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The NtrYX Two-Component System of Paracoccus denitrificans Is Required for the Maintenance of Cellular Iron Homeostasis and for a Complete Denitrification under Iron-Limited Conditions.

Alfonso Olaya-AbrilVíctor Manuel Luque-AlmagroJesus Hidalgo-CarrilloEduardo Chicano-GálvezFrancisco José UrbanoConrado Moreno-ViviánDavid J RichardsonMaría Dolores Roldán
Published in: International journal of molecular sciences (2022)
Denitrification consists of the sequential reduction of nitrate to nitrite, nitric oxide, nitrous oxide, and dinitrogen. Nitrous oxide escapes to the atmosphere, depending on copper availability and other environmental factors. Iron is also a key element because many proteins involved in denitrification contain iron-sulfur or heme centers. The NtrYX two-component regulatory system mediates the responses in a variety of metabolic processes, including denitrification. A quantitative proteomic analysis of a Paracoccus denitrificans NtrY mutant grown under denitrifying conditions revealed the induction of different TonB-dependent siderophore transporters and proteins related to iron homeostasis. This mutant showed lower intracellular iron content than the wild-type strain, and a reduced growth under denitrifying conditions in iron-limited media. Under iron-rich conditions, it releases higher concentrations of siderophores and displayes lower nitrous oxide reductase (NosZ) activity than the wild-type, thus leading to nitrous oxide emission. Bioinformatic and qRT-PCR analyses revealed that NtrYX is a global transcriptional regulatory system that responds to iron starvation and, in turn, controls expression of the iron-responsive regulators fur , rirA , and iscR , the denitrification regulators fnrP and narR , the nitric oxide-responsive regulator nnrS , and a wide set of genes, including the cd 1 -nitrite reductase NirS, nitrate/nitrite transporters and energy electron transport proteins.
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