Effect of Nitrogen Starvation on the Responses of Two Rice Cultivars to Nitrate Uptake and Utilization

Ammonium(NH+4) is the main nitrogen(N) form for rice crops, while NH+4near the root surface can be oxidized to nitrate(NO-3)by NH+4-oxidizing bacteria. Nitrate can be accumulated within rice tissues and reused when N supply is insufficient. We compared the remobilization of NO-3stored in the tissue...

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Published inPedosphere Vol. 24; no. 5; pp. 690 - 698
Main Authors YIN, Xiao-Ming, LUO, Wei, WANG, Song-Wei, SHEN, Qi-Rong, LONG, Xiao-Hua
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.10.2014
College of Resources and Environmental Sciences, Nanjing Agricultural University, Nanjing 210095(China)
Subjects
nitrate reductase activity
nitrate transpoters
nitrogen use efficiency
NR活性
Oryza
Oryza sativa
Oryza sativa L
remobilization
吸收
氮素利用效率
氮饥饿
水稻品种
硝酸盐
硝酸还原酶
Oryza sativa L
nitrogen use efficiency
nitrate reductase activity
nitrate transpoters
remobilization
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Abstract Ammonium(NH+4) is the main nitrogen(N) form for rice crops, while NH+4near the root surface can be oxidized to nitrate(NO-3)by NH+4-oxidizing bacteria. Nitrate can be accumulated within rice tissues and reused when N supply is insufficient. We compared the remobilization of NO-3stored in the tissue and vacuolar between two rice(Oryza sativa L.) cultivars, Yangdao 6(YD6, indica)with a high N use efficiency(NUE) and Wuyujing 3(WYJ3, japonica) with a low NUE and measured the uptake of NO-3, expression of nitrate reductase(NR), NO-3transporter genes(NRTs), and NR activity after 4 d of N starvation following 7-d cultivation in a solution containing 2.86 mmol L-1NO-3. The results showed that both tissue NO-3concentration and vacuolar NO-3activity were higher in YD6 than WYJ3 under N starvation. YD6 showed a 2- to 3-fold higher expression of OsNRT2.1 in roots on the 1st and 4th day of N starvation and had significantly higher values of NO-3uptake(maximum uptake velocity, Vmax) than the cultivar WYJ3.Furthermore, YD6 had significantly higher leaf and root maximum NR activity(NRAmax) and actual NR activity(NRAact) as well as stronger root expression of the two NR genes after the 1st day of N starvation. There were no significant differences in NRAmax and NRAact between the two rice cultivars on the 4th day of N starvation. The results suggested that YD6 had stronger NRA under N starvation, which might result in better NO-3re-utilization from the vacuole, and higher capacity for NO-3uptake and use, potentially explaining the higher NUE of YD6 compared with WYJ3.
AbstractList (ProQuest: ... denotes formulae and/or non-USASCII text omitted) Ammonium (...) is the main nitrogen (N) form for rice crops, while ... near the root surface can be oxidized to nitrate (...) by ...-oxidizing bacteria. Nitrate can be accumulated within rice tissues and reused when N supply is insufficient. We compared the remobilization of ... stored in the tissue and vacuolar between two rice (Oryza sativa L.) cultivars, Yangdao 6 (YD6, indica) with a high N use efficiency (NUE) and Wuyujing 3 (WYJ3, japonica) with a low NUE and measured the uptake of ..., expression of nitrate reductase (NR), ... transporter genes (NRTs), and NR activity after 4 d of N starvation following 7-d cultivation in a solution containing 2.86 mmol L super(-1) ... The results showed that both tissue ... concentration and vacuolar ... activity were higher in YD6 than WYJ3 under N starvation. YD6 showed a 2- to 3-fold higher expression of OsNRT2.1 in roots on the 1st and 4th day of N starvation and had significantly higher values of ... uptake (maximum uptake velocity, V sub(max)) than the cultivar WYJ3. Furthermore, YD6 had significantly higher leaf and root maximum NR activity (NRA sub(max)) and actual NR activity (NRA sub(act)) as well as stronger root expression of the two NR genes after the 1st day of N starvation. There were no significant differences in NRA sub(max) and NRAact between the two rice cultivars on the 4th day of N starvation. The results suggested that YD6 had stronger NRA under N starvation, which might result in better ... re-utilization from the vacuole, and higher capacity for ... uptake and use, potentially explaining the higher NUE of YD6 compared with WYJ3.
Ammonium(NH+4) is the main nitrogen(N) form for rice crops, while NH+4near the root surface can be oxidized to nitrate(NO-3)by NH+4-oxidizing bacteria. Nitrate can be accumulated within rice tissues and reused when N supply is insufficient. We compared the remobilization of NO-3stored in the tissue and vacuolar between two rice(Oryza sativa L.) cultivars, Yangdao 6(YD6, indica)with a high N use efficiency(NUE) and Wuyujing 3(WYJ3, japonica) with a low NUE and measured the uptake of NO-3, expression of nitrate reductase(NR), NO-3transporter genes(NRTs), and NR activity after 4 d of N starvation following 7-d cultivation in a solution containing 2.86 mmol L-1NO-3. The results showed that both tissue NO-3concentration and vacuolar NO-3activity were higher in YD6 than WYJ3 under N starvation. YD6 showed a 2- to 3-fold higher expression of OsNRT2.1 in roots on the 1st and 4th day of N starvation and had significantly higher values of NO-3uptake(maximum uptake velocity, Vmax) than the cultivar WYJ3.Furthermore, YD6 had significantly higher leaf and root maximum NR activity(NRAmax) and actual NR activity(NRAact) as well as stronger root expression of the two NR genes after the 1st day of N starvation. There were no significant differences in NRAmax and NRAact between the two rice cultivars on the 4th day of N starvation. The results suggested that YD6 had stronger NRA under N starvation, which might result in better NO-3re-utilization from the vacuole, and higher capacity for NO-3uptake and use, potentially explaining the higher NUE of YD6 compared with WYJ3.
Ammonium (NH+4) is the main nitrogen (N) form for rice crops, while NH+4 near the root surface can be oxidized to nitrate (NO−3) by NH+4 oxidizing bacteria. Nitrate can be accumulated within rice tissues and reused when N supply is insufficient. We compared the remobilization of NO−3 stored in the tissue and vacuolar between two rice (Oryza sativa L.) cultivars, Yangdao 6 (YD6, indica) with a high N use efficiency (NUE) and Wuyujing 3 (WYJ3, japonica) with a low NUE and measured the uptake of NO−3, expression of nitrate reductase (NR), NO−3 transporter genes (NRTs), and NR activity after 4 d of N starvation following 7-d cultivation in a solution containing 2.86 mmol L−1 NO−3. The results showed that both tissue NO−3 concentration and vacuolar NO−3 activity were higher in YD6 than WYJ3 under N starvation. YD6 showed a 2- to 3-fold higher expression of OsNRT2.1 in roots on the 1st and 4th day of N starvation and had significantly higher values of NO−3 uptake (maximum uptake velocity, Vmax) than the cultivar WYJ3. Furthermore, YD6 had significantly higher leaf and root maximum NR activity (NRAmax) and actual NR activity (NRAact) as well as stronger root expression of the two NR genes after the 1st day of N starvation. There were no significant differences in NRAmax and NRAact between the two rice cultivars on the 4th day of N starvation. The results suggested that YD6 had stronger NRA under N starvation, which might result in better NO−3 re-utilization from the vacuole, and higher capacity for NO−3 uptake and use, potentially explaining the higher NUE of YD6 compared with WYJ3.
Author YIN Xiao-Ming LUO Wei WANG Song-Wei SHEN Qi-Rong LONG Xiao-Hua
AuthorAffiliation College of Resources and Environmental Sciences, Nanjing Agricultural University, Nanjing 210095 (China)
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Keywords Oryza sativa L
nitrogen use efficiency
nitrate reductase activity
nitrate transpoters
remobilization
Language English
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Notes 32-1315/P
Ammonium(NH+4) is the main nitrogen(N) form for rice crops, while NH+4near the root surface can be oxidized to nitrate(NO-3)by NH+4-oxidizing bacteria. Nitrate can be accumulated within rice tissues and reused when N supply is insufficient. We compared the remobilization of NO-3stored in the tissue and vacuolar between two rice(Oryza sativa L.) cultivars, Yangdao 6(YD6, indica)with a high N use efficiency(NUE) and Wuyujing 3(WYJ3, japonica) with a low NUE and measured the uptake of NO-3, expression of nitrate reductase(NR), NO-3transporter genes(NRTs), and NR activity after 4 d of N starvation following 7-d cultivation in a solution containing 2.86 mmol L-1NO-3. The results showed that both tissue NO-3concentration and vacuolar NO-3activity were higher in YD6 than WYJ3 under N starvation. YD6 showed a 2- to 3-fold higher expression of OsNRT2.1 in roots on the 1st and 4th day of N starvation and had significantly higher values of NO-3uptake(maximum uptake velocity, Vmax) than the cultivar WYJ3.Furthermore, YD6 had significantly higher leaf and root maximum NR activity(NRAmax) and actual NR activity(NRAact) as well as stronger root expression of the two NR genes after the 1st day of N starvation. There were no significant differences in NRAmax and NRAact between the two rice cultivars on the 4th day of N starvation. The results suggested that YD6 had stronger NRA under N starvation, which might result in better NO-3re-utilization from the vacuole, and higher capacity for NO-3uptake and use, potentially explaining the higher NUE of YD6 compared with WYJ3.
nitrate reductase activity,nitrate transpoters,nitrogen use efficiency,Oryza sativa L.,remobilization
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College of Resources and Environmental Sciences, Nanjing Agricultural University, Nanjing 210095(China)
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  article-title: The assimilatory nitrate-reducing system and its regulation
  publication-title: Annu. Rev. Plant Phys.
  doi: 10.1146/annurev.pp.32.060181.001125
  contributor:
    fullname: Guerrero
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Snippet Ammonium(NH+4) is the main nitrogen(N) form for rice crops, while NH+4near the root surface can be oxidized to nitrate(NO-3)by NH+4-oxidizing bacteria. Nitrate...
Ammonium (NH+4) is the main nitrogen (N) form for rice crops, while NH+4 near the root surface can be oxidized to nitrate (NO−3) by NH+4 oxidizing bacteria....
(ProQuest: ... denotes formulae and/or non-USASCII text omitted) Ammonium (...) is the main nitrogen (N) form for rice crops, while ... near the root surface...
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SubjectTerms nitrate reductase activity
nitrate transpoters
nitrogen use efficiency
NR活性
Oryza
Oryza sativa
Oryza sativa L
remobilization
吸收
氮素利用效率
氮饥饿
水稻品种
硝酸盐
硝酸还原酶
Title Effect of Nitrogen Starvation on the Responses of Two Rice Cultivars to Nitrate Uptake and Utilization
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https://dx.doi.org/10.1016/S1002-0160(14)60055-2
https://search.proquest.com/docview/1751203297
https://d.wanfangdata.com.cn/periodical/trq-e201405014
Volume 24
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