2011
DOI: 10.1128/ec.05199-11
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Physiological and Biochemical Characterization of AnNitA, the Aspergillus nidulans High-Affinity Nitrite Transporter

Abstract: High-affinity nitrite influx into mycelia ofAlthough nitrate and ammonium are the major sources of nitrogen for bacteria, fungi, algae, and plants, nitrite may also represent a significant nitrogen source under some circumstances. For example, in waterlogged anaerobic soils as well as in aerobic soils where gaseous anaerobic pockets exist, substantial levels of nitrite may accumulate (14). Phytoplankton has been shown to excrete significant amounts of nitrite when nitrate uptake exceeds the capacity for the as… Show more

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Cited by 10 publications
(6 citation statements)
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“…Bioinformatic analysis in the present study revealed that the majority of the aspergilli contain one gene encoding an FNT family protein, but a few species ( A. flavus , A. oryzae , A. sidowii , A. fischeri , and A. versicolor ) have two such genes. In A. nidulans , the FNT protein NitA has been shown to be a high affinity but low capacity nitrite transporter compared to NNP proteins and is expressed under the same conditions as the NNP proteins [ 191 ].…”
Section: Resultsmentioning
confidence: 99%
“…Bioinformatic analysis in the present study revealed that the majority of the aspergilli contain one gene encoding an FNT family protein, but a few species ( A. flavus , A. oryzae , A. sidowii , A. fischeri , and A. versicolor ) have two such genes. In A. nidulans , the FNT protein NitA has been shown to be a high affinity but low capacity nitrite transporter compared to NNP proteins and is expressed under the same conditions as the NNP proteins [ 191 ].…”
Section: Resultsmentioning
confidence: 99%
“…This finding signifies the existence of an additional transport mechanism for nitrite, independent of the AtNAR2.1 gene. Likewise, in A. nidulans the NitA gene encodes a nitrite-specific transporter that appears to function independently of any NAR2-like polypeptide (Unkles et al, 2011), and also the nitrite transport system III in C. reinhardtii (coded by CrNRT2.3) which is independent of the CrNAR2 gene (Rexach et al, 1999). Kotur et al (2012) reported that all NRT2 transporters in Arabidopsis, with the exception of AtNRT2.7, require NAR2.1 for functional nitrate transport.…”
Section: Discussionmentioning
confidence: 99%
“…The uptake of nitrite from the external environment may occur through nitrate–nitrite bispecific transporters, examples of which are NRT2.1/NAR2 in C. reinhardtii (Galvan et al ., ), NARU in Escherichia.coli (Jia et al ., ), NRTA and NRTB in Aspergillus nidulans (Wang et al ., ), or by NO2 ‐specific transporters as reported in C. reinhardtii (Galvan et al ., ), E. coli (Jia & Cole, ; Jia et al ., ), Hansenula polymorpha (Serrani & Berardi, ), A. nidulans (Wang et al ., ; Unkles et al ., ), Neurospora crassa (Gao‐Rubinelli & Marzluf, ) and Nostoc ANTH (Bhattacharya et al ., ). Nitrite transporters in A. nidulans (NitA) and E. coli (NirC) belong to a family of formate–nitrite transporters.…”
Section: Introductionmentioning
confidence: 99%
“…Meanwhile, genome analyses have revealed that the FNT superfamily of anion channels is widespread in bacteria and archaea, with thousands of examples ( Waight et al, 2013 ). FNT proteins are also found in certain single-celled eukarya ( Unkles et al, 2011 ; Marchetti et al, 2015 ; Wu et al, 2015 ; Yamano et al, 2015 ). Many of the microorganisms in which these FNT proteins are found are pathogens ( Waight et al, 2010 ; Czyzewski and Wang, 2012 ; Lü et al, 2012b ; Marchetti et al, 2015 ; Wu et al, 2015 ).…”
Section: Introductionmentioning
confidence: 99%