166.     Liu L, Botos I, Wang Y, Leonard JN, Shiloach J, Segal DM, Davies DR. Structural basis of Toll-like receptor 3 signaling with double-stranded RNA.  Science, 320, 379-381. 2008. Abstract  Full text

165.     Leonard J., Bell, J., Davies DR, and Segal D.  The TLR3  signaling complex forms by cooperative receptor dimerization.  PNAS 105, 258-63, 2007.

164.     Min Li, CQ Chen, David R. Davies, and Thang K. Chiu.  An Induced-fit Mechanism for Substrate Binding and Enzyme Catalysis in Prolyl Endopeptidase. 2007

163.     Jan Kubelka, Thang K. Chiu, David R. Davies, William A. Eaton, & James Hofrichter. Sub-microsecond Protein Folding. Journal of Molecular Biology Volume 359, Issue 3, 9 June 2006, Pages 546-553.

162.     Thang Chiu, David R Davies.  Structure and Function of HIV-1 Integrase: An  Update. Frontiers in Medicinal Chemistry, 3: 3-22.  2006.

161.     Jessica K Bell,Janine Askins, Pamel R.Hall, David R. Davies and David M. Segal. The dsRNA binding site of human Toll-like receptor 3.  2006  PNAS 103:8792-8797.

160.     Jessica K. Bell, Istvan Botos, Pamela R. Hall, Janine Askins, Joseph Shiloach, David R. Davies, David M. Segal.  The molecular structure of the TLR3 extracellular domain. Journal of Endotoxin Research, Vol. 12, No. 6, 375-8. 2006.

159.     Davies D.R.  A Quiet Life with Proteins.  Ann. Rev. Biophysics and Biomolecular Structure. 34:1-20, 2005.

158.     Baxa, U., Cheng, N., Winkler, D.C., Chiu, T.K., Davies, D.R., Sharma, D., Inouye, H., Kirschner, D.A., Wickner, R.B., Steven,A.C.  Filaments of the Ure2p prion protein have a cross-beta core structure. J.Structural Biology, 150:170-179, 2005.

157.     Thang K. Chiu, Jan Kubelka, Regine Herbst-Irmer, W.A. Eaton, James Hofrichter, and David R. Davies.  High-resolution X-ray crystal structures of the villin headpiece subdomain, an ultrafast folding protein.  PNAS, 102:7517-7522, 2005.

156.     Bell JK, Botos I, Hall PR, Askins J, Shiloach J, Segal DM, Davies DR.  The molecular structure of the Toll-like receptor 3 ligand-binding domain. Proc Natl Acad Sci U S A. 102(31):10976-10980. 2005

155.     Baxa U, Cheng N, Winkler DC, Chiu TK, Davies DR, Sharma D, Inouye H, Kirschner DA, Wickner RB, Steven AC. Filaments of the Ure2p prion protein have a cross-beta core structure. J Struct Biol. 150(2):170-179, 2005.

154.     Chiu TK, Kubelka J, Herbst-Irmer R, Eaton WA, Hofrichter J, Davies DR High-resolution X-ray crystal structures of the villin headpiece subdomain, an ultrafast folding protein. Proc Natl Acad Sci U S A. 102(21):7517-7522., 2005.

153.     Cohen, G.H.,Silverton. E.W., Padlan, E., Dyda, F., Wibbenmeyer, J., Wilson, R.C., Davies, D.R.  HyHEL-5/Lysozyme Structure: The role of waters in the antigen/antibody interface. Acta Crystallogr D 61:628-633, 2005.

152.     Umland, T.C., Wolff, E.C., Davies, D.R.  Structure of inhibited deoxyhyposine synthase: a swinging ball and chain opens the active site. J.Biol. Chem. 279:28697-28705, 2004.

151.     Thang Chiu and Davies, D.R.  Structural Aspects of HIV Integrase.  Current Topics in Medicinal Chemistry 4: 671-686, 2004 .

150.     Bell, J.K., Gregory E. D. Mullen, G.E.D., Leifer,C.A., Mazzoni,A., Davies, D.R. and Segal, D.M. Leucine-Rich repeats and pathogen recognition in Toll-like receptors. Trends in Immunology. 24: 528-533, 2003.

149.     Mullen,G.E.D., Kennedy, M.N., Visintin, A., Mazzoni, A., Leifer, C.A., Davies, D.R. & Segal, D.M.  Proc. Natl. Acad. Sci., USA. 100:3919-3924, 2003.

148.     Umland, T.C., Taylor, K.L., Rhee, S., Wickner R.B., Davies D.R.  The Crystal Structure of the Nitrogen Regulation fragment of the Yeast Prion Protein Ure2p. Proc. Natl. Acad. Sci.98 (4):1459-1464, 2001.

147.     Miles E.W., Fan, Y-X., Jhee, K. H., Ro, H-S., McPhie, P., Rhee, S., Davies, D.R.   Structure and Function of Tryptophan Synthase.  Biochemistry and Molecular Biology of  Vitamin B6 and PQQ-dependent Proteins, A. Iriarte, H.M.Kagan and M. Martinez-Carrion, eds. Birkhauser Verlag Basel/Switzerland pp145-150, 2000.

146.     Han, Z-J., Rhee S., Liu, K., Miles, H.T. and Davies, D.R. Crystallization and preliminary crystallographic study of triple-helical DNA.  Acta Cryst.  D56: 104, 2000.

145.     Miles, E.W. and Davies D.R.  On the Ancestry of Barrels.  Science 289:1490, 2000.

144.     Umland, T., Wei, S.Q., Craigie, R. and Davies D.R.,The structural basis of DNA    binding by Barrier -to-autointegration factor, a host cell cofactor of retroviral integration.  Biochemistry 39:9130-9138, 2000

143.     Rhee, S., Han, Z-j, Liu, K., Miles, H.T. and Davies D.R. Structure of a triple helical DNA with a triplex-duplex junction.  Biochemistry 38: 16810-16815, 1999

142.     Goldgur, Y., Craigie, R., Cohen, G. H., Fujiwara, T., Yoshinaga, T., Fujishita, T., Sugimoto, H., Endo, T., Murai, H. and Davies, D.R.  Structure of the HIV-1 integrase catalytic domain complexed with an inhibitor: A platform for antiviral drug design.  Proc. Natl. Acad. Sci. USA, 96: 13040-13043, 1999.

141.     Davies D.R and Hickman, Application of Protein Engineering to Improve Crystal Qualities... International Tables for Macromolecular Crystallography, In press 1999.

140.     Miles, E., Rhee, S. and Davies, D.R.  The Molecular basis of channeling in multenzyme systems.  J. Biol. Chem.  Minireview, 274: 12193-6, 1999

139.     Rhee, Sangkee, Martin, Robert G., Rosner, Judah L., Davies, David R., A Novel DNA-Binding Motif of MarA: the First Structure for an AraC Family Transcriptional Activator... Proc. Natl. Acad.Sci. USA, 95: 10413-10418, 1998.

138.     Goldgur, Yehuda, Dyda, Fred, Hickman, Alison B., Jenkins, Timothy M., Craigie, Robert, and Davies, David R., Three additional structures of the core domain of HIV-1 integrase: An active site that binds magnesium...Proc. Natl. Acad.Sci. USA. Vol. 95: 9150-9154, 1998.

137.     Rhee, Sangkee,  Miles, Edith W., Mozzarelli, Andrea, and Davies, David R., Cryo-crystallography and Microspectrophotometry of a Mutant (D60N) Tryptophan Synthase ₂₂ Complex Reveals Allosteric Roles of Asp60…Biochemistry vol. 37,           

            no. 30: 10653-10659, 1998.

136.     Rhee, Sangkee,  Miles, Edith W., and Davies, David R., Cryo-crystallography of a True Substrate, Indole-3-Glycerol Phosphate, Bound to a Mutant... Journal of Biological Chemistry vol. 273, no. 15: 8553-8555, 1998.

135.     Louis, John M., Dyda, Fred, Nashed, Nashaat T., Kimmel, Alan R. and Davies, David   R.,

            Hydrophilic Peptides Derived from the Transframe Region of Gag-Pol Inhibit the HIV-1 Protease Biochemistry vol. 37, no.8: 2105-2110, 1998.

134.     Hickman, A. & Davies, D.R.  Principles of Macromolecular X-ray Crystallography. In Current Protocols in Protein Science,   J.E. Coligan Ed., John Wiley & Sons, Inc., p. 17.3.1-17.3.15.

133.     Liao, D.-I., Wolff, E., Park, M.H. and Davies, D.R.   Crystal Structure of the NAD Complex of Human Deoxyhypusine Synthase: an Enzyme with a Ball and Chain Mechanism for Blocking the Active Site. Structure 6: 23-32, 1998.

132.     Rhee, S., Parris, K.D., Hyde, C.C., Ahmed, S.A., Miles, E.W. & Davies, D.R.  Crystal Structure of a mutant (K87T) tryptophan synthase ₂₂ complexwith ligands bound to the active sites of the - and - subunits reveal ligand induced conformational changes.  Biochemistry 36: 7664-7680, 1997

131.     Li, M., Dyda, F., Benhar, I., Pastan, I. & Davies, D.R.   Crystal Structure of the Catalytic Domain of Pseudomonas Exotoxin A complexed with a Nicotinamide adenine Dinucleotide Analog: Implications for the Activation Process and for ADP Ribosylation.  Proc. Natl. Acad.Sci. USA. 93: 6902-6906, 1996

130.     Liao, D.-I., Silverton,E.,Seok, Y.-J., Lee, B.R., Peterkofsky, A. & Davies, D.R.  The     First

            Step in Sugar Transport: Crystal Structure of the Amino terminal Domain of Enzyme I of the E. coli PEP: Sugar Phosphotransferase System and a Model of the Phosphotranferase Complex with Hpr.  Structure  4:861-872, 1996.

129.     Rhee, S., Parris, K.D., Ahmed, S.A., Miles, E.W. & Davies, D.R.: Exchange of K⁺ or Cs⁺ for Na⁺ induces local and long-range changes in the three-dimensional structure of the tryptophan synthase ₂₂ complex.  Biochemistry 35:4211-4221, 1996.

128.     Rice, P., Craigie, R.A. & Davies, D.R.: Retroviral Integrases and their Cousins. Current Opinion in Structural Biology, 6:76-83, 1996.

127.     Cohen, G.H. & Davies, D.R.: Interaction of Protein Antigens with Antibodies. Proc.            

            Natl. Acad. Sci. USA  93:7-12, 1996.

126.     Cohen, G.H., Sheriff, S. & Davies, D.R.: The Refined Structure of the Monoclonal Antibody HyHEL-5 with its Antigen Hen Egg White Lysozyme. Acta Cryst. D    1995

125.     Li, M., Dyda, F., Benhar, I., Pastan, I., Davies, D.R.: The Crystal Structure of Pseudomonas Aeruginosa Exotoxin Domain III with Nicotinamide and AMP: Conformational Differences with the Intact Exotoxin. Proc. Natl. Acad. Sci. 92:9308-9312, 1995.

124.     Chacko, S., Silverton, E.W., Kam-morgan, L., Smith-Gill, S., Cohen, G.H. & Davies, D.R.: Structure of an Antibody-Lysozyme Complex: Effect of a Conservative Mutation: Journal of Molecular Biology, 245: 261-274, 1995.

123.     Jenkins, T.M., Hickman, A.B., Dyda, F., Ghirlando, R., Davies, D.R. & Craigie, R.A.:Catalytic Domain of Human Immunodeficiency Virus Type-1 Integrase: Identification of a Soluble Mutant by Systematic Replacementr of Hydrophobic Residues. Proc. Natl. Acad. Sci.USA 92: 6057-6061, 1995

122.     Daopin, S., & Davies, D.R.: The Cystine Knot Growth Factor Superfamily.  Ann. Rev. Biochem. and Biomolecular Structure, 24:269-291 1995

121.     Davies, D.R. & Wlodawer, A.:  Cytokines and their Receptor Complexes.  FASEB J.,  9:50-56, 1995.

120.     Dyda, F., Hickman, A., Jenkins, T., Engelman, A., Craigie, R. & Davies, D.R.: Crystal Structure of the Catalytic Domain of HIV-1 Integrase reveals Similarity with other Polynucleotidyl Transferases.  Science 266: 1981-1986, 1994.

119.     Qian, S.W., Burmeister, J.K., Sun, P.D, Huang, A., Ohlsen, D.J. Suardet, L., Flanders, K.C., Davies, D.R., Roberts, A.B. & Sporn, M.B.: Characterization of Mutated Transforming Growth Factor-s which Possess Unique Biological Properties. Biochemistry, 33:12298-12304, 1994

118.     Daopin, S., Schlunegger, M.P., Grutter, M.G. & Davies, D.R.: Comparison of Two Crystal Structures of TGF-ß2:the Accuracy of Refined Protein Structures.  Acta Cryst., D50:85-92,  1994.

117.     Chacko, S. & Davies, D.R.: Antibody Structure.  Accounts of Chemical Research, 26:421-427,  1993.

116.     Daopin, S., Li, M. & Davies, D.R.: Crystal Structure of TGF-ß2 Refined at 1.8 Angstroms Resolution.  Proteins: Structure, Function & Genetics, 17:176-192,  1993.

115.     Daopin, S., Cohen, G.H., & Davies, D.R.: Structural Similarity Between Transforming Growth Factor-ß2 and Nerve Growth Factor.  Science Vol. 258, pp. 1160-1162,1992.

114.     Shaanan, B., Gronenborn, A.M., Cohen, G.H., Gilliland, G.L., Veerapandian, B., Davies, D.R. & Clore, G.M.: Combining Experimental Information from Crystal and Solution Studies:Joint X-ray and NMR Refinement.  Science 257:961-964, 1992.

113.     Parris, K.D., Hoover, D.J. & Davies, D.R.: Synthesis and Crystallographic Analysis of Two Rhizopuspepsin Inhibitor Complexes.  Biochemistry 31:8125-8141, 1992.

112.     Davies, D.R. & Padlan, E.A.: Twisting into Shape.  Current Biology, 2:254-256, 1992.

111.     Daopin S., Piez, K.A., Ogawa, Y. & Davies, D.R.: Crystal Structure of Transforming Growth Factor-ß2:An Unusual Fold for the Superfamily.  Science 257:369-373, 1992.

110.     Suguna, K., Padlan, E.A., Bott, R., Boger, J., Parris, K.D., & Davies, D.R.: Structures of Complexes of Rhizopuspepsin with Pepstatin and Other Statine Containing Inhibitors.  Proteins: Structure, Function, and Genetics. 13:195-205,  1992.

109.     Parris, K.D., Davies, D.R., Chen, Z., Tang, J. & Dunn, B.M.: Structure-Activity and X-Ray Crystallographic Analysis of Potent Inhibitors of Rhizopuspepsin:Design, Kinetics and Active Site Modeling of Synthetic Peptidyl Substrate/Inhibitor Templates.  Biochem and Mol Biol,  1992.

108.     Suguna, K., Padlan, E.A., Bott, R., Boger, J. & Davies, D.R.: Structures of Complexes of Pepstatin and Pepstatin-Like Inhibitors with the Aspartic Proteinase from Rhizopus Chinensis.  Proteins 13:195-205,  1992.

107.     Parris, K.D., Hoover, D.J. & Davies, D.R.: Structure and Function of Aspartic Proteinases.  Genetics, Structures and Mechanisms,  Ben M. Dunn ed., Plenum Press, New York, pp 221-236,  1991.

106.     Davies, D.R. & Padlan, E.A.: Antibody-Antigen Interactions.  McGraw-Hill -Yearbook of Science and Technology. (McGraw-Hill Publishing Co., New York) pp. 18-20,1991.

105.     Davies, D.R.: The Structure and Function of the Aspartic Proteinases.  Ann. Rev. Biophys. Biophys. Chem. 19:189-215,  1990.

104.     Davies, D.R., Padlan, E.A. & Sheriff, S.: Antibody-Antigen Complexes.  Ann. Rev. Biochem. 59:439-473,  1990.

103.     Chothia, C., Lesk, A.M., Tramontano, A., Levitt, M., Smith-Gill, S.J., Air, G., Sheriff, S., Padlan, E.A., Davies, D.R., Tulip, W.R., Colman, P.M., Spinelli, S., Alzari, P.M. &

            Poljak, R.J.: Conformations of Immunoglobulin Hypervariable Regions.  Nature 342:877-883, 1989.

102.     Sheriff, S., Padlan, E.A., Cohen, G.H., & Davies, D.R.: Molecular Replacement Structure Determination of Two Different Antibody:Antigen Complexes.  Acta Crystallographica,  1989.

101.     Davies, D.R., Sheriff, S., & Padlan, E.A.: A Comparative Study of Two Fab-Lysozyme Crystal Structures.  Cold Spring Harbor Symp. Quant. Biol. 54:233-238,             1989.

100.     Davies, D.R., Padlan, E.A. & Sheriff, S.: The Comparative Structures of Two Lysozyme-Antilysozyme Complexes:In The Use of X-ray Crystallography in the Design of Anti-Viral Agents.  (Laver, G.W. and Air, G.M., eds) (Academic Press, New York), 99-202,  1989.

99.       Padlan, E.A., Silverton, E.W., Sheriff, S., Cohen, G.H., Smith-Gill, S.J., & Davies, D.R.: Structure of an Antibody-Antigen Complex:Crystal Structure of the HyHEL-10 Fab Lysozyme Complex.  Proc. Natl. Acad. Sci., USA 86:5938-5942,  1989.

98.       Davies, D.R., Sheriff, S., Padlan, E.A., Silverton, E.W., Cohen, G.H., & Smith-Gill, S.J.: Three-Dimensional Structure of Two Fab Complexes with lysozyme.  The Immune Response to Structurally Defined Proteins: The lysozyme Model (Smith-Gill, S.J. & Sercerz, E.E.) (Adenine Press, New York), pp. 125-132,  1989.

97.       Jernigan, R., Davies, D.R. & Scheraga, H.: Experimental and Theoretical Protein Folding.  J. of Biomed. Struct. & Dynamics: Vol. 6,6,  1989.

96.       Davies, D.R., Sheriff, S., & Padlan, E.A.: Antibody-Antigen Complexes.  J. Biol. Chem. 263:10541-10544,  1988.

95.       Hyde, C.D., Padlan, E.A., Ahmed, S.A., Miles, E.W. & Davies, D.R.: Three-Dimensional Structure of the Tryptophan Synthase Multienzyme Complex from Salmonella Typhimurium.  J. Biol. Chem. 263:17857-17871,  1988.

94.       Sheriff, S., Silverton, E.W., Padlan, E.A., Cohen, G.H., Smith-Gill, S., Finzel, B., & Davies, D.R.: Antibody-Antigen Complexes:Three Dimensional Structure and Conformational Change.  In Structure and Expression, Vol. I: from Proteins to Ribosomes (eds. R.H. Sarma and M.H. Sarma), Adenine Press, Albany, New York, pp. 49-53, 1988.

93.       Sheriff, S., Padlan, E.A., Silverton, E.W., Smith-Gill, S.J. & Davies, D.R.: Three-Dimensional Structure for Two Crystal Forms of an Antibody-Antigen Complex, Proc. Natl. Acad. Sci. 84:8075-8079,  1987.

92.       Suguna, K., Padlan, E.A., Smith, C.W., Carlson, W.D. & Davies, D.R.: Binding of a Reduced Peptide Inhibitor to the Aspartic Proteinase from Rhizopus Chinensis: Implications for a Mechanism of Action.  Proc. Natl. Acad. Sci. 84:7009-7013,  1987.

91.       Suguna, K., Bott, R.R., Padlan, E.A., Subramanian, E., Sheriff, S., Cohen, G.H. & Davies, D.R.: Structure and Refinement at 1.8 Å, Resolution of the Aspartic Proteinase from Rhizopus Chinensis.  J. Mol. Biol. 196:877-900,  1987.

90.       Davies, D.R., Padlan, E.A. & Cohen, G.H.: Fab Assembly: An Analysis of Different CH1:CL Combinations: In Progress on Immunology VI, eds B. Cinader, R.G. Miller,    

            pp. 145-149. (Academic Press, Orlando, FL),  1987.

89.       Padlan, E.A., Cohen, G.H. & Davies, D.R.: Studies of the Tertiary and Quaternary Structure of Antibody Constant Domains.  In Biological Organization: Macromolecular Interactions at High Resolution, Burnett, R.M. and Vogel, H.J., eds. (Academic Press, Orlando, FL),  pp. 193-214,  1987.

88.       Suh, S.W., Bhat, T.N. Navia, M.A., Cohen, G.H., Rao, D.N., Rudikoff, S. & Davies, D.R.: The Galactan-Binding Immunoglobulin Fab J539:An X-ray Diffraction Study at 2.6 Å Resolution.  Proteins: Structure, Function, and Genetics 1:74-80,  1986.

87.       Satow, Y., Cohen, G.H., Padlan, E.A. & Davies, D.R.: The Phosphocholine Binding Immunoglobulin Fab McPC603:An X-ray Diffraction Study at 2.7 Å.  J. Mol. Biol., 190:593-604,  1986.

86.       Padlan, E.A., & Davies, D.R.: A Model of the Fc of Immunoglobulin E.  Mol. Immunol. 23:1063-1075,  1986.

85.       Padlan, E.A., Cohen, G.H. & Davies, D.R.: Antibody Fab Assembly:The Interface Residues Between CH1 and CL.  Mol. Immunol. 23:951-960,  1986.

84.       Davies, D.R.: Antibody Combining Sites.  In Current Communications. W.G. Laver & G.M. Air, eds. Cold Spring Harbor Laboratory, New York, New York, pp. 82-84,  1985.

83.       Ahmed, S.A., Miles, E.W. & Davies, D.R.: Crystallization and Preliminary X-ray Crystallographic Data of the Tryptophan Synthase ₂ß₂₂ Complex from Salmonella Typhimurium.  J. Biol. Chem. 260:3716-3718,  1985.

82.       Davies, D.R., Bhat, T.N., Cohen, G.H. & Padlan, E.A.: Comparative Structures of Mouse Antibody Combining Sites.  In Investigation and Exploitation of Antibody Combining Sites. Plenum Publishing Corp. Eds: Reid, E., Cook, G.M.W. and Morre, D.J. pp. 51-60, 1985.

81.       Padlan, E.A., Cohen, G.H. & Davies, D.R.: On the specificity of Antibody-Antigen Interactions:Phosphocholine Binding to McPC603 and the Correlation of Three-Dimensional Structure and Sequence Data.  Annales Institut Pasteur d'Immunologie, 136C, 271-276,  1985.

80.       Silverton, E.W., Padlan, E.A., Davies, D.R., Smith-Gill, S. & Potter, M.: Crystalline Monoclonal Antibody Fabs Complexed to Hen Egg White Lysozyme.  J. Mol. Biol. 180:761-765,  1984.

79.       Davies, D.R.: Antibody Structure and Specificity.  Pontifical Academy of Sciences, Rome, Italy. 55:249-261,  1984.

78.       Bott, R.R. & Davies, D.R.: Pepstatin Binding to Rhizopus Chinensis.  Eighth American Peptide Symposium,  1984.

77.       Gilliland, G.L. & Davies, D.R.: Protein Crystallization:A Strategy for Growth of Single Crystals for X-ray Diffraction Studies.  Methods in Enzymology 104:370-381, 1983.

76.       Gilliland, G.L., Markham, G.D. & Davies, D.R.: S-Adenosylmethionine Synthetase from Escherichia Coli:Crystallization and Preliminary X-ray Diffraction Studies.  J. Biol. Chem. 258:6963-6964,  1983.

75.       Davies, D.R. & Metzger, H.: Structural Basis of Antibody Function.  Ann. Rev. Immunol. 1.87-117,  1983.

74.       Bott, R., Subramanian, E. & Davies, D.R.: The Three-Dimensional Structure of the Complex of the Rhizopus Chinensis Carboxyl Proteinase and Pepstatin at 2.5Å Resolution.  Biochemistry 21:6959-6962,  1982.

73.       Rudikoff, S., Satow, Y., Padlan, E., Davies, D.R. & Potter, M.: Kappa Chain Structure from a Crystallized Murine Fab':Role of Joining Segment in Hapten         Binding.  Mol. Immunol. 18:705-711,  1981.

72.       Cohen, G.H., Silverton, E.W. & Davies, D.R.: Refined Crystal Structure of -Chymotrypsin at 1.9Å Resolution:Comparison with other Pancreatic Serine Proteases. J. Mol. Biol. 148:449-479,  1981.

71.       Davies, D.R.: Two DNA-Binding Proteins.  Nature 290:736,  1981.

70.       Klein, M., Haeffner-Cavaillon, N., Isenman, D.E., Rivat, C., Navia, M.A., Davies, D.R. & Dorrington, K.J.: Expression of Biological Effector Functions by          Immunoglobulin G Molecules Lacking the Hinge Region.  Proc. Natl. Acad. Sci., USA 78:524-528,  1981.

69.       Davies, D.R. & Zimmerman, S.B.: A New Twist for DNA.  Nature 283:11-12,  1980.

68.       Navia, M.A., Segal, D.M., Padlan, E.A., Davies, D.R., Rao, N., Rudikoff, S. & Potter, M.: Crystal Structure of Galactan-Binding Mouse Immunoglobulin J539 Fab at 4.5 Å Resolution.  Proc. Natl. Acad. Sci., USA 76:4071-4074,  1979.

67.       Potter, M., Mushinski, E.B., Rudikoff, S., Glaudemans, C.P.J., Padlan, E.A. & Davies, D.R.: Structural and Genetic Basis of Idiotypy in the Galactan Binding Myeloma Proteins.  Ann. Immunol. 130C:263-271,  1979.

66.       Zimmerman, S.B., Davies, D.R. & Navia, M.A.: An Ordered Single-Stranded Structure for Polyadenylic Acid in Denaturing Solvents:An X-ray Fiber Diffraction and Model Building Study.  J. Mol. Biol. 116:317-330,  1977.

65.       Subramanian, E., Liu, M., Sean, I.D.A. & Davies, D.R.: The Crystal Structure of an Acid Protease from Rhizopus Chinensis at 2.5 Å Resolution.  Advances in Experimental Medicine and Biology, Vol. 95, Acid Proteases Structure, Function and Biology. Tang, J., ed. Plenum Publishing, New York, pp. 33-41,  1977.

64.       Silverton, E.W., Navia, M.A. & Davies, D.R.: Three-Dimensional Structure of an Intact Human Immunoglobulin.  Proc. Natl. Acad. Sci., USA 74:5140-5144,  1977.

63.       Subramanian, E., Swan, I.D.A., Liu, M., Davies, D.R., Jenkins, J.A., Tickle, I.J. & Blundell, T.L.: Homology Among Acid Proteases:Comparison of Crystal Structure 3 Å Resolution of Acid Proteases from Rhizopus Chinensis and Endothia Parasitica.  Proc. Natl. Acad. Sci., USA 74:556-559,  1977.

62.       Padlan, E.A., Davies, D.R., Pecht, I., Givol, D. & Wright, C.: Model Building Studies of Antigen-Binding Sites:The Hapten-Binding Site of MOPC-315.  Cold Spring Harbor Symposium of Quantitative Biology, XLI:627-637,  1977.

61.       Davies, D.R. & Padlan, E.A.: Correlations Between Antigen-Binding Specificity and the Three-Dimensional Structure of the Antibody Combining Sites.  In Antibodies in Human Diagnosis and Therapy. Haber, E. & Krause, R.M., eds. Raven Press, New York, pp. 119-132,  1977.

60.       Padlan, E.A., Davies, D.R., Rudikoff, S. & Potter, M.: Structural Basis for the Specificity of Phosphorylcholine-Binding Immunoglobulins.  Immunochemistry 13:945-949,  1976.

59.       Subramanian, E. Swan, I.D.A. & Davies, D.R.: The Crystal Structure at 5.5 Å Resolution of an Acid-Protease from Rhizopus Chinensis.  Biochem. Biophys. Res. Comm. 68:875-880,  1976.

58.       Richardson, J.S., Richardson, D.C., Thomas, K.A., Silverton, E.W. & Davies, D.R.: Similarity of Three-Dimensional Structure Between the Immunoglobulin Domain and the Copper, Zinc Superoxide Dismutase Subunit.  J. Mol. Biol. 102:221-235,  1976.

57.       Kabat, E.A., Padlan, E.A. & Davies, D.R.: Evolutionary and Structural Influences on Light Chain Constant (C_L) Region of Human and Mouse Immunoglobulins.  Proc. Natl. Acad. Sci., USA 72:2785-2788,  1975.

56.       Labaw, L.W., Padlan, E.A., Segal, D.M. & Davies, D.R.: An EM Study of Phosphorylcholine-Binding Fab' Immunoglobulin Fragment Crystals.  J. Ultrastruc. Res. 51:326-339,  1975.

55.       Zimmerman, S.B., Cohen, G.H. & Davies, D.R.: X-ray Diffraction and Model-Building Study of Polyguanylic Acid and Polyinosinic Acid.  J. Mol. Biol. 92:181-192,  1975.

54.       Sasisekharan, V., Zimmerman, S.B. & Davies, D.R.: The Structure of Helical 5'-Guanosine Monophosphate.  J. Mol. Biol. 92:171-179,  1975.

53.       Padlan, E.A., Segal, D.M., Cohen, G.H., Davies, D.R., Rudikoff, S. & Potter, M.: Structure of a Phosphorylcholine-Binding Mouse Myeloma Fab.  Transplantation Proceedings VII:219-222,  1975.

52.       Padlan, E.A. & Davies, D.R.: Variability of Three-Dimensional Structure in Immunoglobulins.  Proc. Natl. Acad. Sci., USA 72:819-823,  1975.

51.       Davies, D.R., Padlan, E.A. & Segal, D.M.: Three-Dimensional Structure of Immunoglobulins.  Ann. Rev. Biochem. 44:639-667,  1975.

50.       Davies, D.R., Padlan, E.A. & Segal, D.M.: Immunoglobulin Structures at High Resolution.  Contemporary Topics in Immunology, 4. Inman, G., ed. Plenum Press, New York, pp. 127-155,  1975.

49.       Segal, D.M., Padlan, E.A., Cohen, G.H., Silverton, E.W., Davies, D.R., Rudikoff, S. & Potter, M.: The Structure of McPC603 Fab and Its Hapten Complex.  Progress in Immunology, II Vol. 1. Brent, L. & Holborow, J., eds. North-Holland Publishing Co., Amsterdam, The Netherlands, pp. 93-102,  1974.

48.       Segal, D.M., Padlan, E.A., Cohen, G.H., Rudikoff, S., Potter, M. & Davies, D.R.: The Three-Dimensional Structure of a Phosphorylcholine Binding Mouse Immunoglobulin Fab and the Nature of the Antigen Binding Site.  Proc. Natl. Acad.            Sci., USA 71:4298-4302,  1974.

47.       Padlan, E.A., Segal, D.M., Cohen, G.H., Davies, D.R., Rudikoff, S., Potter, M.: The Three-Dimensional Structure of the Antigen Binding Site of McPC603 Protein.  The Immune System: Genes, Receptors, Signals. Sercarz, E., Williamson, A. & Fox, F. eds. Academic Press, New York, pp. 7-14,  1974.

46.       Padlan, E.A., Segal, D.M., Spande, T.F., Davies, D.R., Rudikoff, S. & Potter, M.: Structure at 4.5 Resolution of a Phosphorylcholine Binding Fab.  Nature New Biol. 245:165-167,  1973.

45.       Davies, D.R.: Structural Features of Immunoglobulins as Determined by X-ray Diffraction.  Specific Receptors of Antibodies, Antigens and Cells. Pressman, D., Tomasi, T., Grossberg, A. & Rose, N., eds. Karger and Basel, Switzerland, pp. 92-98, 1973.

44.       Rudikoff, S., Potter, M., Segal, D.M., Padlan, E.A. & Davies, D.R.: Crystals of Phosphorylcholine-Binding Mouse Myeloma Fab' Fragments:Preparation and X-ray Analysis.  Proc. Natl. Acad. Sci., USA 69:3692,  1972.

43.       Taniuchi, H., Davies, D.R. & Anfinsen, C.B.: A Comparison of the X-ray Diffraction Patterns of Crystals of Reconstituted Nuclease-T and of Native Staphylococcal Nuclease.  J. Biol. Biochem. 247:3362-3364,  1972.

42.       Labaw, L.W. & Davies, D.R.: The Molecular Outline of Human IgG1 Immunoglobulin from an EM Study of Crystals.  J. Ultrastruc. Res. 40:349-365,  1972.

41.       Segal, D.M., Powers, J.C., Cohen, G.H., Davies, D.R. & Wilcox, P.E.: The Substrate Binding Site in Bovine Chymotrypsin A:A Crystallographic Study Using Peptide Chloromethyl Ketones as Site Specific Inhibitors: Biochem. 10:3728-3737,  1971.

40.       Sarma, V.R., Davies, D.R., Labaw, L.W., Silverton, E.W. & Terry W.D.: Crystal Structure of an Immunoglobulin Molecule by X-ray Diffraction and Electron Microscopy.  Cold Spring Harbor Symposium on Quantitative Biology, No. XXXVI, pp. 413-419,  1971.

39.       Segal, D.M., Cohen, G.H. & Davies, D.R.: The Stereochemistry of Substrate Binding to Chymotrypsin A.  Cold Spring Harbor Symposium on Quantitative Biology, No. XXXVI, pp. 85-90,  1971.

38.       Davies, D.R., Sarma, V.R., Labaw, L.W., Silverton, E.W., & Terry, W.D.: Three Dimensional Structure of Immunoglobulins.   Immunology, First International Congress of Immunology. Amos, B., ed. Academic Press, New York, pp. 25-32,  1971.

37.       Davies, D.R., Sarma, V.R., Labaw, L.W., Silverton, E.W, Segal, D. & Terry, W.D.: X-ray Diffraction and Electron Microscope Studies on a Crystalline Human Immunoglobulin.  Annals of the New York Academy of Sciences, Symposium on Immunoglobulins, Vol. 190 pp. 122-129,  1971.

36.       Labaw, L.W. & Davies, D.R.: An Electron Microscope Study of Human IgG1 Immunoglobulin Crystals.  J. Biol. Chem. 246:3760-3762,  1971.

35.       Sarma, V.R., Silverton, E.W., Davies, D.R. & Terry, W.D.: The Three Dimensional Structure at 6 Å Resolution of a Human IgG1 Immunoglobulin Molecule.  J. Biol. Chem. 246:3753-3759,  1971.

34.       Davies, D.R., Segal, D.M.: Protein Crystallization:Micro Techniques Involving Vapor Diffusion.  Methods in Enzymology, Vol. 22 Jakoby, W., ed. Academic Press, New York, pp. 266-269,  1971.

33.       Davies, D.R. & Doctor, B.P.: tRNA Crystallization.  Procedures in Nucleic Acid Research, Vol. II Cantoni, G. & Davies, D.R.(eds.)  Harper and Row, New York, pp. 435-442,  1971.

32.       Cantoni, G. & Davies, D.R.(eds.): Procedures in Nucleic Acid Research.  Harper and Row, New York,  1971.

31.       Cohen, G.H., Matthews, B.W. & Davies, D.R.: The Relation Between  and -Chymotrypsin:II Direct Comparison of the Electron Densities at 5.5 Å Resolution.  Acta Cryst. B26:1062-1069,  1970.

30.       Cohen, G.H., Silverton, E.W., Matthews, B.W., Braxton, H. & Davies, D.R.: Structure of -Chymotrypsin at 5.5 Å Resolution.  J. Mol. Biol. 44:129-141,  1969.

29.       Matthews, B.W., Cohen, G.H., Silverton, E.W., Braxton, H. & Davies, D.R.: Relation Between  and -Chymotrypsin.  J. Mol. Biol. 36:179-183,  1968.

28.       Terry, W.D., Matthews, B.W. & Davies, D.R.: Crystallographic Studies of a Human Immunoglobulin.  Nature 220:239-241,  1968.

27.       Davies, D.R.: Symmetry of Helical Molecules.  Jour de Chimie Physique,  1968.

26.       Davies, D.R.: X-ray Diffraction Studies of Nucleic Acids.  Chemistry 40:8-12,  1967.

25.       Davies, D.R. & Felsenfeld, G.: The Structure of RNA.  Pauling Festschrift,  1967.

24.       Davies, D.R.: X-ray Analysis of Macromolecules.  Annual Review of Biochem., Vol. 36, 1967.

23.       Cantoni, G.L. & Davies, D.R. (eds.): Procedures in Nucleic Acid Research.  Harper and Row, New York,  1966.

22.       Neville, D.M., Jr. & Davies, D.R.: The Interaction of Acridine Dyes with DNA:An X-ray Diffraction and Optical Investigation.  J. Mol. Biol. 17:57-74,  1966.

21.       Davies, D.R.: X-ray Diffraction Studies in Polypeptide Conformations.  Biophysics,           

Vol. 15,p. 191,  1965.

20.       Davies, D.R.: A Correlation Between Amino Acid Composition and Protein Structure.  J. Mol. Biol. 9:605,  1965.

19.       Sigler, P.B., Skinner, H.C.W., Coulter, C.L., Kallos, J., Braxton, H. & Davies, D.R.: An Isomorphous Heavy Atom Substitution at the Active Site of Gamma-Chymotrypsin.  Proc. Natl. Acad. Sci., USA 51:1146-1151, 1964.

18.       Gellert, M. & Davies, D.R.: Organization of DNA in Bacteriophage T4. J. Mol. Biol. 8:341-347,  1964.       

17.       Davies, D.R.: The Structural Studies on Synthetic Polynucleotides. In: Proceedings of the 5th International Congress of Biochemistry, Moscow,  1961  Vol. 1: Biological Structure and Function at the Molecular Level.  Pergamon Press, pp. 58-60,  1963.

16.       Davies, D.R. & Baldwin, R.L.: X-ray Studies of Two Synthetic DNA Copolymers.  J. Mol. Biol. 6:251-255,  1963.

15.       Gellert, M., Lipsett, M.N. & Davies, D.R.: Helix Formation by Guanylic Acid.  Proc. Natl. Acad. Sci., USA 48:2013-2018,  1962.

14.       Sigler, P.B., Davies, D.R. & Miles, H.T.: A Displacement Reaction Between a Polynucleotide Helix and a Random Coil.  J. Mol. Biol. 5:709-717,  1962.

13.       Crick, F.H.C., Davies, D.R., Rich, A. & Watson, J.D.: The Molecular Structure of Polyadenylic Acid.  J. Mol. Biol. 3:71-86,  1961.               

12.       Davies, D.R.: Polyinosinic Plus Polycytidylic Acid:A Crystalline Poly Nucleotide Complex.  Nature 196:1030-1031,  1960.

11.       Kendrew, J.C., Dickerson, R.E., Strandberg, B.E., Hart, R.G. & Davies, D.R.: Structure of Myoglobin.  Nature 185:422-427, 1960.

10.       Davies, D.R. & Rich, A.: Structure Factor Calculations for Some Helical Polypeptides.  Acta Cryst. 12:97-101,  1959.

9.         Davies, D.R. & Rich, A.: Helical Structure Between Polyinosinic Acid and   Polycytidylic Acid.  J. Amer. Chem. Soc. 80:1003-1004, 1958

8.         Davies, D.R. & Corbridge, D.E.C.: The Structure of Sodium Triphosphate, Na₅P₃O₁₀, Phase II.  Acta Cryst. 11:315-319, 1958.

7.         Felsenfeld, G., Davies, D.R. & Rich, A.: Formation of a Three-Stranded Polynucleotide Molecule.  J. Amer. Chem. Soc. 79:2023-2024, 1957.

6.         Rich, A., Davies, D.R.: A New Two-Stranded Helical Structure: Polyadenylic Acid and Polyuridylic Acid.  J. Amer. Chem. Soc. 78:3548-3549, 1956.

5.         Davies, D.R. & Pasternak, R.: A Refinement of the Crystal Structure of Succinamide.  Acta Cryst. 9:334-340, 1956.

4.         Davies, D.R. & Blum, J.J.: The Crystal Structure of Parabanic Acid.  Acta Cryst. 8:129-136,  1955.

3.         Rollett, J.S. & Davies, D.R.: The Calculation of Structure Factors for Centrosymmetric Monoclinic Systems with Anisotropic Atomic Vibration.  Acta Cryst. 8:125-128,  1955.

2.         Davies, D.R. & Blum, J.J.: The Crystal Structure of Parabanic Acid.  Nature 173:993, 1954.

1.         Davies, D.R. & Powell, H.M.: The Structure of Quinaldil.  Nature 168:386-387, 1951.

 

 

 

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