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Temporal variations in the expression of a diatom nitrate transporter gene in coastal waters off northern Taiwan: The roles of nitrate and bacteria

In this study, the mRNA levels of a diatom nitrate transporter gene, Nrt2, were investigated in a coastal ecosystem on the western boundary of the northwestern Pacific Ocean. During the period between June 2011 and June 2013, 14 cruises were conducted, and samples were collected for nutrient-manipul...

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Published in:Continental shelf research 2021-09, Vol.227, p.104506, Article 104506
Main Authors: Shih, Chi-Yu, Liu, Wei-Cheng, Kuo, Ting-Hsuan, Chan, Ya-Fan, Lin, Yun-Chi, Gong, Gwo-Ching, Kang, Lee-Kuo, Chang, Jeng
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container_title Continental shelf research
container_volume 227
creator Shih, Chi-Yu
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Chan, Ya-Fan
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Kang, Lee-Kuo
Chang, Jeng
description In this study, the mRNA levels of a diatom nitrate transporter gene, Nrt2, were investigated in a coastal ecosystem on the western boundary of the northwestern Pacific Ocean. During the period between June 2011 and June 2013, 14 cruises were conducted, and samples were collected for nutrient-manipulation incubations, quantitative polymerase chain reactions (qPCRs), and metatranscriptome construction. Based on metatranscriptomes generated through next-generation sequencing, the dominant diatoms and sequences associated with Nrt2 as well as EFL, a qPCR reference gene, were identified. Next, primer pairs for a dominant bloom-forming diatom, Chaetoceros cf. curvisetus, were designed, and the expression levels of Nrt2 were measured by qPCR in both original (untreated) and nitrogen-deprived samples. By calculating the ratio of Nrt2 expression between these 2 samples, a Log (fNrt2) index was developed to be used as a molecular indicator of nitrogen demand. At our study site, the nitrate and nitrite concentrations displayed a clear seasonal cycle, with high (8.75 μM) and low (0.05 μM) concentrations occurring in December and June, respectively. The Log (fNrt2) index also varied with time in 2012, with a high value of approximately −1.44 occurring in October or November; this variation was not in phase with the nitrate trend. The regression analysis indicated that Log (fNrt2) was inversely correlated with nitrate and nitrite concentrations. On the other hand, Log (fNrt2) was positively correlated with bacterial abundance. This regression equation properly included values of Log (fNrt2) that were not well explained by the nitrate and nitrite concentrations. When the Chaetoceros abundance increased, the associated low value of Log (fNrt2) suggested the repression of Nrt2 by ammonium; apparently, the diatom utilizes ammonium as the nitrogen source to maintain its dominance in the later phase of the bloom. Since bacteria and nanoflagellates are actively involved in the uptake and release of nitrogenous nutrients, these two functional groups also control the expression of Nrt2 through important ecological processes such as competition and regeneration. [Display omitted] •This study investigated the expression level of a nitrate transporter gene, Nrt2, in a marine diatom.•RNA-Seq was used to identify Nrt2 sequences in a dominant diatom, and the expression of Nrt2 was measured by qPCR.•Local [NO2− + NO3−] displayed a clear seasonal cycle and influenced Nrt2 expression in
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The Log (fNrt2) index also varied with time in 2012, with a high value of approximately −1.44 occurring in October or November; this variation was not in phase with the nitrate trend. The regression analysis indicated that Log (fNrt2) was inversely correlated with nitrate and nitrite concentrations. On the other hand, Log (fNrt2) was positively correlated with bacterial abundance. This regression equation properly included values of Log (fNrt2) that were not well explained by the nitrate and nitrite concentrations. When the Chaetoceros abundance increased, the associated low value of Log (fNrt2) suggested the repression of Nrt2 by ammonium; apparently, the diatom utilizes ammonium as the nitrogen source to maintain its dominance in the later phase of the bloom. 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The Log (fNrt2) index also varied with time in 2012, with a high value of approximately −1.44 occurring in October or November; this variation was not in phase with the nitrate trend. The regression analysis indicated that Log (fNrt2) was inversely correlated with nitrate and nitrite concentrations. On the other hand, Log (fNrt2) was positively correlated with bacterial abundance. This regression equation properly included values of Log (fNrt2) that were not well explained by the nitrate and nitrite concentrations. When the Chaetoceros abundance increased, the associated low value of Log (fNrt2) suggested the repression of Nrt2 by ammonium; apparently, the diatom utilizes ammonium as the nitrogen source to maintain its dominance in the later phase of the bloom. 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The Log (fNrt2) index also varied with time in 2012, with a high value of approximately −1.44 occurring in October or November; this variation was not in phase with the nitrate trend. The regression analysis indicated that Log (fNrt2) was inversely correlated with nitrate and nitrite concentrations. On the other hand, Log (fNrt2) was positively correlated with bacterial abundance. This regression equation properly included values of Log (fNrt2) that were not well explained by the nitrate and nitrite concentrations. When the Chaetoceros abundance increased, the associated low value of Log (fNrt2) suggested the repression of Nrt2 by ammonium; apparently, the diatom utilizes ammonium as the nitrogen source to maintain its dominance in the later phase of the bloom. Since bacteria and nanoflagellates are actively involved in the uptake and release of nitrogenous nutrients, these two functional groups also control the expression of Nrt2 through important ecological processes such as competition and regeneration. [Display omitted] •This study investigated the expression level of a nitrate transporter gene, Nrt2, in a marine diatom.•RNA-Seq was used to identify Nrt2 sequences in a dominant diatom, and the expression of Nrt2 was measured by qPCR.•Local [NO2− + NO3−] displayed a clear seasonal cycle and influenced Nrt2 expression in the diatom examined.•Bacteria and nanoflagellates correlated with diatom Nrt2 expression, suggesting competition and regeneration effects.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.csr.2021.104506</doi></addata></record>
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subjects Chaetoceros
Metatranscriptome
Nitrate transporter
Nrt2
title Temporal variations in the expression of a diatom nitrate transporter gene in coastal waters off northern Taiwan: The roles of nitrate and bacteria
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