1ssc Citations

1.6 A structure of semisynthetic ribonuclease crystallized from aqueous ethanol. Comparison with crystals from salt solutions and with ribonuclease A from aqueous alcohol solutions.

de Mel SJ, Doscher MS, Martin PD, Rodier F, Edwards BF
Acta Crystallogr D Biol Crystallogr 51 1003-12 (1995)
Cited: 6 times
EuropePMC logo PMID: 15299768

Abstract

The non-covalent combination of residues 1-118 of RNase A with a synthetic 14-residue peptide containing residues 111-124 of the molecule forms a highly active semisynthetic enzyme, RNase 1-118:111-124. With this enzyme, the roles played by the six C-terminal residues in generating the catalytic efficiency and substrate specificity of RNase can be studied using chemically synthesized analogs. The structure of RNase 1-118:111-124 from 43% aqueous ethanol has been determined using molecular-replacement methods and refined to a crystallographic R-factor of 0.166 for all observed reflections in the range 7.0-1.6 A (Protein Data Bank file ISSC). The structure is compared with the 2.0 A structure of RNase A from 43% aqueous 2-methyl-2-propanol and with the 1.8 A structure of the semisynthetic enzyme obtained from crystals grown in concentrated salt solution. The structure of RNase 1-118:111-124 from aqueous ethanol is virtually identical to that of RNase A from aqueous 2-methyl-2-propanol. Half of the crystallographically bound water molecules are not coincident, however. The structure is somewhat less similar to that of RNase 1-118:111-124 from salt solutions, with a major difference being the positioning of active-site residue His119.

Articles - 1ssc mentioned but not cited (5)

  1. Harnessing protein folding neural networks for peptide-protein docking. Tsaban T, Varga JK, Avraham O, Ben-Aharon Z, Khramushin A, Schueler-Furman O. Nat Commun 13 176 (2022)
  2. Molecular evolution of B6 enzymes: binding of pyridoxal-5'-phosphate and Lys41Arg substitution turn ribonuclease A into a model B6 protoenzyme. Vacca RA, Giannattasio S, Capitani G, Marra E, Christen P. BMC Biochem 9 17 (2008)
  3. Design of Cyclic Peptides Targeting Protein-Protein Interactions Using AlphaFold. Kosugi T, Ohue M. Int J Mol Sci 24 13257 (2023)
  4. Peptide binder design with inverse folding and protein structure prediction. Bryant P, Elofsson A. Commun Chem 6 229 (2023)
  5. Antimicrobial Property and Mode of Action of the Skin Peptides of the Sado Wrinkled Frog, Glandirana susurra, against Animal and Plant Pathogens. Ogawa D, Suzuki M, Inamura Y, Saito K, Hasunuma I, Kobayashi T, Kikuyama S, Iwamuro S. Antibiotics (Basel) 9 E457 (2020)


Articles citing this publication (1)

  1. Predictive crystallization of ribonuclease A via rapid screening of osmotic second virial coefficients. Tessier PM, Johnson HR, Pazhianur R, Berger BW, Prentice JL, Bahnson BJ, Sandler SI, Lenhoff AM. Proteins 50 303-311 (2003)


Related citations provided by authors (2)

  1. Structural Changes that Accompany the Reduced Catalytic Efficiency of Two Semisynthetic Ribonuclease Analogs. De Mel VSJ, Martin PD, Doscher MS, Edwards BFP J. Biol. Chem. 267 247- (1992)
  2. The Refined Crystal Structure of Fully Active Semisynthetic Ribonuclease At 1.8-A Resolution.. Martin PD, Doscher MS, Edwards BFP J. Biol. Chem. 262 15930- (1987)

Quick links