Supramolecular arrangement of lignosulfonate-based iron heteromolecular complexes and consequences of their Interaction with Ca2+ at alkaline pH and fe plant root uptake mechanisms

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 uptak...

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Autores: Fuentes-Ramirez, M. (Marta)|||/items/6099cef4-7f6e-43d9-8530-7bc85af2af88, Bosch, G. (German)|||/items/e2c830ac-3640-4cae-afa5-685b47bfc6a3, Hita-Mejía, D. (David) de|||/items/e985ff71-0b95-42e6-a1ba-911ee454bb5c, Olaetxea-Indaburu, M. (Maite)|||/items/6961aa63-6d15-4579-90a0-596f4cb380c3, Zamarreño-Arregui, A.M. (Angel María)|||/items/316fe376-3b6c-4f68-b6da-03cf1fdab968, García-Mina, J.M. (José María)|||/items/815053fc-2f39-4f00-aed0-c5f6ee370258, Erro-Garces, J. (Javier)|||/items/f322f28f-e404-482c-9699-9f7c8865b53a
Tipo de recurso: artículo
Fecha de publicación:2023
País:España
Institución:Universidad de Navarra
Repositorio:Dadun. Depósito Académico Digital de la Universidad de Navarra
Idioma:inglés
OAI Identifier:oai:dadun.unav.edu:10171/69381
Acceso en línea:https://hdl.handle.net/10171/69381
Access Level:acceso abierto
Palabra clave:Fe(III) chelate reductase
H+-ATPase
Heteromolecular iron chelates
Heteromolecular iron complexes
Iron chelates
Iron chlorosis
Post-transcriptional control
Root iron deficiency responses
Transcriptional control
Descripción
Sumario: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.