3lyz Citations

Real-space refinement of the structure of hen egg-white lysozyme.

Diamond R
J Mol Biol 82 371-91 (1974)
Related entries: 1lyz, 2lyz, 4lyz, 5lyz, 6lyz

Cited: 247 times
EuropePMC logo PMID: 4856347

Reviews - 3lyz mentioned but not cited (1)

  1. Biophysical highlights from 54 years of macromolecular crystallography. Richardson JS, Richardson DC. Biophys J 106 510-525 (2014)

Articles - 3lyz mentioned but not cited (3)

  1. Automated NMR Assignment and Protein Structure Determination using Sparse Dipolar Coupling Constraints. Donald BR, Martin J. Prog Nucl Magn Reson Spectrosc 55 101-127 (2009)
  2. NVR-BIP: Nuclear Vector Replacement using Binary Integer Programming for NMR Structure-Based Assignments. Apaydin MS, Çatay B, Patrick N, Donald BR. Comput J 54 708-716 (2011)
  3. Functionalized quinolizinium-based fluorescent reagents for modification of cysteine-containing peptides and proteins. Kung KK, Xu CF, O WY, Yu Q, Chung SF, Tam SY, Leung YC, Wong MK. RSC Adv 12 6248-6254 (2022)


Reviews citing this publication (9)

  1. Hydrogen bonding in globular proteins. Baker EN, Hubbard RE. Prog Biophys Mol Biol 44 97-179 (1984)
  2. What are the dielectric "constants" of proteins and how to validate electrostatic models? Schutz CN, Warshel A. Proteins 44 400-417 (2001)
  3. Protein folding. Némethy G, Scheraga HA. Q Rev Biophys 10 239-252 (1977)
  4. Geometry of nonbonded interactions involving planar groups in proteins. Chakrabarti P, Bhattacharyya R. Prog Biophys Mol Biol 95 83-137 (2007)
  5. Distance geometry and related methods for protein structure determination from NMR data. Braun W. Q Rev Biophys 19 115-157 (1987)
  6. Egg proteins: fractionation, bioactive peptides and allergenicity. Chang C, Lahti T, Tanaka T, Nickerson MT. J Sci Food Agric 98 5547-5558 (2018)
  7. The blind watchmaker and rational protein engineering. Anthonsen HW, Baptista A, Drabløs F, Martel P, Petersen SB. J Biotechnol 36 185-220 (1994)
  8. Proteins in binary solvents. Spinozzi F, Mariani P, Ortore MG. Biophys Rev 8 87-106 (2016)
  9. Structural biology: Past, present, and future. Moore PB. N Biotechnol 38 29-35 (2017)

Articles citing this publication (234)

  1. Theoretical studies of enzymic reactions: dielectric, electrostatic and steric stabilization of the carbonium ion in the reaction of lysozyme. Warshel A, Levitt M. J Mol Biol 103 227-249 (1976)
  2. Solvation energy in protein folding and binding. Eisenberg D, McLachlan AD. Nature 319 199-203 (1986)
  3. Determination of domain structure of proteins from X-ray solution scattering. Svergun DI, Petoukhov MV, Koch MH. Biophys J 80 2946-2953 (2001)
  4. Beta-turns in proteins. Chou PY, Fasman GD. J Mol Biol 115 135-175 (1977)
  5. Protein hydration in solution: experimental observation by x-ray and neutron scattering. Svergun DI, Richard S, Koch MH, Sayers Z, Kuprin S, Zaccai G. Proc Natl Acad Sci U S A 95 2267-2272 (1998)
  6. Do salt bridges stabilize proteins? A continuum electrostatic analysis. Hendsch ZS, Tidor B. Protein Sci 3 211-226 (1994)
  7. Sequential resonance assignments in protein 1H nuclear magnetic resonance spectra. Computation of sterically allowed proton-proton distances and statistical analysis of proton-proton distances in single crystal protein conformations. Billeter M, Braun W, Wüthrich K. J Mol Biol 155 321-346 (1982)
  8. Structure of the complex formed by bovine trypsin and bovine pancreatic trypsin inhibitor. II. Crystallographic refinement at 1.9 A resolution. Huber R, Kukla D, Bode W, Schwager P, Bartels K, Deisenhofer J, Steigemann W. J Mol Biol 89 73-101 (1974)
  9. The refined structure of the selenoenzyme glutathione peroxidase at 0.2-nm resolution. Epp O, Ladenstein R, Wendel A. Eur J Biochem 133 51-69 (1983)
  10. Structure of human oxyhaemoglobin at 2.1 A resolution. Shaanan B. J Mol Biol 171 31-59 (1983)
  11. Crystallographic refinement and atomic models of the intact immunoglobulin molecule Kol and its antigen-binding fragment at 3.0 A and 1.0 A resolution. Marquart M, Deisenhofer J, Huber R, Palm W. J Mol Biol 141 369-391 (1980)
  12. 3V: cavity, channel and cleft volume calculator and extractor. Voss NR, Gerstein M. Nucleic Acids Res 38 W555-62 (2010)
  13. Structure and refinement of oxymyoglobin at 1.6 A resolution. Phillips SE. J Mol Biol 142 531-554 (1980)
  14. Structure of an antibody-antigen complex: crystal structure of the HyHEL-10 Fab-lysozyme complex. Padlan EA, Silverton EW, Sheriff S, Cohen GH, Smith-Gill SJ, Davies DR. Proc Natl Acad Sci U S A 86 5938-5942 (1989)
  15. Novel computer program for fast exact calculation of accessible and molecular surface areas and average surface curvature. Tsodikov OV, Record MT, Sergeev YV. J Comput Chem 23 600-609 (2002)
  16. The refined crystal structure of bovine beta-trypsin at 1.8 A resolution. II. Crystallographic refinement, calcium binding site, benzamidine binding site and active site at pH 7.0. Bode W, Schwager P. J Mol Biol 98 693-717 (1975)
  17. Structure of myoglobin refined at 2-0 A resolution. I. Crystallographic refinement of metmyoglobin from sperm whale. Takano T. J Mol Biol 110 537-568 (1977)
  18. Structure of bovine pancreatic phospholipase A2 at 1.7A resolution. Dijkstra BW, Kalk KH, Hol WG, Drenth J. J Mol Biol 147 97-123 (1981)
  19. TESS: a geometric hashing algorithm for deriving 3D coordinate templates for searching structural databases. Application to enzyme active sites. Wallace AC, Borkakoti N, Thornton JM. Protein Sci 6 2308-2323 (1997)
  20. Crystallographic studies of the dynamic properties of lysozyme. Artymiuk PJ, Blake CC, Grace DE, Oatley SJ, Phillips DC, Sternberg MJ. Nature 280 563-568 (1979)
  21. Refinement of the structure of carp muscle calcium-binding parvalbumin by model building and difference Fourier analysis. Moews PC, Kretsinger RH. J Mol Biol 91 201-225 (1975)
  22. Three-dimensional fourier synthesis of human deoxyhaemoglobin at 2-5 A resolution: refinement of the atomic model. Fermi G. J Mol Biol 97 237-256 (1975)
  23. Structure of oxidized poplar plastocyanin at 1.6 A resolution. Guss JM, Freeman HC. J Mol Biol 169 521-563 (1983)
  24. Factors determining the selectivity of protein tyrosine nitration. Souza JM, Daikhin E, Yudkoff M, Raman CS, Ischiropoulos H. Arch Biochem Biophys 371 169-178 (1999)
  25. Three-dimensional electron crystallography of protein microcrystals. Shi D, Nannenga BL, Iadanza MG, Gonen T. Elife 2 e01345 (2013)
  26. Crystallographic refinement of yeast phenylalanine transfer RNA at 2-5A resolution. Jack A, Ladner JE, Klug A. J Mol Biol 108 619-649 (1976)
  27. "Soft docking": matching of molecular surface cubes. Jiang F, Kim SH. J Mol Biol 219 79-102 (1991)
  28. The hinge-bending mode in lysozyme. McCammon JA, Gelin BR, Karplus M, Wolynes PG. Nature 262 325-326 (1976)
  29. Structure of erythrocruorin in different ligand states refined at 1.4 A resolution. Steigemann W, Weber E. J Mol Biol 127 309-338 (1979)
  30. Structure of holo-glyceraldehyde-3-phosphate dehydrogenase from Bacillus stearothermophilus at 1.8 A resolution. Skarzyński T, Moody PC, Wonacott AJ. J Mol Biol 193 171-187 (1987)
  31. The transition of bovine trypsinogen to a trypsin-like state upon strong ligand binding. The refined crystal structures of the bovine trypsinogen-pancreatic trypsin inhibitor complex and of its ternary complex with Ile-Val at 1.9 A resolution. Bode W, Schwager P, Huber R. J Mol Biol 118 99-112 (1978)
  32. Structure of myoglobin refined at 2-0 A resolution. II. Structure of deoxymyoglobin from sperm whale. Takano T. J Mol Biol 110 569-584 (1977)
  33. On the nature of cavities on protein surfaces: application to the identification of drug-binding sites. Nayal M, Honig B. Proteins 63 892-906 (2006)
  34. Refinement of human lysozyme at 1.5 A resolution analysis of non-bonded and hydrogen-bond interactions. Artymiuk PJ, Blake CC. J Mol Biol 152 737-762 (1981)
  35. Analytical shape computation of macromolecules: I. Molecular area and volume through alpha shape. Liang J, Edelsbrunner H, Fu P, Sudhakar PV, Subramaniam S. Proteins 33 1-17 (1998)
  36. The structure of horse methaemoglobin at 2-0 A resolution. Ladner RC, Heidner EJ, Perutz MF. J Mol Biol 114 385-414 (1977)
  37. Energy refinement of hen egg-white lysozyme. Levitt M. J Mol Biol 82 393-420 (1974)
  38. Crystal structure of bovine trypsinogen at 1-8 A resolution. II. Crystallographic refinement, refined crystal structure and comparison with bovine trypsin. Fehlhammer H, Bode W, Huber R. J Mol Biol 111 415-438 (1977)
  39. Structure of the semiquinone form of flavodoxin from Clostridum MP. Extension of 1.8 A resolution and some comparisons with the oxidized state. Smith WW, Burnett RM, Darling GD, Ludwig ML. J Mol Biol 117 195-225 (1977)
  40. Crystal structure analyses of reduced (CuI) poplar plastocyanin at six pH values. Guss JM, Harrowell PR, Murata M, Norris VA, Freeman HC. J Mol Biol 192 361-387 (1986)
  41. Structure of the active ternary complex of pig heart lactate dehydrogenase with S-lac-NAD at 2.7 A resolution. Grau UM, Trommer WE, Rossmann MG. J Mol Biol 151 289-307 (1981)
  42. The structure of human carbonmonoxy haemoglobin at 2.7 A resolution. Baldwin JM. J Mol Biol 136 103-128 (1980)
  43. Low-resolution structures of proteins in solution retrieved from X-ray scattering with a genetic algorithm. Chacón P, Morán F, Díaz JF, Pantos E, Andreu JM. Biophys J 74 2760-2775 (1998)
  44. Molecular dynamics of native protein. II. Analysis and nature of motion. Levitt M. J Mol Biol 168 621-657 (1983)
  45. Domain motions in bacteriophage T4 lysozyme: a comparison between molecular dynamics and crystallographic data. de Groot BL, Hayward S, van Aalten DM, Amadei A, Berendsen HJ. Proteins 31 116-127 (1998)
  46. New algorithm to model protein-protein recognition based on surface complementarity. Applications to antibody-antigen docking. Walls PH, Sternberg MJ. J Mol Biol 228 277-297 (1992)
  47. Improving the accuracy of protein pKa calculations: conformational averaging versus the average structure. van Vlijmen HW, Schaefer M, Karplus M. Proteins 33 145-158 (1998)
  48. Dynamic information from protein crystallography. An analysis of temperature factors from refinement of the hen egg-white lysozyme structure. Sternberg MJ, Grace DE, Phillips DC. J Mol Biol 130 231-252 (1979)
  49. A droplet-based, composite PDMS/glass capillary microfluidic system for evaluating protein crystallization conditions by microbatch and vapor-diffusion methods with on-chip X-ray diffraction. Zheng B, Tice JD, Roach LS, Ismagilov RF. Angew Chem Int Ed Engl 43 2508-2511 (2004)
  50. Sequencing a protein by x-ray crystallography. II. Refinement of yeast hexokinase B co-ordinates and sequence at 2.1 A resolution. Anderson CM, Stenkamp RE, Steitz TA. J Mol Biol 123 15-33 (1978)
  51. The atomic structure of crystalline porcine pancreatic elastase at 2.5 A resolution: comparisons with the structure of alpha-chymotrypsin. Sawyer L, Shotton DM, Campbell JW, Wendell PL, Muirhead H, Watson HC. J Mol Biol 118 137-208 (1978)
  52. A comparison of the structures of apo dogfish M4 lactate dehydrogenase and its ternary complexes. White JL, Hackert ML, Buehner M, Adams MJ, Ford GC, Lentz PJ, Smiley IE, Steindel SJ, Rossmann MG. J Mol Biol 102 759-779 (1976)
  53. Goose lysozyme structure: an evolutionary link between hen and bacteriophage lysozymes? Grütter MG, Weaver LH, Matthews BW. Nature 303 828-831 (1983)
  54. Protein-protein recognition analyzed by docking simulation. Cherfils J, Duquerroy S, Janin J. Proteins 11 271-280 (1991)
  55. Refined crystal structure of gamma-chymotrypsin at 1.9 A resolution. Comparison with other pancreatic serine proteases. Cohen GH, Silverton EW, Davies DR. J Mol Biol 148 449-479 (1981)
  56. Structural analysis, identification, and design of calcium-binding sites in proteins. Yang W, Lee HW, Hellinga H, Yang JJ. Proteins 47 344-356 (2002)
  57. Influence of hydration on the dynamics of lysozyme. Roh JH, Curtis JE, Azzam S, Novikov VN, Peral I, Chowdhuri Z, Gregory RB, Sokolov AP. Biophys J 91 2573-2588 (2006)
  58. Detailed ab initio prediction of lysozyme-antibody complex with 1.6 A accuracy. Totrov M, Abagyan R. Nat Struct Biol 1 259-263 (1994)
  59. Absence of equilibrium cluster phase in concentrated lysozyme solutions. Shukla A, Mylonas E, Di Cola E, Finet S, Timmins P, Narayanan T, Svergun DI. Proc Natl Acad Sci U S A 105 5075-5080 (2008)
  60. Novel method for the rapid evaluation of packing in protein structures. Gregoret LM, Cohen FE. J Mol Biol 211 959-974 (1990)
  61. Hemoglobin tertiary structural change on ligand binding. Its role in the co-operative mechanism. Gelin BR, Lee AW, Karplus M. J Mol Biol 171 489-559 (1983)
  62. Redox conformation changes in refined tuna cytochrome c. Takano T, Dickerson RE. Proc Natl Acad Sci U S A 77 6371-6375 (1980)
  63. General architecture of the alpha-helical globule. Murzin AG, Finkelstein AV. J Mol Biol 204 749-769 (1988)
  64. Ambiguity assessment of small-angle scattering curves from monodisperse systems. Petoukhov MV, Svergun DI. Acta Crystallogr D Biol Crystallogr 71 1051-1058 (2015)
  65. The single calcium-binding site of crystallin bovin beta-trypsin. Bode W, Schwager P. FEBS Lett 56 139-143 (1975)
  66. Addition of missing loops and domains to protein models by x-ray solution scattering. Petoukhov MV, Eady NA, Brown KA, Svergun DI. Biophys J 83 3113-3125 (2002)
  67. An analysis of side-chain conformation in proteins. Bhat TN, Sasisekharan V, Vijayan M. Int J Pept Protein Res 13 170-184 (1979)
  68. The microcontact imprinting of proteins: the effect of cross-linking monomers for lysozyme, ribonuclease A and myoglobin. Lin HY, Hsu CY, Thomas JL, Wang SE, Chen HC, Chou TC. Biosens Bioelectron 22 534-543 (2006)
  69. Protein dynamics derived from clusters of crystal structures. van Aalten DM, Conn DA, de Groot BL, Berendsen HJ, Findlay JB, Amadei A. Biophys J 73 2891-2896 (1997)
  70. Characterization of multiple bends in proteins. Isogai Y, Némethy G, Rackovsky S, Leach SJ, Scheraga HA. Biopolymers 19 1183-1210 (1980)
  71. Combining structure and dynamics: non-denaturing high-pressure effect on lysozyme in solution. Ortore MG, Spinozzi F, Mariani P, Paciaroni A, Barbosa LR, Amenitsch H, Steinhart M, Ollivier J, Russo D. J R Soc Interface 6 Suppl 5 S619-34 (2009)
  72. Crystallization, crystal structure analysis and molecular model of the third domain of Japanese quail ovomucoid, a Kazal type inhibitor. Weber E, Papamokos E, Bode W, Huber R, Kato I, Laskowski M. J Mol Biol 149 109-123 (1981)
  73. Docking by least-squares fitting of molecular surface patterns. Bacon DJ, Moult J. J Mol Biol 225 849-858 (1992)
  74. Structure analysis and molecular model of the selenoenzyme glutathione peroxidase at 2.8 A resolution. Ladenstein R, Epp O, Bartels K, Jones A, Huber R, Wendel A. J Mol Biol 134 199-218 (1979)
  75. Structure of a complex between yeast hexokinase A and glucose. I. Structure determination and refinement at 3.5 A resolution. Bennett WS, Steitz TA. J Mol Biol 140 183-209 (1980)
  76. The structure of triclinic lysozyme at 2-5 A resolution. Moult J, Yonath A, Traub W, Smilansky A, Podjarny A, Rabinovich D, Saya A. J Mol Biol 100 179-195 (1976)
  77. ESCHER: a new docking procedure applied to the reconstruction of protein tertiary structure. Ausiello G, Cesareni G, Helmer-Citterich M. Proteins 28 556-567 (1997)
  78. Application of 1H NMR chemical shifts to measure the quality of protein structures. Williamson MP, Kikuchi J, Asakura T. J Mol Biol 247 541-546 (1995)
  79. Quantitative Protein Topography Measurements by High Resolution Hydroxyl Radical Protein Footprinting Enable Accurate Molecular Model Selection. Xie B, Sood A, Woods RJ, Sharp JS. Sci Rep 7 4552 (2017)
  80. Modeling the hydration layer around proteins: applications to small- and wide-angle x-ray scattering. Virtanen JJ, Makowski L, Sosnick TR, Freed KF. Biophys J 101 2061-2069 (2011)
  81. Electrostatic forces in two lysozymes: calculations and measurements of histidine pKa values. Takahashi T, Nakamura H, Wada A. Biopolymers 32 897-909 (1992)
  82. Molecular structure of the alpha-lytic protease from Myxobacter 495 at 2.8 Angstroms resolution. Brayer GD, Delbaere LT, James MN. J Mol Biol 131 743-775 (1979)
  83. Multigrid solution of the nonlinear Poisson-Boltzmann equation and calculation of titration curves. Oberoi H, Allewell NM. Biophys J 65 48-55 (1993)
  84. Relationship between mutability, polarity and exteriority of amino acid residues in protein evolution. Go M, Miyazawa S. Int J Pept Protein Res 15 211-224 (1980)
  85. A 45-Amino-Acid Scaffold Mined from the PDB for High-Affinity Ligand Engineering. Kruziki MA, Bhatnagar S, Woldring DR, Duong VT, Hackel BJ. Chem Biol 22 946-956 (2015)
  86. Effect of buffer cations and of H3O+ on the charge states of native proteins. Significance to determinations of stability constants of protein complexes. Verkerk UH, Peschke M, Kebarle P. J Mass Spectrom 38 618-631 (2003)
  87. Interior turns in globular proteins. Rose GD, Young WB, Gierasch LM. Nature 304 654-657 (1983)
  88. Protein conformation from electron spin relaxation data. Allen JP, Colvin JT, Stinson DG, Flynn CP, Stapleton HJ. Biophys J 38 299-310 (1982)
  89. An Insight into the pathway of the amyloid fibril formation of hen egg white lysozyme obtained from a small-angle X-ray and neutron scattering study. Yonezawa Y, Tanaka S, Kubota T, Wakabayashi K, Yutani K, Fujiwara S. J Mol Biol 323 237-251 (2002)
  90. A general method to assess similarity of protein structures, with applications to T4 bacteriophage lysozyme. Remington SJ, Matthews BW. Proc Natl Acad Sci U S A 75 2180-2184 (1978)
  91. Self-interaction chromatography: a tool for the study of protein-protein interactions in bioprocessing environments. Patro SY, Przybycien TM. Biotechnol Bioeng 52 193-203 (1996)
  92. The structure of the complex formed by bovine trypsin and bovine pancreatic trypsin inhibitor III. Structure of the anhydro-trypsin-inhibitor complex. Huber R, Bode W, Kukla D, Kohl U, Ryan CA. Biophys Struct Mech 1 189-201 (1975)
  93. Calculation of translational friction and intrinsic viscosity. II. Application to globular proteins. Zhou XZ. Biophys J 69 2298-2303 (1995)
  94. Computation of the dipole moments of proteins. Antosiewicz J. Biophys J 69 1344-1354 (1995)
  95. Modeling the hydration layer around proteins: HyPred. Virtanen JJ, Makowski L, Sosnick TR, Freed KF. Biophys J 99 1611-1619 (2010)
  96. Preferential hydration of lysozyme in water/glycerol mixtures: a small-angle neutron scattering study. Sinibaldi R, Ortore MG, Spinozzi F, Carsughi F, Frielinghaus H, Cinelli S, Onori G, Mariani P. J Chem Phys 126 235101 (2007)
  97. Unusual conformation of nicotinamide adenine dinucleotide (NAD) bound to diphtheria toxin: a comparison with NAD bound to the oxidoreductase enzymes. Bell CE, Yeates TO, Eisenberg D. Protein Sci 6 2084-2096 (1997)
  98. Crystal structure of NAD-dependent formate dehydrogenase. Lamzin VS, Aleshin AE, Strokopytov BV, Yukhnevich MG, Popov VO, Harutyunyan EH, Wilson KS. Eur J Biochem 206 441-452 (1992)
  99. Crystal structure of the human Fab fragment Kol and its comparison with the intact Kol molecule. Matsushima M, Marquart M, Jones TA, Colman PM, Bartels K, Huber R. J Mol Biol 121 441-459 (1978)
  100. Exploring protein sequence space using knowledge-based potentials. Babajide A, Farber R, Hofacker IL, Inman J, Lapedes AS, Stadler PF. J Theor Biol 212 35-46 (2001)
  101. Mapping the surface properties of macromolecules. Chapman MS. Protein Sci 2 459-469 (1993)
  102. Prediction of pKa shifts in proteins using a combination of molecular mechanical and continuum solvent calculations. Kuhn B, Kollman PA, Stahl M. J Comput Chem 25 1865-1872 (2004)
  103. Two cis-prolines in the Bence-Jones protein Rei and the cis-pro-bend. Huber R, Steigemann W. FEBS Lett 48 235-237 (1974)
  104. A spectral deciphering of the binding interaction of an intramolecular charge transfer fluorescence probe with a cationic protein: thermodynamic analysis of the binding phenomenon combined with blind docking study. Paul BK, Guchhait N. Photochem Photobiol Sci 10 980-991 (2011)
  105. Dynamics of the aromatic amino acid residues in the globular conformation of the basic pancreatic trypsin inhibitor (BPTI). II. Semi-empirical energy calculations. Hetzel R, Wüthrich K, Deisenhofer J, Huber R. Biophys Struct Mech 2 159-180 (1976)
  106. Crystal structure of the lysozyme from bacteriophage lambda and its relationship with V and C-type lysozymes. Evrard C, Fastrez J, Declercq JP. J Mol Biol 276 151-164 (1998)
  107. Stereochemistry of carbon monoxide binding to normal human adult and Cowtown haemoglobins. Derewenda Z, Dodson G, Emsley P, Harris D, Nagai K, Perutz M, Renaud JP. J Mol Biol 211 515-519 (1990)
  108. Towards a molecular level understanding of protein stabilization: the interaction between lysozyme and sorbitol. Wimmer H, Olsson M, Petersen MT, Hatti-Kaul R, Peterson SB, Müller N. J Biotechnol 55 85-100 (1997)
  109. A three-dimensional model of an anti-lysozyme antibody. Smith-Gill SJ, Mainhart C, Lavoie TB, Feldmann RJ, Drohan W, Brooks BR. J Mol Biol 194 713-724 (1987)
  110. An expectation/maximization nuclear vector replacement algorithm for automated NMR resonance assignments. Langmead CJ, Donald BR. J Biomol NMR 29 111-138 (2004)
  111. Basis of Protein Stabilization by K Glutamate: Unfavorable Interactions with Carbon, Oxygen Groups. Cheng X, Guinn EJ, Buechel E, Wong R, Sengupta R, Shkel IA, Record MT. Biophys J 111 1854-1865 (2016)
  112. Crystal structure analysis and refinement of two variants of trigonal trypsinogen: trigonal trypsin and PEG (polyethylene glycol) trypsinogen and their comparison with orthorhombic trypsin and trigonal trypsinogen. Bode W, Huber R. FEBS Lett 90 265-269 (1978)
  113. Fast-SAXS-pro: a unified approach to computing SAXS profiles of DNA, RNA, protein, and their complexes. Ravikumar KM, Huang W, Yang S. J Chem Phys 138 024112 (2013)
  114. The Anti-sigma Factor RsiV Is a Bacterial Receptor for Lysozyme: Co-crystal Structure Determination and Demonstration That Binding of Lysozyme to RsiV Is Required for σV Activation. Hastie JL, Williams KB, Bohr LL, Houtman JC, Gakhar L, Ellermeier CD. PLoS Genet 12 e1006287 (2016)
  115. Lysozyme fragmentation induced by gamma-radiolysis. Filali-Mouhim A, Audette M, St-Louis M, Thauvette L, Denoroy L, Penin F, Chen X, Rouleau N, Le Caer JP, Rossier J, Potier M, Le Maire M. Int J Radiat Biol 72 63-70 (1997)
  116. Protein-encapsulated gold cluster aggregates: the case of lysozyme. Baksi A, Xavier PL, Chaudhari K, Goswami N, Pal SK, Pradeep T. Nanoscale 5 2009-2016 (2013)
  117. Molecular cartography of globular proteins with application to antigenic sites. Fanning DW, Smith JA, Rose GD. Biopolymers 25 863-883 (1986)
  118. Conformational flexibility in protein molecules. Huber R. Nature 280 538-539 (1979)
  119. Extending the capabilities of targeted molecular dynamics: simulation of a large conformational transition in plasminogen activator inhibitor 1. Krüger P, Verheyden S, Declerck PJ, Engelborghs Y. Protein Sci 10 798-808 (2001)
  120. Structure and dynamics of the neutrophil defensins NP-2, NP-5, and HNP-1: NMR studies of amide hydrogen exchange kinetics. Skalicky JJ, Selsted ME, Pardi A. Proteins 20 52-67 (1994)
  121. Consistent picture of the reversible thermal unfolding of hen egg-white lysozyme from experiment and molecular dynamics. Meersman F, Atilgan C, Miles AJ, Bader R, Shang W, Matagne A, Wallace BA, Koch MH. Biophys J 99 2255-2263 (2010)
  122. Pf1 Inovirus. Electron density distribution calculated by a maximum entropy algorithm from native fibre diffraction data to 3 A resolution and single isomorphous replacement data to 5 A resolution. Marvin DA, Bryan RK, Nave C. J Mol Biol 193 315-343 (1987)
  123. Challenges in computational studies of enzyme structure, function and dynamics. Carvalho AT, Barrozo A, Doron D, Kilshtain AV, Major DT, Kamerlin SC. J Mol Graph Model 54 62-79 (2014)
  124. Rapid calculation of the solution scattering profile from a macromolecule of known structure. Lattman EE. Proteins 5 149-155 (1989)
  125. The binding of monosaccharide inhibitors to hen egg-white lysozyme by proton magnetic resonance at 270 MHz and analysis by ring-current calculations. Perkins SJ, Johnson LN, Phillips DC, Dwek RA. Biochem J 193 553-572 (1981)
  126. Structural Characterization of the Complex between Hen Egg-White Lysozyme and Zr(IV) -Substituted Keggin Polyoxometalate as Artificial Protease. Sap A, De Zitter E, Van Meervelt L, Parac-Vogt TN. Chemistry 21 11692-11695 (2015)
  127. Unraveling Comparative Anti-Amyloidogenic Behavior of Pyrazinamide and D-Cycloserine: A Mechanistic Biophysical Insight. Chaturvedi SK, Zaidi N, Alam P, Khan JM, Qadeer A, Siddique IA, Asmat S, Zaidi Y, Khan RH. PLoS One 10 e0136528 (2015)
  128. Atomic size packing defects in proteins. Connolly ML. Int J Pept Protein Res 28 360-363 (1986)
  129. Crystal structure of demetallized concanavalin A: the metal-binding region. Shoham M, Yonath A, Sussman JL, Moult J, Traub W, Kalb AJ. J Mol Biol 131 137-155 (1979)
  130. Energy minimizations of rubredoxin. Ferro DR, McQueen JE, McCown JT, Hermans J. J Mol Biol 136 1-18 (1980)
  131. Limited proteolysis of lysozyme in trifluoroethanol. Isolation and characterization of a partially active enzyme derivative. Polverino de Laureto P, De Filippis V, Scaramella E, Zambonin M, Fontana A. Eur J Biochem 230 779-787 (1995)
  132. Molecular mechanisms of pressure induced conformational changes in BPTI. Wroblowski B, Díaz JF, Heremans K, Engelborghs Y. Proteins 25 446-455 (1996)
  133. Quantifying Protein-Protein Interactions in Molecular Simulations. Jost Lopez A, Quoika PK, Linke M, Hummer G, Köfinger J. J Phys Chem B 124 4673-4685 (2020)
  134. Incorporation of styrene enhances recognition of ribonuclease A by molecularly imprinted polymers. Hsu CY, Lin HY, Thomas JL, Wu BT, Chou TC. Biosens Bioelectron 22 355-363 (2006)
  135. Protein compatibility of selected cross-linking reactions for hydrogels. Hammer N, Brandl FP, Kirchhof S, Messmann V, Goepferich AM. Macromol Biosci 15 405-413 (2015)
  136. Radical directed dissociation for facile identification of iodotyrosine residues using electrospray ionization mass spectrometry. Sun Q, Yin S, Loo JA, Julian RR. Anal Chem 82 3826-3833 (2010)
  137. The hydration of proteins in nearly anhydrous organic solvent suspensions. McMinn JH, Sowa MJ, Charnick SB, Paulaitis ME. Biopolymers 33 1213-1224 (1993)
  138. Antibody BCF2 against scorpion toxin Cn2 from Centuroides noxius Hoffmann: primary structure and three-dimensional model as free Fv fragment and complexed with its antigen. Selisko B, Licea AF, Becerril B, Zamudio F, Possani LD, Horjales E. Proteins 37 130-143 (1999)
  139. Experimental phasing using zinc anomalous scattering. Cha SS, An YJ, Jeong CS, Kim MK, Lee SG, Lee KH, Oh BH. Acta Crystallogr D Biol Crystallogr 68 1253-1258 (2012)
  140. Nanoscale spatially resolved infrared spectra from single microdroplets. Müller T, Ruggeri FS, Kulik AJ, Shimanovich U, Mason TO, Knowles TP, Dietler G. Lab Chip 14 1315-1319 (2014)
  141. Performance of the new biological small- and wide-angle X-ray scattering beamline 13A at the Taiwan Photon Source. Shih O, Liao KF, Yeh YQ, Su CJ, Wang CA, Chang JW, Wu WR, Liang CC, Lin CY, Lee TH, Chang CH, Chiang LC, Chang CF, Liu DG, Lee MH, Liu CY, Hsu TW, Mansel B, Ho MC, Shu CY, Lee F, Yen E, Lin TC, Jeng U. J Appl Crystallogr 55 340-352 (2022)
  142. Preferential solvation of lysozyme in water/ethanol mixtures. Ortore MG, Mariani P, Carsughi F, Cinelli S, Onori G, Teixeira J, Spinozzi F. J Chem Phys 135 245103 (2011)
  143. Probing the weak interaction of proteins with neutral and zwitterionic antifouling polymers. Wu J, Zhao C, Hu R, Lin W, Wang Q, Zhao J, Bilinovich SM, Leeper TC, Li L, Cheung HM, Chen S, Zheng J. Acta Biomater 10 751-760 (2014)
  144. Solvent effect in protein crystals. A neutron diffraction analysis of solvent and ion density. Schoenborn BP. J Mol Biol 201 741-749 (1988)
  145. The new NCPSS BL19U2 beamline at the SSRF for small-angle X-ray scattering from biological macromolecules in solution. Li N, Li X, Wang Y, Liu G, Zhou P, Wu H, Hong C, Bian F, Zhang R. J Appl Crystallogr 49 1428-1432 (2016)
  146. Extensive tests and evaluation of the CHARMM36IDPSFF force field for intrinsically disordered proteins and folded proteins. Liu H, Song D, Zhang Y, Yang S, Luo R, Chen HF. Phys Chem Chem Phys 21 21918-21931 (2019)
  147. Ribosomal protein L7/L12 has a helix-turn-helix motif similar to that found in DNA-binding regulatory proteins. Rice PA, Steitz TA. Nucleic Acids Res 17 3757-3762 (1989)
  148. A fast unbiased comparison of protein structures by means of the Needleman-Wunsch algorithm. Rose J, Eisenmenger F. J Mol Evol 32 340-354 (1991)
  149. A polynomial-time nuclear vector replacement algorithm for automated NMR resonance assignments. Langmead CJ, Yan A, Lilien R, Wang L, Donald BR. J Comput Biol 11 277-298 (2004)
  150. Crystal structures of egg-white lysozyme of hen in acetate-free medium and of lysozyme complexes with N-acetylglucosamine and beta-methyl N-acetylglucosaminide. Perkins SJ, Johnson LN, Machin PA, Phillips DC. Biochem J 173 607-616 (1978)
  151. Automatic recognition of hydrophobic clusters and their correlation with protein folding units. Zehfus MH. Protein Sci 4 1188-1202 (1995)
  152. Experimental and computational surface hydrophobicity analysis of a non-enveloped virus and proteins. Heldt CL, Zahid A, Vijayaragavan KS, Mi X. Colloids Surf B Biointerfaces 153 77-84 (2017)
  153. Modeling the hydration of proteins: prediction of structural and hydrodynamic parameters from X-ray diffraction and scattering data. Durchschlag H, Zipper P. Eur Biophys J 32 487-502 (2003)
  154. Molecular structure of crystalline Streptomyces griseus protease A at 2.8 A resolution. I. Crystallization, data collection and structural analysis. Brayer GD, Delbaere LT, James MN. J Mol Biol 124 243-259 (1978)
  155. Structure and binding properties of hen lysozyme modified at tryptophan 62. Blake CC, Cassels R, Dobson CM, Poulsen FM, Williams RJ, Wilson KS. J Mol Biol 147 73-95 (1981)
  156. The chiroptical properties of proteins. II. Near-ultraviolet circular dichroism of lysozyme. Goux WJ, Hooker TM. Biopolymers 19 2191-2208 (1980)
  157. Chelerythrine-lysozyme interaction: spectroscopic studies, thermodynamics and molecular modeling exploration. Jash C, Basu P, Payghan PV, Ghoshal N, Kumar GS. Phys Chem Chem Phys 17 16630-16645 (2015)
  158. Improved calculations of compactness and a reevaluation of continuous compact units. Zehfus MH. Proteins 16 293-300 (1993)
  159. Protein-Assisted Formation and Stabilization of Catalytically Active Polyoxometalate Species. Vandebroek L, De Zitter E, Ly HGT, Conić D, Mihaylov T, Sap A, Proost P, Pierloot K, Van Meervelt L, Parac-Vogt TN. Chemistry 24 10099-10108 (2018)
  160. Conformational changes, dynamics and assignments in 1H NMR studies of proteins using ring current calculations. Hen egg white lysozyme. Perkins SJ, Johnson LN, Phillips DC, Dwek RA. FEBS Lett 82 17-22 (1977)
  161. Crystallographic and kinetic investigations of the covalent complex formed by a specific tetrapeptide aldehyde and the serine protease from Streptomyces griseus. Brayer GD, Delbaere LT, James MN, Bauer CA, Thompson RC. Proc Natl Acad Sci U S A 76 96-100 (1979)
  162. Effects of ionic strength on SAXS data for proteins revealed by molecular dynamics simulations. Oroguchi T, Ikeguchi M. J Chem Phys 134 025102 (2011)
  163. Logical analysis of the mechanism of protein folding III. Prediction of the strong long-range interactions. Nagano K, Hasegawa K. J Mol Biol 94 257-281 (1975)
  164. A new tool for the qualitative and quantitative analysis of protein surfaces using B-spline and density of surface neighborhood. Colloc'h N, Mornon JP. J Mol Graph 8 133-40, 146 (1990)
  165. Binding of brilliant red compound to lysozyme: insights into the enzyme toxicity of water-soluble aromatic chemicals. Chen FF, Tang YN, Wang SL, Gao HW. Amino Acids 36 399-407 (2009)
  166. Crystal structures of hen egg-white lysozyme complexes with gadolinium(III) and gadolinium(III)-N-acetyl-D-glucosamine. Perkins SJ, Johnson LN, Machin PA, Phillips DC. Biochem J 181 21-36 (1979)
  167. High throughput screening using acoustic droplet ejection to combine protein crystals and chemical libraries on crystallization plates at high density. Teplitsky E, Joshi K, Ericson DL, Scalia A, Mullen JD, Sweet RM, Soares AS. J Struct Biol 191 49-58 (2015)
  168. Protein crystal structures: quicker, cheaper approaches. Collins DM, Cotton FA, Hazen EE, Meyer EF, Morimoto CN. Science 190 1047-1053 (1975)
  169. Spectroscopic and Molecular Docking Investigation on the Noncovalent Interaction of Lysozyme with Saffron Constituent "Safranal". Ali MS, Al-Lohedan HA. ACS Omega 5 9131-9141 (2020)
  170. The effect of salt on self-assembled actin-lysozyme complexes. Guáqueta C, Sanders LK, Wong GC, Luijten E. Biophys J 90 4630-4638 (2006)
  171. 1H-NMR analysis of turkey egg-white lysozyme and comparison with hen egg-white lysozyme. Bartik K, Dobson CM, Redfield C. Eur J Biochem 215 255-266 (1993)
  172. Gallic acid induced dose dependent inhibition of lysozyme fibrillation. Konar M, Bag S, Roy P, Dasgupta S. Int J Biol Macromol 103 1224-1231 (2017)
  173. Investigating acid-induced structural transitions of lysozyme in an electrospray ionization source. Lee JW, Kim HI. Analyst 140 661-669 (2015)
  174. Lysozyme Photochemistry as a Function of Temperature. The Protective Effect of Nanoparticles on Lysozyme Photostability. Oliveira Silva C, Petersen SB, Pinto Reis C, Rijo P, Molpeceres J, Vorum H, Neves-Petersen MT. PLoS One 10 e0144454 (2015)
  175. Simulation of the activation of alpha-chymotrypsin: analysis of the pathway and role of the propeptide. Mátrai J, Verheyden G, Krüger P, Engelborghs Y. Protein Sci 13 3139-3150 (2004)
  176. Simulations of nucleation and early growth stages of protein crystals. Kierzek AM, Wolf WM, Zielenkiewicz P. Biophys J 73 571-580 (1997)
  177. Structures of partridge egg-white lysozyme with and without tri-N-acetylchitotriose inhibitor at 1.9 A resolution. Turner MA, Howell PL. Protein Sci 4 442-449 (1995)
  178. Voronoi polyhedra as structure probes in large molecular systems. David CW. Biopolymers 27 339-344 (1988)
  179. Assembly of Multicomponent Nano-Bioconjugates Composed of Mesoporous Silica Nanoparticles, Proteins, and Gold Nanoparticles. Delpiano GR, Casula MF, Piludu M, Corpino R, Ricci PC, Vallet-Regí M, Sanjust E, Monduzzi M, Salis A. ACS Omega 4 11044-11052 (2019)
  180. Electron paramagnetic resonance spectroscopy of Cu2+ in hen egg-white lysozyme. Hutchison CA, Singel DJ, Hadad MN, Kemple MD. Proc Natl Acad Sci U S A 77 5243-5247 (1980)
  181. Formation of amyloid fibrils from β-amylase. Luo JC, Wang SC, Jian WB, Chen CH, Tang JL, Lee CI. FEBS Lett 586 680-685 (2012)
  182. Modification of Martini force field for molecular dynamics simulation of hydrophobic charge induction chromatography of lysozyme. Zhang L, Bai S, Sun Y. J Mol Graph Model 29 906-914 (2011)
  183. The structure and dipole moment of globular proteins in solution and crystalline states: use of NMR and X-ray databases for the numerical calculation of dipole moment. Takashima S. Biopolymers 58 398-409 (2001)
  184. Unraveling low-resolution structural data of large biomolecules by constructing atomic models with experiment-targeted parallel cascade selection simulations. Peng J, Zhang Z. Sci Rep 6 29360 (2016)
  185. A linear relationship between crystal size and fragment binding time observed crystallographically: implications for fragment library screening using acoustic droplet ejection. Cole K, Roessler CG, Mulé EA, Benson-Xu EJ, Mullen JD, Le BA, Tieman AM, Birone C, Brown M, Hernandez J, Neff S, Williams D, Allaire M, Orville AM, Sweet RM, Soares AS. PLoS One 9 e101036 (2014)
  186. Analysis of protein crystallographic structural data. II. Analysis of theta and delta parameters on some proteins. Srinivasan R, Balasubramanian R, Rajan SS. J Theor Biol 67 299-312 (1977)
  187. Direct observation of the ZrIV interaction with the carboxamide bond in a noncovalent complex between Hen Egg White Lysozyme and a Zr-substituted Keggin polyoxometalate. Vandebroek L, Van Meervelt L, Parac-Vogt TN. Acta Crystallogr C Struct Chem 74 1348-1354 (2018)
  188. FT-IR observation of covalent labelling of lysozyme crystals by organometallic complexes of transition metals. Egan D, Salmain M, McArdle P, Jaouen G, Caro B. Spectrochim Acta A Mol Biomol Spectrosc 58 941-951 (2002)
  189. Identification of compact, hydrophobically stabilized domains and modules containing multiple peptide chains. Zehfus MH. Protein Sci 6 1210-1219 (1997)
  190. Obtaining Tertiary Protein Structures by the ab Initio Interpretation of Small Angle X-ray Scattering Data. Prior C, Davies OR, Bruce D, Pohl E. J Chem Theory Comput 16 1985-2001 (2020)
  191. The peptide chain of tyrosyl tRNA synthetase: no evidence for a super-secondary structure of four alpha-helices. Blow DM, Irwin MJ, Nyborg J. Biochem Biophys Res Commun 76 728-734 (1977)
  192. Biospeciation of Potential Vanadium Drugs of Acetylacetonate in the Presence of Proteins. Sciortino G, Ugone V, Sanna D, Lubinu G, Ruggiu S, Maréchal JD, Garribba E. Front Chem 8 345 (2020)
  193. Characterization of lysozyme adsorption in cellulosic chromatographic materials using small-angle neutron scattering. Koshari SH, Wagner NJ, Lenhoff AM. J Chromatogr A 1399 45-52 (2015)
  194. Lattice simulations of protein crystal formation. Kierzek AM, Pokarowski P, Zielenkiewicz P. Biophys Chem 77 123-137 (1999)
  195. Marginal protein stability drives subcellular proteome isoelectric point. Loell K, Nanda V. Proc Natl Acad Sci U S A 115 11778-11783 (2018)
  196. Quantitation of the immunogenic potential of protein antigens. Padlan EA. Mol Immunol 22 1243-1254 (1985)
  197. The role of the confined water in the dynamic crossover of hydrated lysozyme powders. Kurzweil-Segev Y, Greenbaum Gutina A, Popov I, Golodnitsky D, Feldman Y. Phys Chem Chem Phys 18 10992-10999 (2016)
  198. The simultaneous binding of lanthanide and N-acetylglucosamine inhibitors to hen egg-white lysozyme in solution by 1H and 13C nuclear magnetic resonance. Perkins SJ, Johnson LN, Phillips DC, Dwek RA. Biochem J 193 573-588 (1981)
  199. Three-dimensional diffractive imaging for crystalline monolayers with one-dimensional compact support. Spence JC, Weierstall U, Fricke TT, Glaeser RM, Downing KH. J Struct Biol 144 209-218 (2003)
  200. Two-step relaxation mode analysis with multiple evolution times applied to all-atom molecular dynamics protein simulation. Karasawa N, Mitsutake A, Takano H. Phys Rev E 96 062408 (2017)
  201. A Boundary-Integral Approach for the Poisson-Boltzmann Equation with Polarizable Force Fields. Cooper CD. J Comput Chem 40 1680-1692 (2019)
  202. Agarose gel microcapsules enable easy-to-prepare, picolitre-scale, single-cell genomics, yielding high-coverage genome sequences. Aoki H, Masahiro Y, Shimizu M, Hongoh Y, Ohkuma M, Yamagata Y. Sci Rep 12 17014 (2022)
  203. Automated interpretation of electron density maps of proteins: derivation of atomic co-ordinates for the main chain. Greer J. J Mol Biol 100 427-458 (1976)
  204. Constant-pH Brownian Dynamics Simulations of a Protein near a Charged Surface. Antosiewicz JM, Długosz M. ACS Omega 5 30282-30298 (2020)
  205. Distinguishing thermodynamic and kinetic views of the preferential hydration of protein surfaces. Priya MH, Shah JK, Asthagiri D, Paulaitis ME. Biophys J 95 2219-2225 (2008)
  206. Effects of Hydrodynamic Interactions on the Near-Surface Diffusion of Spheroidal Molecules. Czajka P, Antosiewicz JM, Długosz M. ACS Omega 4 17016-17030 (2019)
  207. Elucidation of Binding Mechanism of Photodynamic Therapeutic Agent Toluidine Blue O with Chicken Egg White Lysozyme by Spectroscopic and Molecular Dynamics Studies. Shanmugaraj K, Umadevi P, Senthilkumar L, Ilanchelian M. Photochem Photobiol 93 1043-1056 (2017)
  208. Hydrodynamic radius coincides with the slip plane position in the electrokinetic behavior of lysozyme. Grisham DR, Nanda V. Proteins 86 515-523 (2018)
  209. Microscopic model of protein crystal growth. Kierzek AM, Pokarowski P, Zielenkiewicz P. Biophys Chem 87 43-61 (2000)
  210. Modelling of alpha-lactalbumin from the known structure of hen egg white lysozyme using molecular dynamics. Robson B, Platt E. J Comput Aided Mol Des 1 17-22 (1987)
  211. On the physics of thermal-stability changes upon mutations of a protein. Murakami S, Oshima H, Hayashi T, Kinoshita M. J Chem Phys 143 125102 (2015)
  212. Protein Adsorption Performance of a Novel Functionalized Cellulose-Based Polymer. Gago D, Corvo MC, Chagas R, Ferreira LM, Coelhoso I. Polymers (Basel) 14 5122 (2022)
  213. Spectroscopic characterization of Coomassie blue and its binding to amyloid fibrils. Carlsson N, Kitts CC, Åkerman B. Anal Biochem 420 33-40 (2012)
  214. Amphiphilic Organic-Inorganic Hybrid Zeotype Aluminosilicate like a Nanoporous Crystallized Langmuir-Blodgett Film. Ikeda T, Hiyoshi N, Matsuura S, Kodaira T, Nakaoka T, Irisa A, Kawano M, Yamamoto K. Angew Chem Int Ed Engl 54 7994-7998 (2015)
  215. Combination of coarse-grained molecular dynamics simulations and small-angle X-ray scattering experiments. Ekimoto T, Kokabu Y, Oroguchi T, Ikeguchi M. Biophys Physicobiol 16 377-390 (2019)
  216. Evaluation of crystal quality of thin protein crystals based on the dynamical theory of X-ray diffraction. Abe M, Suzuki R, Kojima K, Tachibana M. IUCrJ 7 761-766 (2020)
  217. Fitting high-resolution electron density maps from atomic models to solution scattering data. Chamberlain SR, Moore S, Grant TD. Biophys J 122 4567-4581 (2023)
  218. Interpretation of negative second virial coefficients from non-attractive protein solution osmotic pressure data: an alternate perspective. McBride DW, Rodgers VG. Biophys Chem 184 79-86 (2013)
  219. Microwave-radiation-induced molecular structural rearrangement of hen egg-white lysozyme. Singh AK, Burada PS, Bhattacharya S, Bag S, Bhattacharya A, Dasgupta S, Roy A. Phys Rev E 97 052416 (2018)
  220. Protein conformation wheels: cytochromes and lysozymes. Srinivasan AR, Olson WK. Int J Pept Protein Res 16 111-123 (1980)
  221. Advancing homogeneous networking principles for the development of fatigue-resistant, low-swelling and sprayable hydrogels for sealing wet, dynamic and concealed wounds in vivo. Zhang Y, Pan Y, Chang R, Chen K, Wang K, Tan H, Yin M, Liu C, Qu X. Bioact Mater 34 150-163 (2024)
  222. Atomic tritium as an instrument for study of protein behavior at the air-water interface. Lukashina EV, Badun GA, Chulichkov AL. Biomol Eng 24 125-129 (2007)
  223. Effect of Weakly Interacting Cosolutes on Lysozyme Conformations. Levartovsky Y, Shemesh A, Asor R, Raviv U. ACS Omega 3 16246-16252 (2018)
  224. Influence of pH and Salts on Partial Molar Volume of Lysozyme and Bovine Serum Albumin in Aqueous Solutions. Jirasek F, Garcia EJ, Hackemann E, Galeotti N, Hasse H. Chem Eng Technol 41 2337-2345 (2018)
  225. Influence of pK(a) shifts on the calculated dipole moments of proteins. Mellor BL, Khadka S, Busath DD, Mazzeo BA. Protein J 30 490-498 (2011)
  226. Interfacial Properties of NTAIL, an Intrinsically Disordered Protein. Bénarouche A, Habchi J, Cagna A, Maniti O, Girard-Egrot A, Cavalier JF, Longhi S, Carrière F. Biophys J 113 2723-2735 (2017)
  227. Phasing diffraction data from a stream of hydrated proteins. Wu JS, Spence JC. J Opt Soc Am A Opt Image Sci Vis 22 1453-1459 (2005)
  228. Salts employed in hydrophobic interaction chromatography can change protein structure - insights from protein-ligand interaction thermodynamics, circular dichroism spectroscopy and small angle X-ray scattering. Komaromy AZ, Kulsing C, Boysen RI, Hearn MT. Biotechnol J 10 417-426 (2015)
  229. Structural study on hen egg-white lysozyme crystals grown in gravity and microgravity. Jun D, Yaoping W, Qing H, Ruchang B. Sci China C Life Sci 41 238-244 (1998)
  230. Taurine Stabilizing Effect on Lysozyme. Mastrella L, Moretti P, Pieraccini S, Magi S, Piccirillo S, Ortore MG. Life (Basel) 12 133 (2022)
  231. Temperature dependence of lysozyme hydration and the role of elastic energy. Wang HJ, Kleinhammes A, Tang P, Xu Y, Wu Y. Phys Rev E Stat Nonlin Soft Matter Phys 83 031924 (2011)
  232. Configuron dependence on translation of specific codon pairs. I. Helical regions of human alpha and beta globins. Quinn LY, Krishnaswamy R, Quinn TR. Biochem Biophys Res Commun 97 868-874 (1980)
  233. Electron nuclear double resonance spectroscopy of a hen egg-white lysozyme--Cu2+ complex in tetragonal single crystals. Hutchison CA, Singel DJ. Proc Natl Acad Sci U S A 78 6883-6887 (1981)
  234. Identification of protein secondary structures by laser induced autofluorescence: A study of urea and GnHCl induced protein denaturation. Siddaramaiah M, Satyamoorthy K, Rao BSS, Roy S, Chandra S, Mahato KK. Spectrochim Acta A Mol Biomol Spectrosc 174 44-53 (2017)


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