Physiological and Molecular Response of Wheat Roots to Nitrate Supply in Seedling Stage

Agricultural Sciences in China

Volumn 10, Issue 5, 2011, Pages 695-704

  Wang, Ping ^a   Wang, Zhen lin ^a   Cai, Rui guo ^a,b   Li, Yong ^a   Chen, Xiao guang ^a   Yin, Yan ping ^a  

^a SHANDONG AGRICULTURAL UNIVERSITY   (China)

^b HEBEI NORMAL UNIVERSITY OF SCIENCE AND TECHNOLOGY   (China)

Author keywords

N metabolites; Nitrate uptake; Root parameters; TaNRT expression; Wheat

Indexed keywords

TRITICUM AESTIVUM;

EID: 79959950119     PISSN: 16712927     EISSN: None     Source Type: Journal    
DOI: 10.1016/S1671-2927(11)60052-7     Document Type: Article

References (45)

1. Aerts R, Chapin FS The mineral nutrition of wild plants revisited: a re-evaluation of processes and patterns. Advances in Ecological Research 2000, 30:1-67.
2. Cai C, Zhao XQ, Zhu YG, Li B, Tong YP, Li ZS Regulation of the high-affinity nitrate transport system in wheat roots by exogenous abscisic acids and glutamine. Journal of Integrative Plant Biology 2007, 49:1719-1725.
3. Chun L, Mi GH, Li JS, Chen FJ, Zhang FS Genetic analysis of maize root characteristics in response to low nitrogen stress. Plant and Soil 2005, 276:369-382.
4. Cooper HD, Clarkson DT Cycling of amino-nitrogen and other nutrients between shoots and roots in cereals - a possible mechanism integrating shoot and root in the regulation of nutrient uptake. Journal of Experimental Botany 1989, 40:753-762.
5. Crawford NM, Glass ADM Molecular and physiological aspects of nitrate uptake in plants. Trends in Plant Science 1998, 3:389-395.
6. Dhugga KS, Waines JG Analysis of nitrogen accumulation and use in bread and durum wheat. Crop Science 1989, 29:1232-1239.
7. Forde BG Nitrate transporters in plants: structure, function and regulation. Biochimica et Biophysica Acta 2000, 1465:219-235.
8. Forde BG Local and long-range signaling pathways regulating plant responses to nitrate. Annual Review of Plant Biology 2002, 53:203-224.
9. Forde BG The role of long-distance signalling in plant responses to nitrate and other nutrients. Journal of Experimental Botany 2002, 53:39-43.
10. Glass ADM Nitrogen use efficiency of crop plants: physiological constraints upon nitrogen absorption. Plant Science 2003, 22:453-470.
11. He ZF Analysis Technology and Quality of Cereals and Oil 1985, Agricultural Press, Beijing, (in Chinese).
12. Herrera JM, Stamp P, Liedgens M Interannual variability in root growth of spring wheat (Triticum aestivum L.) at low and high nitrogen supply. Europen Journal of Agronomy 2007, 26:317-326.
13. Hirel B, Andrieu B, Valadier MH, Renard S, Quilleré I, Chelle M, Pommel B, Fournier C, Drouet JL Physiology of maize II: identification of physiological markers representative of the nitrogen status of maize (Zea mays) leaves during grain filling. Physiologia Plantarum 2005, 124:178-188.
14. Hodge A The plastic plant: root responses to heterogeneous supplies of nutrients. New Phytologist 2004, 162:9-24.
15. Imsande J, Touraine B N demand and the regulation of nitrate uptake. Plant Physiology 1994, 105:3-7.
16. Inthapanya P, Sipaseuth, Sihavong P, Sihathep V, Chanphengsay M, Fukai S, Basnayake J Genotype differences in nutrient uptake and utilization for grain yield production of rained lowland rice under fertilized and non-fertilized conditions. Field Crops Research 2000, 65:57-68.
17. Kondo M, Pablico PP, Aragones DV, Agbisit R, Abe J, Morita S, Courtois B Genotype and environmental variations in root morphology in rice genotypes under upland field conditions. Plant and Soil 2003, 255:189-200.
18. Krouk G, Tillard P, Gojon A Regulation of the high-affinity NO3- uptake system by NRT1.1-mediated NO3- demand signaling in Arabidopsis. Plant Physiology 2006, 142:1075-1086.
19. Lejay L, Tillard P, Lepetit M, Olive FD, Filleur S, Daniel-Vedele F, Gojon A Molecular and functional regulation of two NO3- uptake systems by N- and C-status of Arabidopsis plants. The Plant Journal 1999, 18:509-519.
20. Li DQ Technology of Physiology Experiment 2004, China Science Technology Press, Beijing, (in Chinese).
21. Liu JX, Chen FJ, Olokhnuud CL, Glass ADM, Tong YP, Zhang FS, Mi GH Root size and nitrogen-uptake activity in two maize (Zea mays) inbred lines differing in nitrogen-use efficiency. Journal of Plant Nutrition and Soil Science 2009, 172:230-236.
22. Loudet O, Chaillou S, Merigout P, Talbotec J, Daniel-Vedele F Quantitative trait loci analysis of nitrogen use efficiency in Arabidopsis. Plant Physiology 2003, 131:345-358.
23. Luo JK, Sun SB, Jia LJ, Chen W, Shen QR The mechanism of nitrate accumulation in pakchoi [Brassica campestris L. ssp. chinensis (L.)]. Plant and Soil 2006, 282:291-300.
24. Malamy JE Intrinsic and environmental response pathways that regulate root system architecture. Plant, Cell and Environment 2005, 28:67-77.
25. Matt P, Geiger M, Walch-Liu P, Engels C, Krapp A, Stitt M The immediate cause of the diurnal changes of nitrogen metabolism in leaves of nitrate-replete tobacco: a major imbalance between the rate of nitrate reduction and the rates of nitrate uptake and ammonium metabolism during the first part of the light period. Plant, Cell and Environment 2001, 24:177-190.
26. Mi GH, Chen FJ, Zhang FS Multiple signalling pathways control nitrogen-mediated root elongation in maize. Plant Signaling & Behavior 2008, 3:1030-1032.
27. Miller AJ, Fan XR, Orsel M, Smith SJ, Wells DM Nitrate transport and signalling. Journal of Experimental Botany 2007, 22:1-10.
28. Munos S, Cazettes C, Fizames C, Gaymard F, Tillard P, Lepetit M, Lejay L, Gojon A Transcript profiling in the chl1-5 mutant of Arabidopsis reveals a role of the nitrate transporter NRT1.1 in the regulation of another nitrate transporter NRT2.1. The Plant Cell 2004, 16:2433-2447.
29. Nazoa P, Vidmar JJ, Tranbarger TJ, Mouline K, Damiani I, Tillard P, Zhuo D, Glass ADM, Touraine B Regulation of the nitrate transporter gene AtNRT2.1 in Arabidopsis thaliana: responses to nitrate, amino acids and developmental stage. Plant Molecular Biology 2003, 52:689-703.
30. Niu JF, Chen FJ, Mi GH, Li CJ, Zhang FS Transpiration and nitrogen uptake and flow in two maize (Zea mays L.) inbred lines as affected by nitrogen supply. Annals of Botany 2007, 99:153-160.
31. Okamoto M, Vidmar JJ, Glass ADM Regulation of NRT1 and NRT2 gene families of Arabidopsis thaliana: responses to nitrate provision. Plant and Cell Physiology 2003, 44:304-317.
32. Orsel M, Filleur S, Fraisier V, Daniel-Vedele F Nitrate transport in plants: which gene and which control?. Journal of Experimental Boyany 2002, 53:825-833.
33. Robinson D Root proliferation, nitrate inflow and their carbon costs during nitrogen capture by competing plants in patchy soil. Plant and Soil 2001, 232:41-50.
34. Siddiqi MY, Glass ADM, Ruth TJ, Rufty TW Studies of the uptake of nitrate in barley: I. kinetics of 13NO3- influx. Plant Physiology 1990, 93:1426-1432.
35. Uribelarrea M, Crafts-Brandner SJ, Below FE Physiological N response of field-grown maize hybrids (Zea mays L.) with divergent yield potential and grain protein concentration. Plant and Soil 2009, 316:151-160.
36. Vidmar JJ, Zhuo D, Siddiqi MY, Schjoerring JK, Touraine B, Glass ADM Regulation of high-affinity nitrate transporter genes and high-affinity nitrate influx by nitrogen pools in roots of barley. Plant Physiology 2000, 123:307-318.
37. Walch-Liu P, Ivanov II, Filleur S, Gan Y, Remans T, Forde BG Nitrogen regulation of root branching. Annals of Botany 2006, 97:875-881.
38. Wang Y, Mi GH, Chen FJ, Zhang JH, Zhang FS Response of root morphology to nitrate supply and its contribution to nitrogen accumulation in maize. Journal of Plant Nutrition 2004, 27:2189-2202.
39. Yin LP, Li P, Wen B, Taylor D, Berry JO Characterization and expression of a high-affinity nitrate system transporter gene (TaNRT2.1) from wheat roots, and its evolutionary relationship to other NTR2 genes. Plant Science 2007, 172:621-631.
40. Zhai BN, Sun CM, Wang JR, Li SX Effects of nitrogen deficiency on the growth and development of winter wheat roots. Acta Agronomica Sinica 2003, 11:913-918. (in Chinese).
41. Zhang DY, Zhang YQ, Yang WD, Miao GY Biological response of roots in different spring wheat genotypes to low nitrogen stress. Acta Agronomica Sinica 2006, 32:1349-1354. (in Chinese).
42. Zhang HM, Forde BG Regulation of Arabidopsis root development by nitrate availability. Journal of Experimental Botany 2000, 51:51-59.
43. Zhang HM, Rong HL, Pilbeam D Signalling mechanisms underlying the morphological responses of the root system to nitrogen in Arabidopsis thaliana. Journal of Experimental Botany 2007, 19:1-10.
44. Zhao XQ, Li YJ, Liu JZ, Li B, Liu QY, Tong YP, Li JY, Li ZS Isolation and expression analysis of a high-affinity nitrate transporter TaNRT2.3 from roots of wheat. Acta Botanica Sinica 2004, 46:347-354.
45. Zhuo DG, Okamoto M, Vidmar J, Glass ADM Regulation of putative high-affinity nitrate transporter (Nrt2;1At) in roots of Arabidopsis thaliana. The Plant Journal 1999, 17:563-569.