S. V. Shlyapnikov scite author profile

The three-dimensional crystal structure of Serratia marcescens endonuclease has been refined at 1.1 A resolution to an R factor of 12.9% and an R(free) of 15.6% with the use of anisotropic temperature factors. The model contains 3694 non-H atoms, 715 water molecules, four sulfate ions and two Mg(2+)-binding sites at the active sites of the homodimeric protein. It is shown that the magnesium ion linked to the active-site Asn119 of each monomer is surrounded by five water molecules and shows an octahedral coordination geometry. The temperature factors for the bound Mg(2+) ions in the A and B subunits are 7.08 and 4.60 A(2), respectively, and the average temperature factors for the surrounding water molecules are 12.13 and 10.3 A(2), respectively. In comparison with earlier structures, alternative side-chain conformations are defined for 51 residues of the dimer, including the essential active-site residue Arg57. A plausible mechanism of enzyme function is proposed based on the high-resolution S. marcescens nuclease structure, the functional characteristics of the natural and mutational forms of the enzyme and consideration of its structural analogy with homing endo-nuclease I-PpoI.

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Three‐dimensional structure of Serratiamarcescens nuclease at 1.7 Å resolution and mechanism of its action

Lunin

Levdikov

Shlyapnikov

et al. 1997

FEBS Letters

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The three-dimensional crystal structure of Serratia marcescens (Sm) nuclease has been refined at 1.7 A resolution to the R-factor of 17.3% and R-free of 22.2%. The final model consists of 3678 non-hydrogen atoms and 443 water molecules. The analysis of the secondary and the tertiary structures of the Sm nuclease suggests a topology which reveals essential inner symmetry in all the three layers forming the monomer. We propose the plausible mechanism of its action based on a concerted participation of the catalytically important aniino acid residues of the enzyme active site.

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Primary structure and catalytic properties of extracellular ribonuclease of bacillus circulans

1993

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Investigation of the sites phosphorylated in lysine‐rich histones by protein kinase from pig brain

et al. 1975

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Primary structure of cytoplasmic aspartate aminotransferase from chicken heart and its homology with pig heart isoenzymes

Shlyapnikov¹,

Myasnikov²,

Severin³

et al. 1979

FEBS Letters

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S. V. Shlyapnikov

Atomic structure of theSerratia marcescensendonuclease at 1.1 Å resolution and the enzyme reaction mechanism

Three‐dimensional structure of Serratiamarcescens nuclease at 1.7 Å resolution and mechanism of its action

Primary structure and catalytic properties of extracellular ribonuclease of bacillus circulans

Investigation of the sites phosphorylated in lysine‐rich histones by protein kinase from pig brain

Primary structure of cytoplasmic aspartate aminotransferase from chicken heart and its homology with pig heart isoenzymes

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