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Literature DB >> 26583259

Preorganized Peptide Scaffolds as Mimics of Phosphorylated Proteins Binding Sites with a High Affinity for Uranyl.

Matthieu Starck^1,2, Nathalie Sisommay^1,2, Fanny A Laporte^1,2, Stéphane Oros^1,2, Colette Lebrun^1,2, Pascale Delangle^1,2.

Abstract

Cyclic peptides with two phosphoserines and two glutamic acids were developed to mimic high-affinity binding sites for uranyl found in proteins such as osteopontin, which is believed to be a privileged target of this ion in vivo. These peptides adopt a β-sheet structure that allows the coordination of the latter amino acid side chains in the equatorial plane of the dioxo uranyl cation. Complementary spectroscopic and analytical methods revealed that these cyclic peptides are efficient uranyl chelating peptides with a large contribution from the phosphorylated residues. The conditional affinity constants were measured by following fluorescence tryptophan quenching and are larger than 10(10) at physiological pH. These compounds are therefore promising models for understanding uranyl chelation by proteins, which is relevant to this actinide ion toxicity.

Entities: Chemical Disease Gene

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Year: 2015 PMID： 26583259 DOI： 10.1021/acs.inorgchem.5b02249

Source DB: PubMed Journal: Inorg Chem ISSN： 0020-1669 Impact factor: 5.165

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Cited

5 in total

1. A Trishistidine Pseudopeptide with Ability to Remove Both Cu^Ι and Cu^ΙΙ from the Amyloid-β Peptide and to Stop the Associated ROS Formation.

Authors: Amandine Conte-Daban; Bastien Boff; Andreza Candido Matias; Claudia N Montes Aparicio; Christelle Gateau; Colette Lebrun; Giselle Cerchiaro; Isabelle Kieffer; Stéphanie Sayen; Emmanuel Guillon; Pascale Delangle; Christelle Hureau
Journal: Chemistry Date: 2017-11-09 Impact factor: 5.236

Preorganized Peptide Scaffolds as Mimics of Phosphorylated Proteins Binding Sites with a High Affinity for Uranyl.

1. A Trishistidine Pseudopeptide with Ability to Remove Both Cu^Ι and Cu^ΙΙ from the Amyloid-β Peptide and to Stop the Associated ROS Formation.

2. Uranyl Photocleavage of Phosphopeptides Yields Truncated C-Terminally Amidated Peptide Products.

3. A Simple Fluorescence Affinity Assay to Decipher Uranyl-Binding to Native Proteins.

4. Spectroscopic Study of the Salicyladazine Derivative⁻UO₂²⁺ Complex and Its Immobilization to Mesoporosorous Silica.

Review 5. Uranyl Binding to Proteins and Structural-Functional Impacts.

Preorganized Peptide Scaffolds as Mimics of Phosphorylated Proteins Binding Sites with a High Affinity for Uranyl.

1. A Trishistidine Pseudopeptide with Ability to Remove Both CuΙ and CuΙΙ from the Amyloid-β Peptide and to Stop the Associated ROS Formation.

2. Uranyl Photocleavage of Phosphopeptides Yields Truncated C-Terminally Amidated Peptide Products.

3. A Simple Fluorescence Affinity Assay to Decipher Uranyl-Binding to Native Proteins.

4. Spectroscopic Study of the Salicyladazine Derivative⁻UO22+ Complex and Its Immobilization to Mesoporosorous Silica.

Review 5. Uranyl Binding to Proteins and Structural-Functional Impacts.

1. A Trishistidine Pseudopeptide with Ability to Remove Both Cu^Ι and Cu^ΙΙ from the Amyloid-β Peptide and to Stop the Associated ROS Formation.

4. Spectroscopic Study of the Salicyladazine Derivative⁻UO₂²⁺ Complex and Its Immobilization to Mesoporosorous Silica.