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Phytochelatins as a Dynamic System for Cd(II) Buffering from the Micro- to Femtomolar Range

[Image: see text] Phytochelatins (PCs) are short Cys-rich peptides with repeating γ-Glu-Cys motifs found in plants, algae, certain fungi, and worms. Their biosynthesis has been found to be induced by heavy metals—both biogenic and toxic. Among all metal inducers, Cd(II) has been the most explored fr...

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Autores principales: Wątły, Joanna, Łuczkowski, Marek, Padjasek, Michał, Krężel, Artur
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2021
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8041291/
https://www.ncbi.nlm.nih.gov/pubmed/33736430
http://dx.doi.org/10.1021/acs.inorgchem.0c03639
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author Wątły, Joanna
Łuczkowski, Marek
Padjasek, Michał
Krężel, Artur
author_facet Wątły, Joanna
Łuczkowski, Marek
Padjasek, Michał
Krężel, Artur
author_sort Wątły, Joanna
collection PubMed
description [Image: see text] Phytochelatins (PCs) are short Cys-rich peptides with repeating γ-Glu-Cys motifs found in plants, algae, certain fungi, and worms. Their biosynthesis has been found to be induced by heavy metals—both biogenic and toxic. Among all metal inducers, Cd(II) has been the most explored from a biological and chemical point of view. Although Cd(II)-induced PC biosynthesis has been widely examined, still little is known about the structure of Cd(II) complexes and their thermodynamic stability. Here, we systematically investigated glutathione (GSH) and PC2–PC6 systems, with regard to their complex stoichiometries and spectroscopic and thermodynamic properties. We paid special attention to the determination of stability constants using several complementary techniques. All peptides form CdL complexes, but CdL(2) was found for GSH, PC2, and partially for PC3. Moreover, binuclear species Cd(x)L(y) were identified for the series PC3–PC6 in an excess of Cd(II). Potentiometric and competition spectroscopic studies showed that the affinity of Cd(II) complexes increases from GSH to PC4 almost linearly from micromolar (log K(7.4)(GSH) = 5.93) to the femtomolar range (log K(7.4)(PC4) = 13.39) and additional chain elongation does not increase the stability significantly. Data show that PCs form an efficient system which buffers free Cd(II) ions in the pico- to femtomolar range under cellular conditions, avoiding significant interference with Zn(II) complexes. Our study confirms that the favorable entropy change is the factor governing the elevation of phytochelatins’ stability and illuminates the importance of the chelate effect in shifting the free Gibbs energy.
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spelling pubmed-80412912021-04-13 Phytochelatins as a Dynamic System for Cd(II) Buffering from the Micro- to Femtomolar Range Wątły, Joanna Łuczkowski, Marek Padjasek, Michał Krężel, Artur Inorg Chem [Image: see text] Phytochelatins (PCs) are short Cys-rich peptides with repeating γ-Glu-Cys motifs found in plants, algae, certain fungi, and worms. Their biosynthesis has been found to be induced by heavy metals—both biogenic and toxic. Among all metal inducers, Cd(II) has been the most explored from a biological and chemical point of view. Although Cd(II)-induced PC biosynthesis has been widely examined, still little is known about the structure of Cd(II) complexes and their thermodynamic stability. Here, we systematically investigated glutathione (GSH) and PC2–PC6 systems, with regard to their complex stoichiometries and spectroscopic and thermodynamic properties. We paid special attention to the determination of stability constants using several complementary techniques. All peptides form CdL complexes, but CdL(2) was found for GSH, PC2, and partially for PC3. Moreover, binuclear species Cd(x)L(y) were identified for the series PC3–PC6 in an excess of Cd(II). Potentiometric and competition spectroscopic studies showed that the affinity of Cd(II) complexes increases from GSH to PC4 almost linearly from micromolar (log K(7.4)(GSH) = 5.93) to the femtomolar range (log K(7.4)(PC4) = 13.39) and additional chain elongation does not increase the stability significantly. Data show that PCs form an efficient system which buffers free Cd(II) ions in the pico- to femtomolar range under cellular conditions, avoiding significant interference with Zn(II) complexes. Our study confirms that the favorable entropy change is the factor governing the elevation of phytochelatins’ stability and illuminates the importance of the chelate effect in shifting the free Gibbs energy. American Chemical Society 2021-03-19 2021-04-05 /pmc/articles/PMC8041291/ /pubmed/33736430 http://dx.doi.org/10.1021/acs.inorgchem.0c03639 Text en © 2021 The Authors. Published by American Chemical Society Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Wątły, Joanna
Łuczkowski, Marek
Padjasek, Michał
Krężel, Artur
Phytochelatins as a Dynamic System for Cd(II) Buffering from the Micro- to Femtomolar Range
title Phytochelatins as a Dynamic System for Cd(II) Buffering from the Micro- to Femtomolar Range
title_full Phytochelatins as a Dynamic System for Cd(II) Buffering from the Micro- to Femtomolar Range
title_fullStr Phytochelatins as a Dynamic System for Cd(II) Buffering from the Micro- to Femtomolar Range
title_full_unstemmed Phytochelatins as a Dynamic System for Cd(II) Buffering from the Micro- to Femtomolar Range
title_short Phytochelatins as a Dynamic System for Cd(II) Buffering from the Micro- to Femtomolar Range
title_sort phytochelatins as a dynamic system for cd(ii) buffering from the micro- to femtomolar range
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8041291/
https://www.ncbi.nlm.nih.gov/pubmed/33736430
http://dx.doi.org/10.1021/acs.inorgchem.0c03639
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