein Engineering, 7, 349-358.
Sippl, 1990: Sippl, M. J. (1990). Calculation of conformational ensembles from potentials of mean force. An approach to the knowledge-based prediction of local structures in globular proteins. Journal of Molecular Biology, 213, 859-883.
Sippl et al., 1992: Sippl, M. J., Hendlich, M. &Lackner, P. (1992). Assembly of polypeptide and protein backbone conformations from low energy ensembles of short fragments: development of strategies and construction of models for myoglobin, lysozyme, and thymosin . Protein Science, 1, 625-640.
Sippl &Weitckus, 1992: Sippl, M. J. &Weitckus, S. (1992). Detection of native-like models for amino acid sequences of unkonwn three-dimensional structure in a data base of known protein conformations. Proteins: Structure, Function and Genetics, 13, 258-271.
Sixma et al., 1993: Sixma, T. K., Stein, P. E., Hol, W. G. &Read, R. J. (1993). Comparison of the b-pentamers of heat-labile enterotoxin and verotoxin-1: two structures with remarkable similarity and dissimilarity. Biochemistry, 32, 191-198.
Swindells et al., 1993: Swindells, M. B., Orengo, C. A., Jones, D. T., Pearl, L. H. &Thornton, J. M. (1993). Recurrence of a binding motif? Nature, 362, 299.
Swindells &Thornton, 1993: Swindells, M. B. &Thornton, J. M. (1993). A study of structural determinants in the interleukin-1 fold. Protein Engineering, 6, 711-715.
Taylor, 1986a: Taylor, W. R. (1986a). Classification of amino acid conservation. Journal of Theoretical Biology, 119, 205-218.
Taylor, 1986b: Taylor, W. R. (1986b). Identification of protein sequence homology by consensus template alignment. Journal of Molecular Biology, 188, 233-258.
Taylor, 1989: Taylor, W. R. (1989). A template based method of pattern matching in protein sequences. Progress in Biophysics and Molecular Biology, 54, 159-252.
Taylor, 1991: Taylor, W. R. (1991). Towards protein tertiary fold prediction using distance and motif constraints. Protein Engineering, 4, 853-870.
Taylor &Hatrick, 1994: Taylor, W. R. &Hatrick, K. (1994). Compensating changes in protein multiple sequence alignments. Protein Engineering, 7, 341-348.
Thornton et al., 1991: Thornton, J. M., Flores, T. P., Jones, D. T. &Swindells, M. B. (1991). Prediction of progress at last. Nature, 354, 105-106.
Warme &Morgan, 1978: Warme, P. K. &Morgan, R. S. (1978). A survey of amino acid side-chain interactions in 21 proteins. Journal of Molecular Biology, 118, 289-304.
Wilmanns &Eisenberg, 1993: Wilmanns, M. &Eisenberg, D. (1993). Three-dimensional profiles from residue-pair preferences: identification of sequence with the -barrel fold. Proceedings of the National Academy of Science, 90, 1379-1383.
Wodak &Rooman, 1993: Wodak, S. J. &Rooman, M. J. (1993). Generating and testing protein folds. Current Opinion in Structural Biology, 3, 247-259.

gjb@
Thu Feb 9 18:06:48 GMT 1995