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17 results on '"Olaetxea, Maite"'

4. The molecular conformation, but not disaggregation, of humic acid in water solution plays a crucial role in promoting plant development in the natural environment

Author

Aranaz, Javier, primary, de Hita, David, additional, Olaetxea, Maite, additional, Urrutia, Oscar, additional, Fuentes, Marta, additional, Baigorri, Roberto, additional, Garnica, Maria, additional, Movila, Maria, additional, Zamarreño, Angel M., additional, Erro, Javier, additional, Baquero, Enrique, additional, Gonzalez-Gaitano, Gustavo, additional, Alvarez, Jose Ignacio, additional, and Garcia-Mina, Jose M., additional

Published
2023
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7. Supramolecular Arrangement of Lignosulfonate-Based Iron Heteromolecular Complexes and Consequences of Their Interaction with Ca2+at Alkaline pH and Fe Plant Root Uptake Mechanisms

Author

Fuentes, Marta, Bosch, German, de Hita, David, Olaetxea, Maite, Erro, Javier, Zamarreño, Angel Ma, and Garcia-Mina, Jose Ma

Abstract

Previous studies have shown that natural heteromolecular complexes might be an alternative to synthetic chelates to correct iron (Fe) deficiency. To investigate the mechanism of action of these complexes, we have studied their interaction with Ca2+at alkaline pH, Fe-binding stability, Fe-root uptake in cucumber, and chemical structure using molecular modeling. The results show that a heteromolecular Fe complex including citric acid and lignosulfonate as binding ligands (Ls-Cit) forms a supramolecular system in solution with iron citrate interacting with the hydrophobic inner core of the lignosulfonate system. These structural features are associated with high stability against Ca2+at basic pH. Likewise, unlike Fe-EDDHA, root Fe uptake from Ls-Cit implies the activation of the main root responses under Fe deficiency at the transcriptional level but not at the post-transcriptional level. These results are consistent with the involvement of some plant responses to Fe deficiency in the plant assimilation of complexed Fe in Ls-Cit under field conditions.

Published
2023
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11. Involvement of Hormone- and ROS-Signaling Pathways in the Beneficial Action of Humic Substances on Plants Growing under Normal and Stressing Conditions

Author

García, Andrés Calderín, Olaetxea, Maite, Santos, Leandro Azevedo, Mora, Verónica, Baigorri, Roberto, Fuentes, Marta, Zamarreño, Angel Maria, Berbara, Ricardo Luis Louro, and Garcia-Mina, José María

Subjects
Article Subject, complex mixtures
Abstract

The importance of soil humus in soil fertility has been well established many years ago. However, the knowledge about the whole mechanisms by which humic molecules in the rhizosphere improve plant growth remains partial and rather fragmentary. In this review we discuss the relationships between two main signaling pathway families that are affected by humic substances within the plant: one directly related to hormonal action and the other related to reactive oxygen species (ROS). In this sense, our aims are to try the integration of all these events in a more comprehensive model and underline some points in the model that remain unclear and deserve further research.

Published
2016
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13. ABA-regulation of root hydraulic conductivity and aquaporin gene- expression is crucial to the plant shoot rise caused by rhizosphere humic acids

Author

Olaetxea, Maite, primary, Mora, Verónica, additional, Bacaicoa, Eva, additional, Baigorri, Roberto, additional, Garnica, Maria, additional, Fuentes, Marta, additional, Casanova, Esther, additional, Zamarreño, Angel Maria, additional, Iriarte, Juan Carlos, additional, Etayo, David, additional, Ederra, Iñigo, additional, Gonzalo, Ramon, additional, and Garcia-Mina, Jose Maria, additional

Published
2015
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15. The Singular Molecular Conformation of Humic Acids in Solution Influences Their Ability to Enhance Root Hydraulic Conductivity and Plant Growth.

Author

Olaetxea, Maite, Mora, Veronica, Baigorri, Roberto, Zamarreño, Angel M., García-Mina, Jose M., Spaccini, Riccardo, and Jacob, Claus

Subjects
*MOLECULAR conformation, *HYDRAULIC conductivity, *PLANT growth, *HUMIC acid, *ACID solutions, *CUCUMBERS
Abstract

Some studies have reported that the capacity of humic substances to improve plant growth is dependent on their ability to increase root hydraulic conductivity. It was proposed that this effect is directly related to the structural conformation in solution of these substances. To study this hypothesis, the effects on root hydraulic conductivity and growth of cucumber plants of a sedimentary humic acid and two polymers—polyacrylic acid and polyethylene glycol—presenting a molecular conformation in water solution different from that of the humic acid have been studied. The results show that whereas the humic acid caused an increase in root hydraulic conductivity and plant growth, both the polyacrylic acid and the polyethylene glycol did not modify plant growth and caused a decrease in root hydraulic conductivity. These results can be explained by the different molecular conformation in water solution of the three molecular systems. The relationships between these biological effects and the molecular conformation of the three molecular systems in water solution are discussed. [ABSTRACT FROM AUTHOR]

Published
2021
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16. Root ABA and H+‐ATPase are key players in the root and shoot growth‐promoting action of humic acids.

Author

Olaetxea, Maite, Mora, Verónica, Bacaicoa, Eva, Baigorri, Roberto, Garnica, Maria, Fuentes, Marta, Zamarreño, Angel Maria, Spíchal, Lukáš, and García‐Mina, José María

Subjects
ABSCISIC acid, HUMIC acid, ROOT growth, HYDRAULIC conductivity, PLANT growth promoting substances, PLANT growth, PLANT shoots, FULVIC acids, CUCUMBERS
Abstract

Although the ability of humic (HA) and fulvic acids (FA) to improve plant growth has been demonstrated, knowledge about the mechanisms responsible for the direct effects of HA and FA on the promotion of plant growth is scarce and fragmentary. Our study investigated the causal role of both root PM H+‐ATPase activity and ABA in the SHA‐promoting action on both root and shoot growth. The involvement of these processes in the regulation of shoot cytokinin concentration and activity was also studied. Our aim was to integrate such plant responses for providing new insights  to the current model on the mode of action of HA for promoting root and shoot growth. Experiments employing specific inhibitors and using Cucumis sativus L. plants show that both the root PM H+‐ATPase activity and root ABA play a crucial role in the root growth‐promoting action of SHA. With regard to the HA‐promoting effects on shoot growth, two pathways of events triggered by the interaction of SHA with plant roots are essential for the increase in root PM H+‐ATPase activity—which also mediates an increase in cytokinin concentration and action in the shoot—and the ABA‐mediated increase in hydraulic conductivity (Lpr). [ABSTRACT FROM AUTHOR]

Published
2019
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17. Supramolecular Arrangement of Lignosulfonate-Based Iron Heteromolecular Complexes and Consequences of Their Interaction with Ca 2+ at Alkaline pH and Fe Plant Root Uptake Mechanisms.

Author

Fuentes M, Bosch G, de Hita D, Olaetxea M, Erro J, Zamarreño AM, and Garcia-Mina JM

Subjects
Plant Roots metabolism, Hydrogen-Ion Concentration, Iron metabolism, Iron Chelating Agents chemistry
Abstract

Previous studies have shown that natural heteromolecular complexes might be an alternative to synthetic chelates to correct iron (Fe) deficiency. To investigate the mechanism of action of these complexes, we have studied their interaction with Ca 2+ at alkaline pH, Fe-binding stability, Fe-root uptake in cucumber, and chemical structure using molecular modeling. The results show that a heteromolecular Fe complex including citric acid and lignosulfonate as binding ligands (Ls-Cit) forms a supramolecular system in solution with iron citrate interacting with the hydrophobic inner core of the lignosulfonate system. These structural features are associated with high stability against Ca 2+ at basic pH. Likewise, unlike Fe-EDDHA, root Fe uptake from Ls-Cit implies the activation of the main root responses under Fe deficiency at the transcriptional level but not at the post-transcriptional level. These results are consistent with the involvement of some plant responses to Fe deficiency in the plant assimilation of complexed Fe in Ls-Cit under field conditions.

Published
2023
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