Characterization of arsenic-binding siderophores from environmental bacteria and evaluation of their role in arsenic tolerance

Retamal-Morales, Gerardo

14 June 2019

Arsenic (As) is a toxic metalloid and the remediation of soils and waters from this contaminant as well as the prevention of future contamination are still pending tasks in Chile. There are bacteria able to live in environments polluted with arsenic, as they have tolerance mechanisms for this metalloid, or even can use it for energy metabolism. The potential tolerance mechanisms include the production of siderophores, metabolites with chelating activity that can decrease the toxicity of metals and metalloids. Although a correlation between siderophore production and metalloid tolerance has been described, the structure of arsenic-binding siderophores and their implications in tolerance have not been elucidated yet. In this work, it is proposed that bacteria isolated from contaminated environments produce arsenic-binding siderophores. The main aims of this work are to study the production of the siderophores by arsenic-tolerant bacteria, to characterize these compounds and to determine their relation with tolerance to arsenic. Fourteen arsenic-tolerant bacteria were isolated from contaminated water, From these, four strains belonging to the species Rhodococcus erythropolis, Arthrobacter oxydans and Kocuria rosea were selected, in addition to the previously isolated Rhodococcus erythropolis S43, for a more detailed study. The isolates were used to produce siderophore extracts, which were then evaluated for their iron- and arsenic-binding activity. To detect the latter, a new method (As-mCAS) was set up, based on the Chrome Azurol S (CAS) test, an assay to detect iron-chelating activity of siderophores. After testing the extracts, R. erythropolis S43 was selected as the strain with the best arsenic-binding activity. For the subsequent chemical characterization, siderophores were produced under control conditions (iron-free M9 medium) and under stress conditions with arsenic (iron-free M9 medium with sodium arsenite). HPLC analysis of the extracts for both culture conditions showed the presence of a single compound with both an iron-chelating and an arsenic-binding activity. Analyses by nuclear magnetic resonance (NMR) spectroscopy and mass spectrometry (MS) for both culture conditions suggested the main presence of the siderophore heterobactin B. In addition, the genome of strain S43 was sequenced. A cluster of ars-genes was predicted, probably responsible for the arsenic-tolerance of the strain. In addition, a complete gene cluster for heterobactin production was found. However, no significant difference was obtained in the expression of these determinants in the presence or absence of arsenic, suggesting that the production of this siderophore in strain S43 is not responsible for the tolerance to the metalloid.

info:eu-repo/classification/ddc/570

ddc:570

Arsen

Arsenbelastung

Siderophore

Produktion

Strahlenpilze

Bioremediation

Metallophores from selected actinobacteria for metal extraction and phytomining of strategic elements

Schwabe, Ringo

12 December 2022

Different aspects of interaction of metals other than iron with metallophore mixtures were elucidated. Metal chelation besides iron and greater than with pure desferrioxamine B is documented by enhanced performance of soil mineral dissolution following application of diverse metallophore mixtures. New insights from genome to product of metallophores from Gordonia rubripertincta CWB2 under different cultivation conditions and under metal stress, particularly induced by rare earth elements are given. This evaluation led to increase by a factor of 13. Structure analyses showed that the strain produces citrate and different desferrioxamines. A robust RP-HPLC-based method quantified metal complexation. Further metal immobilization methods for metallophores for metal extraction from solutions with low concentrations were established. Moreover, catechol and hydroxamate metallophores from Arthrobacter oxydans ATW2 and Kocuria rosea ATW4 demonstrate the enhancement of Ge and rare earth element bioavailability, plant growth promotion and phytoextraction potential.:CONTENTS Abstract ..........................................................................................................1 CHAPTER 1 Introduction ......................................................................................5 CHAPTER 2 Mobilization of trace elements in soil extracts by bacterial siderophores in dependence of the pH-value..................................31 CHAPTER 3 Cultivation dependent formation of siderophores by Gordonia rubripertincta CWB2........................................................................41 CHAPTER 4 Data on metal-chelating, -immobilization and biosorption properties by Gordonia rubripertincta CWB2 in dependency on rare earth adaptation.......................................................................................67 CHAPTER 5 Analysis of desferrioxamine-like siderophores and their capability to selectively bind metals and metalloids: development of a robust analytical RP-HPLC method. ..........................................................97 CHAPTER 6 Secondary metabolites released by the rhizosphere bacteria Arthrobacter oxydans and Kocuria rosea enhance plant availability and soil–plant transfer of germanium (Ge) and rare earth elements (REEs) .........................................................................................120 CHAPTER 7 Conclusion remarks and further perspectives ...............................154 References .......................................................................................................162 Acknowledgement .........................................................................................185 Curriculum Vitae ..........................................................................................187 List of publications ..........................................................................................189 List of oral and poster presentations ..........................................................190 List of proceedings ..........................................................................................191 / En este trabajo se han dilucidado diferentes aspectos de la interacción de los metales con las mezclas de metalóforos desde distintos ángulos. La quelación de metales por debajo del hierro se pone de manifiesto en la mejora del rendimiento de la disolución de los minerales del suelo debido a la aplicación de diversas mezclas de metanóforos en comparación con la deferoxamina B pura. Se ofrecen nuevos conocimientos desde el genoma hasta el producto de los metanóforos de Gordonia rubripertincta CWB2 en diferentes condiciones de cultivo y bajo estrés por metales, especialmente inducido por elementos de tierras raras. Esta evaluación condujo a una sobreproducción de un factor de 13. El análisis estructural muestra que la cepa produce citrato y diferentes desferrioxaminas. Un método robusto basado en RP-HPLC cuantificó la complejación de metales. Se establecieron otros métodos de inmovilización de metales para la extracción de metales a partir de soluciones poco concentradas. Además, los metalóforos de catecol e hidroxamato de Arthrobacter oxydans ATW2 y Kocuria rosea ATW4 demuestran la mejora de la biodisponibilidad de GE y REE, la promoción del crecimiento vegetal y el potencial de fitoextracción.:CONTENTS Abstract ..........................................................................................................1 CHAPTER 1 Introduction ......................................................................................5 CHAPTER 2 Mobilization of trace elements in soil extracts by bacterial siderophores in dependence of the pH-value..................................31 CHAPTER 3 Cultivation dependent formation of siderophores by Gordonia rubripertincta CWB2........................................................................41 CHAPTER 4 Data on metal-chelating, -immobilization and biosorption properties by Gordonia rubripertincta CWB2 in dependency on rare earth adaptation.......................................................................................67 CHAPTER 5 Analysis of desferrioxamine-like siderophores and their capability to selectively bind metals and metalloids: development of a robust analytical RP-HPLC method. ..........................................................97 CHAPTER 6 Secondary metabolites released by the rhizosphere bacteria Arthrobacter oxydans and Kocuria rosea enhance plant availability and soil–plant transfer of germanium (Ge) and rare earth elements (REEs) .........................................................................................120 CHAPTER 7 Conclusion remarks and further perspectives ...............................154 References .......................................................................................................162 Acknowledgement .........................................................................................185 Curriculum Vitae ..........................................................................................187 List of publications ..........................................................................................189 List of oral and poster presentations ..........................................................190 List of proceedings ..........................................................................................191 / Es wurden verschiedene Aspekte der Wechselwirkung von anderen Metallen als Eisen mit Metallophormischungen untersucht. Die Chelatbildung mit anderen Metallen als Eisen, die größer ist als bei reinem Desferrioxamin B, wird durch eine verbesserte Leistung bei der Auflösung von Bodenmineralien nach Anwendung verschiedener Metallophormischungen dokumentiert. Es werden neue Erkenntnisse vom Genom bis zum Produkt von Metallophoren aus Gordonia rubripertincta CWB2 unter verschiedenen Anbaubedingungen und unter Metallstress, insbesondere induziert durch Seltene Erden, gegeben. Diese Auswertung führte zu einer Steigerung um den Faktor 13. Strukturanalysen zeigten, dass der Stamm Citrat und verschiedene Desferrioxamine produziert. Eine robuste RP-HPLC-basierte Methode quantifizierte die Metallkomplexierung. Weitere Methoden zur Metallimmobilisierung von Metallophoren für die Metallextraktion aus Lösungen mit niedrigen Konzentrationen wurden etabliert. Darüber hinaus zeigen Catechol- und Hydroxamat-Metallophore aus Arthrobacter oxydans ATW2 und Kocuria rosea ATW4 die Verbesserung der Bioverfügbarkeit von Ge und Seltenen Erden, die Förderung des Pflanzenwachstums und das Phytoextraktionspotenzial.:CONTENTS Abstract ..........................................................................................................1 CHAPTER 1 Introduction ......................................................................................5 CHAPTER 2 Mobilization of trace elements in soil extracts by bacterial siderophores in dependence of the pH-value..................................31 CHAPTER 3 Cultivation dependent formation of siderophores by Gordonia rubripertincta CWB2........................................................................41 CHAPTER 4 Data on metal-chelating, -immobilization and biosorption properties by Gordonia rubripertincta CWB2 in dependency on rare earth adaptation.......................................................................................67 CHAPTER 5 Analysis of desferrioxamine-like siderophores and their capability to selectively bind metals and metalloids: development of a robust analytical RP-HPLC method. ..........................................................97 CHAPTER 6 Secondary metabolites released by the rhizosphere bacteria Arthrobacter oxydans and Kocuria rosea enhance plant availability and soil–plant transfer of germanium (Ge) and rare earth elements (REEs) .........................................................................................120 CHAPTER 7 Conclusion remarks and further perspectives ...............................154 References .......................................................................................................162 Acknowledgement .........................................................................................185 Curriculum Vitae ..........................................................................................187 List of publications ..........................................................................................189 List of oral and poster presentations ..........................................................190 List of proceedings ..........................................................................................191

info:eu-repo/classification/ddc/570

ddc:570

Chelate

Siderophore

Seltenerdmetall

Eisen

Germanium

Blei

Kupfer

Vanadium

Gallium

Aluminium

Arsen

Mangan

Rohstoffgewinnung

Metall

Mikrobielle Laugung