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Acta Agron Sin ›› 2013, Vol. 39 ›› Issue (09): 1668-1673.doi: 10.3724/SP.J.1006.2013.01668

• TILLAGE & CULTIVATION·PHYSIOLOGY & BIOCHEMISTRY • Previous Articles     Next Articles

Effect of Nitrate Reductase (NR) Inhibitor on NR Activity in Oilseed Rape (Brassica napus L.) and Its Relation to Nitrate Content

HUANG Hai-Tao1,RONG Xiang-Min1,*,SONG Hai-Xing1,LIU Qiang1,LIAO Qiong1,LUO Ji-Peng1,GU Ji-Dong1,2,GUAN Chun-Yun3,ZHANG Zhen-Hua1,*   

  1. 1 College of Resources and Environment Sciences, Hunan Agricultural University, Changsha 410128, China; 2 School of Biological Sciences, The University of Hong Kong, Hong Kong SAR, China; 3 National Center of Oilseed Crops Improvement (Hunan Branch), Changsha 410128, China
  • Received:2012-10-07 Revised:2013-04-22 Online:2013-09-12 Published:2013-07-09

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Abstract:

 This study aims at inspecting the regulation mechanisms of NR activity and its relation to nitrate content in oilseed rape. A sand culture experiment with N treatment at normal (15 mmol L–1 NO3) and deficiency (7.5 mmol L–1 NO3) levels and NR activity obligate inhibitor treatment using oilseed rape genotypes with high nitrogen use efficiency (NUE) (H1: 742 and H2: Xiangyou 15) and low NUE (L1: 814 and L2: H8) was conducted to study differences of NR activity and nitrate contents between genotypes and N application levels. The results indicated that, compared with control treatment, inhibitor treatment under N normal and deficiency levels decreased NR activity by 54.1% and 55.9% respectively, but could not influence the nitrate content of leaves. NR activity and nitrate content of N normal level treatment were 46.9% and 16.4% higher than those of N deficiency level. Nitrate content of high NUE genotypes was significantly lower than that of low NUE genotypes. NR activity (NRAact) of H2 was significantly higher than that of low NUE genotype, resulting from that H2 possesses higher relative expression level of major NR gene (nia2). In conclusion, there are significant differences in NR activity and nitrate content between genotypes and N application levels. However, nitrate content can not be significantly influenced by somewhat changes of NR activity.

Key words: Nitrate reductase (NR), Nitrate content, Oilseed rape (Brassica napus L.), Genotypes, Nitrogen (N) application levels

[1]Shen Q-R(沈其荣), Tang L(汤利), Xu Y-C(徐阳春). A review on the behavior of nitrate in vacuoles of plants. Acta Pedol Sin (土壤学报), 2003, 40(3): 465–470 (in Chinese with English abstract)



[2]Liu Z(刘忠), Wang Z-H(王朝辉), Li S-X(李生秀). A preliminary study on why it is difficult to reduce nitrate spinach petiole. Sci Agric Sin (中国农业科学), 2006, 39(11): 2294–2299 (in Chinese with English abstract)



[3]Miller A J, Smith S J. Cytosolic nitrate ion homeostasis, could it have a role in sensing nitrogen status. Ann Bot, 2008, 101: 485–489



[4]Cao Y-B(曹岩坡), Gao Z-Q(高志奎), He J-P(何俊萍), Wang M(王梅), Gao R-F(高荣孚). Effects of exogenous salicylic acid on nitrate accumulation and reduction and assimilation in the leaves of Chinese chive. Acta Hort Sin (园艺学报), 2009, 36(3): 415–420 (in Chinese with English abstract)



[5]Liu J-X(刘金鑫), Tian Q-Y(田秋英), Chen F-J(陈范骏), Mi G-H(米国华). Nitrate accumulation in maize and its role in adaptation to lasting low nitrogen environments. Plant Nutr Fert Sci (植物营养与肥料学报), 2009, 15(3): 501–508 (in Chinese with English abstract)



[6]Zhang Z-H(张振华), Song H-X(宋海星), Liu Q(刘强), Rong X-M(荣湘民), Xie G-X(谢桂先), Peng J-W(彭建伟), Zhang Y-P(张玉平), Guan C-Y(官春云), Chen S-Y(陈社员). Absorption, distribution, and translocation of nitrogen at growth stages in oilseed rape plant. Acta Agron Sin (作物学报), 2010, 36(2): 321–326 (in Chinese with English abstract)



[7]Cao C-L(曹翠玲), Liu J-Z(刘建朝), Yao C(姚晨). Effect of different respiratory inhibitors on the nitrate reductase activity. J Northwest Agric For Univ (西北农林科技大学学报), 2007, 35(8): 185–188 (in Chinese with English abstract)



[8]Lea U S, Hoopen F T, Kaiser F P W M, Meyer C, Lillo C. Mutation of the regulatory phosphorylation site of tobacco nitrate reductase results in high nitrite excretion and NO emission from leaf and root tissue. Planta, 2004, 219: 59–65



[9]Kaur G, Chandna R, Pandey R, Abrol Y P, Iqbal M, Ahmad A. Sulfur starvation and restoration affect nitrate uptake and assimilation in rapeseed. Protoplasma, 2011, 248: 299–311



[10]Garcia-Mata C, Lamattina L. Abscisic acid, nitric oxide and stomatal closure is nitrate reductase one of the missing links. Trends Plant Sci, 2003, 8: 20–26



[11]Fan X-R(范晓荣). Physiological and Molecular Mechanisms of Nitrate Transmembrane Transport in Rice. PhD Dissertation Thesis Nanjing Agricultural University, 2005 (in Chinese with English abstract)



[12]Fan X R, Jia L J, Li Y L, Smith S J, Miller A J, Shen Q R. Comparing nitrate storage and remobilization in two rice cultivars that differ in their nitrogen use efficiency. J Exp Bot, 2007, 58: 1729–1740



[13]Chen L-Z(陈龙正), Liang L(梁亮), Xu H(徐海), Song B(宋波), Su X-J(苏小俊), Yuan X-H(袁希汉). Relationship of photosynthetic characters and nitrate reductase activity of pakchoi. Acta Bot Boreali-Occident Sin (西北植物学报), 2009, 29(11): 2256–2260 (in Chinese with English abstract)



[14]Si J-Y(司江英), Wang X-L(汪晓丽), Chen P(陈平), Feng K(封克). Effect of NR inhibitor and NH4+ on NO3- absorpion of different rice genotypes. J Ynagzhou Univ (扬州大学学报), 2004, 25(1): 59–62 (in Chinese with English abstract)



[15]Zhao S P, Ye X Z, Zhang Y Z, Zheng J C. The contribution of bnnrt1 and bnnrt2 to nitrate accumulation varied according to genotypes in Chinese cabbage. African J Biotech, 2010, 9: 4910–4917



[16]Huang C-B(黄彩变), Wang Z-H(王朝辉), Li S-X(李生秀). Nutritional and physiological significance of nitrate accumulation in plant vacuolar. Soils (土壤), 2006, 38(6): 820–824 (in Chinese with English abstract)



[17]Botrel A, Kaiser W M. Nitrate reductase activation state in barley roots in relation to the energy and carbohydrate status. Planta, 1997, 201: 496–501



[18]Kaiser W M, Huber S. Modulation of nitrate reductase in vivo and in vitro: effects of phosphoprotein phosphatase inhibitors, free Mg2+ and 5’AMP. Planta, 1994, 193: 358–364



[19]Huang C-B(黄彩变), Wang Z-H(王朝辉), Wang X-Y(王小英), Li S-X(李生秀). Nitrate accumulation and reduction in spinach and their relations to plant growth. J Agro-Environ Sci (农业环境科学学报), 2011, 30(4): 613–618 (in Chinese with English abstract)



[20]Miller A J, Smith S J. Nitrate transport and compartmentation in cereal root cells. J Exp Bot, 1996, 47: 843–854
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