Thermodynamic and Structural Investigation of Synthetic Actinide–Peptide Scaffolds
The complexation of uranium and europium, in oxidation states +VI and +III, respectively, was investigated with pertinent bio-inorganic systems. Three aspartate-rich pentapeptides with different structural properties were selected for study to rationalize the structure–affinity relationships. Thermo...
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| Published in | Inorganic chemistry Vol. 55; no. 2; pp. 877 - 886 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Chemical Society
19.01.2016
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0020-1669 1520-510X 1520-510X |
| DOI | 10.1021/acs.inorgchem.5b02379 |
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| Abstract | The complexation of uranium and europium, in oxidation states +VI and +III, respectively, was investigated with pertinent bio-inorganic systems. Three aspartate-rich pentapeptides with different structural properties were selected for study to rationalize the structure–affinity relationships. Thermodynamic results, crosschecked by both isothermal titration calorimetry and time-resolved laser fluorescence spectroscopy, showed different affinity depending on the peptide for both Eu(III) and U(VI). The thermodynamic aspects were correlated to structural predictions, which were acquired by density functional theory quantum chemical calculations and from IR and extended X-ray absorption fine structure experiments. The combination of these microscopic properties revealed that carbonyl–metal interactions affected the entropy in the case of europium, while the larger uranyl cation was mostly affected by preorganization and steric effects, so that the affinity was enhanced through enthalpy. The approach described here revealed various microscopic aspects governing peptide actinide affinity. Highlighting these mechanisms should certainly contribute to the rational synthesis of higher affinity biomimetic aspartic ligands. |
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| AbstractList | The complexation of uranium and europium, in oxidation states +VI and +III, respectively, was investigated with pertinent bio-inorganic systems. Three aspartate-rich pentapeptides with different structural properties were selected for study to rationalize the structure–affinity relationships. Thermodynamic results, crosschecked by both isothermal titration calorimetry and time-resolved laser fluorescence spectroscopy, showed different affinity depending on the peptide for both Eu(III) and U(VI). The thermodynamic aspects were correlated to structural predictions, which were acquired by density functional theory quantum chemical calculations and from IR and extended X-ray absorption fine structure experiments. The combination of these microscopic properties revealed that carbonyl–metal interactions affected the entropy in the case of europium, while the larger uranyl cation was mostly affected by preorganization and steric effects, so that the affinity was enhanced through enthalpy. The approach described here revealed various microscopic aspects governing peptide actinide affinity. Highlighting these mechanisms should certainly contribute to the rational synthesis of higher affinity biomimetic aspartic ligands. The complexation of uranium and europium, in oxidation states +VI and +III, respectively, was investigated with pertinent bio-inorganic systems. Three aspartate-rich pentapeptides with different structural properties were selected for study to rationalize the structure–affinity relationships. Thermodynamic results, crosschecked by both isothermal titration calorimetry and time-resolved laser fluorescence spectroscopy, showed different affinity depending on the peptide for both Eu(III) and U(VI). The thermodynamic aspects were correlated to structural predictions, which were acquired by density functional theory quantum chemical calculations and from IR and extended X-ray absorption fine structure experiments. The combination of these microscopic properties revealed that carbonyl–metal interactions affected the entropy in the case of europium, while the larger uranyl cation was mostly affected by preorganization and steric effects, so that the affinity was enhanced through enthalpy. The approach described here revealed various microscopic aspects governing peptide actinide affinity. Highlighting these mechanisms should certainly contribute to the rational synthesis of higher affinity biomimetic aspartic ligands. The complexation of uranium and europium, in oxidation states +VI and +III, respectively, was investigated with pertinent bio-inorganic systems. Three aspartate-rich pentapeptides with different structural properties were selected for study to rationalize the structure-affinity relationships. Thermodynamic results, crosschecked by both isothermal titration calorimetry and time-resolved laser fluorescence spectroscopy, showed different affinity depending on the peptide for both Eu(III) and U(VI). The thermodynamic aspects were correlated to structural predictions, which were acquired by density functional theory quantum chemical calculations and from IR and extended X-ray absorption fine structure experiments. The combination of these microscopic properties revealed that carbonyl-metal interactions affected the entropy in the case of europium, while the larger uranyl cation was mostly affected by preorganization and steric effects, so that the affinity was enhanced through enthalpy. The approach described here revealed various microscopic aspects governing peptide actinide affinity. Highlighting these mechanisms should certainly contribute to the rational synthesis of higher affinity biomimetic aspartic ligands.The complexation of uranium and europium, in oxidation states +VI and +III, respectively, was investigated with pertinent bio-inorganic systems. Three aspartate-rich pentapeptides with different structural properties were selected for study to rationalize the structure-affinity relationships. Thermodynamic results, crosschecked by both isothermal titration calorimetry and time-resolved laser fluorescence spectroscopy, showed different affinity depending on the peptide for both Eu(III) and U(VI). The thermodynamic aspects were correlated to structural predictions, which were acquired by density functional theory quantum chemical calculations and from IR and extended X-ray absorption fine structure experiments. The combination of these microscopic properties revealed that carbonyl-metal interactions affected the entropy in the case of europium, while the larger uranyl cation was mostly affected by preorganization and steric effects, so that the affinity was enhanced through enthalpy. The approach described here revealed various microscopic aspects governing peptide actinide affinity. Highlighting these mechanisms should certainly contribute to the rational synthesis of higher affinity biomimetic aspartic ligands. |
| Author | Charnay-Pouget, Florence Den Auwer, Christophe Roques, Jérome Safi, Samir Creff, Gaëlle Solari, Pier Lorenzo Jeanson, Aurélie Aitken, David J Simoni, Eric |
| AuthorAffiliation | ICMMO Institut de Chimie de Nice MARS Beamline, Synchrotron SOLEIL, L’Orme des Merisiers Université de Nice Sophia Antipolis Institut de Physique Nucléaire d’Orsay CNRS, Univ. Paris-Sud, Université Paris-Saclay |
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| Author_xml | – sequence: 1 givenname: Samir surname: Safi fullname: Safi, Samir – sequence: 2 givenname: Aurélie surname: Jeanson fullname: Jeanson, Aurélie – sequence: 3 givenname: Jérome surname: Roques fullname: Roques, Jérome – sequence: 4 givenname: Pier Lorenzo surname: Solari fullname: Solari, Pier Lorenzo – sequence: 5 givenname: Florence surname: Charnay-Pouget fullname: Charnay-Pouget, Florence – sequence: 6 givenname: Christophe surname: Den Auwer fullname: Den Auwer, Christophe – sequence: 7 givenname: Gaëlle surname: Creff fullname: Creff, Gaëlle – sequence: 8 givenname: David J surname: Aitken fullname: Aitken, David J – sequence: 9 givenname: Eric surname: Simoni fullname: Simoni, Eric email: simoni@ipno.in2p3.fr |
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| CitedBy_id | crossref_primary_10_3390_app13063834 crossref_primary_10_1039_C6DT03009B crossref_primary_10_1016_j_jinorgbio_2019_110936 crossref_primary_10_1007_s10967_019_06697_1 crossref_primary_10_1039_C6RA14906E crossref_primary_10_1002_chem_201605481 crossref_primary_10_1021_acs_inorgchem_8b03231 crossref_primary_10_1016_j_ccr_2019_01_006 crossref_primary_10_1021_acs_chemrestox_8b00106 |
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| SubjectTerms | Actinoid Series Elements - chemistry Chemical Physics Molecular Structure Peptides - chemistry Physics Thermodynamics X-Ray Absorption Spectroscopy |
| Title | Thermodynamic and Structural Investigation of Synthetic Actinide–Peptide Scaffolds |
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