Aspergillus niger secretes citrate to increase iron bioavailability

Aspergillus niger secretes citrate to increase iron bioavailability

Aspergillus niger has an innate ability to secrete various organic acids, including citrate. The conditions required for A. niger citrate overproduction are well described, but the physiological reasons underlying extracellular citrate accumulation are not yet fully understood. One of the less understood culture conditions is the requirement of growth-limiting iron concentrations. While this has been attributed to iron-dependent citrate metabolizing enzymes, this straightforward relationship does not always hold true. Here, we show that an increase in citrate secretion under iron limited conditions is a physiological response consistent with a role of citrate as A. niger iron siderophore. We found that A. niger citrate secretion increases with decreasing amounts of iron added to the culture medium and, in contrast to previous findings, this response is independent of the nitrogen source. Differential transcriptomics analyses of the two A. niger mutants NW305 (gluconate non-producer) and NW186 (gluconate and oxalate non-producer) revealed up-regulation of the citrate biosynthesis gene citA under iron limited conditions compared to iron replete conditions. In addition, we show that A. niger can utilize Fe(III) citrate as iron source. Finally, we discuss our findings in the general context of the pH-dependency of A. niger organic acid production, offering an explanation, besides competition, for why A. niger organic acid production is a sequential process influenced by the external pH of the culture medium.

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Main Authors: Odoni, Dorett I., van Gaal, Merlijn P., Schonewille, Tom, Tamayo-Ramos, Juan A., Martins dos Santos, Vitor A.P., Suarez-Diez, Maria, Schaap, Peter J.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Aspergillus niger, Citrate secretion, Iron homeostasis, Metabolic overflow, Siderophores,
Online Access:https://research.wur.nl/en/publications/aspergillus-niger-secretes-citrate-to-increase-iron-bioavailabili
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spelling dig-wur-nl-wurpubs-5247692024-12-04 Odoni, Dorett I. van Gaal, Merlijn P. Schonewille, Tom Tamayo-Ramos, Juan A. Martins dos Santos, Vitor A.P. Suarez-Diez, Maria Schaap, Peter J. Article/Letter to editor Frontiers in Microbiology 8 (2017) AUG ISSN: 1664-302X Aspergillus niger secretes citrate to increase iron bioavailability 2017 Aspergillus niger has an innate ability to secrete various organic acids, including citrate. The conditions required for A. niger citrate overproduction are well described, but the physiological reasons underlying extracellular citrate accumulation are not yet fully understood. One of the less understood culture conditions is the requirement of growth-limiting iron concentrations. While this has been attributed to iron-dependent citrate metabolizing enzymes, this straightforward relationship does not always hold true. Here, we show that an increase in citrate secretion under iron limited conditions is a physiological response consistent with a role of citrate as A. niger iron siderophore. We found that A. niger citrate secretion increases with decreasing amounts of iron added to the culture medium and, in contrast to previous findings, this response is independent of the nitrogen source. Differential transcriptomics analyses of the two A. niger mutants NW305 (gluconate non-producer) and NW186 (gluconate and oxalate non-producer) revealed up-regulation of the citrate biosynthesis gene citA under iron limited conditions compared to iron replete conditions. In addition, we show that A. niger can utilize Fe(III) citrate as iron source. Finally, we discuss our findings in the general context of the pH-dependency of A. niger organic acid production, offering an explanation, besides competition, for why A. niger organic acid production is a sequential process influenced by the external pH of the culture medium. en application/pdf https://research.wur.nl/en/publications/aspergillus-niger-secretes-citrate-to-increase-iron-bioavailabili 10.3389/fmicb.2017.01424 https://edepot.wur.nl/421234 Aspergillus niger Citrate secretion Iron homeostasis Metabolic overflow Siderophores https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Aspergillus niger
Citrate secretion
Iron homeostasis
Metabolic overflow
Siderophores
Aspergillus niger
Citrate secretion
Iron homeostasis
Metabolic overflow
Siderophores
spellingShingle Aspergillus niger
Citrate secretion
Iron homeostasis
Metabolic overflow
Siderophores
Aspergillus niger
Citrate secretion
Iron homeostasis
Metabolic overflow
Siderophores
Odoni, Dorett I.
van Gaal, Merlijn P.
Schonewille, Tom
Tamayo-Ramos, Juan A.
Martins dos Santos, Vitor A.P.
Suarez-Diez, Maria
Schaap, Peter J.
Aspergillus niger secretes citrate to increase iron bioavailability
description Aspergillus niger has an innate ability to secrete various organic acids, including citrate. The conditions required for A. niger citrate overproduction are well described, but the physiological reasons underlying extracellular citrate accumulation are not yet fully understood. One of the less understood culture conditions is the requirement of growth-limiting iron concentrations. While this has been attributed to iron-dependent citrate metabolizing enzymes, this straightforward relationship does not always hold true. Here, we show that an increase in citrate secretion under iron limited conditions is a physiological response consistent with a role of citrate as A. niger iron siderophore. We found that A. niger citrate secretion increases with decreasing amounts of iron added to the culture medium and, in contrast to previous findings, this response is independent of the nitrogen source. Differential transcriptomics analyses of the two A. niger mutants NW305 (gluconate non-producer) and NW186 (gluconate and oxalate non-producer) revealed up-regulation of the citrate biosynthesis gene citA under iron limited conditions compared to iron replete conditions. In addition, we show that A. niger can utilize Fe(III) citrate as iron source. Finally, we discuss our findings in the general context of the pH-dependency of A. niger organic acid production, offering an explanation, besides competition, for why A. niger organic acid production is a sequential process influenced by the external pH of the culture medium.
format Article/Letter to editor
topic_facet Aspergillus niger
Citrate secretion
Iron homeostasis
Metabolic overflow
Siderophores
author Odoni, Dorett I.
van Gaal, Merlijn P.
Schonewille, Tom
Tamayo-Ramos, Juan A.
Martins dos Santos, Vitor A.P.
Suarez-Diez, Maria
Schaap, Peter J.
author_facet Odoni, Dorett I.
van Gaal, Merlijn P.
Schonewille, Tom
Tamayo-Ramos, Juan A.
Martins dos Santos, Vitor A.P.
Suarez-Diez, Maria
Schaap, Peter J.
author_sort Odoni, Dorett I.
title Aspergillus niger secretes citrate to increase iron bioavailability
title_short Aspergillus niger secretes citrate to increase iron bioavailability
title_full Aspergillus niger secretes citrate to increase iron bioavailability
title_fullStr Aspergillus niger secretes citrate to increase iron bioavailability
title_full_unstemmed Aspergillus niger secretes citrate to increase iron bioavailability
title_sort aspergillus niger secretes citrate to increase iron bioavailability
url https://research.wur.nl/en/publications/aspergillus-niger-secretes-citrate-to-increase-iron-bioavailabili
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