SEARCH

SEARCH BY CITATION

References

  • Ameziane R, Bernhard K, Lightfoot D. 2000. Expression of the bacterial gdhA gene encoding a NADPH-glutamate dehydrogenase in tobacco affects plant growth and development. Plant and Soil 221: 4757.
  • Assenov Y, Ramírez F, Schelhorn SE, Lengauer T, Albrecht M. 2008. Computing topological parameters of biological networks. Bioinformatics 24: 282284.
  • Below FE, Cazetta JO, Seebauer JR. 2000. Carbon/nitrogen interactions during ear and kernel development of maize. In: Westgate ME, Boote KJ, eds. Physiology and modelling kernel set in maize, Vol. 29. Madison, WI, USA: Crop Science Society of America and American Society of Agronomy, 1524.
  • Bertin P, Gallais A. 2000. Physiological and genetic basis of nitrogen use efficiency in maize. I. Agrophysiological results. Maydica 45: 5366.
  • Bertin P, Gallais A. 2001. Physiological and genetic basis of nitrogen use efficiency in maize. II. QTL detection and coincidences. Maydica 46: 5368.
  • Bradford MM. 1976. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein–dye binding. Analytical Biochemistry 72: 248254.
  • Cañas RA, Quilleré I, Christ A, Hirel B. 2009. Nitrogen metabolism in the developing ear of maize (Zea mays): analysis of two lines contrasting in their mode of nitrogen management. New Phytologist 184: 340352.
  • Cañas RA, Quilleré I, Lea PJ, Hirel B. 2010. Analysis of amino acid metabolism in the ear of maize mutants deficient in two cytosolic glutamine synthetase isoenzymes highlights the importance of asparagine for nitrogen translocation within sink organs. Plant Biotechnology Journal 8: 966978.
  • Causse M, Santoni S, Damerval C, Maurice A, Charcosset A, Deatrick J, de Vienne D. 1996. A composite map of expressed sequences in maize. Genome 39: 418432.
  • Coque M, Martin A, Veyrieras JB, Hirel B, Gallais A. 2008. Genetic variation for N-remobilization and postsilking N-uptake in a set of maize recombinant inbred lines. 3. QTL detection and coincidences. Theoretical and Applied Genetics 117: 729747.
  • Douce R, Bourguignon J, Neuburger M, Rébeillé F. 2001. The glycine decarboxylase system: a fascinating complex. Trends in Plant Science 6: 167176.
  • Dubois F, Tercé-Laforgue T, Gonzalez-Moro MB, Estavillo MB, Sangwan R, Gallais A, Hirel B. 2003. Glutamate dehydrogenase in plants: is there a new story for an old enzyme? Plant Physiology and Biochemistry 41: 565576.
  • Ferrario-Méry S, Valadier M-H, Foyer C. 1998. Overexpression of nitrate reductase in tobacco delays drought-induced decreases in nitrate reductase activity and mRNA. Plant Physiology 117: 293302.
  • Gallais A, Hirel B. 2004. An approach of the genetics of nitrogen use efficiency in maize. Journal of Experimental Botany 396: 295306.
  • Good AG, Beatty PH. 2011. Biotechnological approaches to improving nitrogen use efficiency in plants: alanine aminotransferase as a case of study. In: Hawkesford MJ, Barraclough PB, eds. The molecular and physiological basis of nutrient use efficiency in crops. Chichester, UK: Wiley-Blackwell, 165191.
  • Good AG, Johnson SJ, De Pauw M, Carroll RT, Savodiv N, Vidmar J, Lu Z, Taylor G, Stroeher V. 2007. Engineering nitrogen use efficiency with alanine aminotransferase. Canadian Journal of Botany 85: 252262.
  • Hallauer AR, Carena MJ. 2009. Maize breeding. In: Carena MJ, ed. Handbook of plant breeding: cereals. New York, NY, USA: Springer Science, 398.
  • Hirel B, Bertin P, Quillere I, Bourdoncle W, Attagnant C, Dellay C, Gouy A, Cadiou S, Retailliau C, Falque M et al. 2001. Towards a better understanding of the genetic and physiological basis for nitrogen use efficiency in maize. Plant Physiology 125: 12581270.
  • Hirel B, Le Gouis J, Bernard M, Perez P, Falque M, Quétier F, Joets J, Montalent P, Rogwoski P, Murigneux A et al. 2007b. Genomics and plant breeding: maize and wheat. In: Morot-Gaudry JF, Lea PJ, Briat JF, eds. Functional plant genomics. Enfield, NH, USA: Science Publishers, 614635.
  • Hirel B, Le Gouis J, Ney B, Gallais A. 2007a. The challenge of improving nitrogen use efficiency in crop plants: towards a more central role for genetic variability and quantitative genetics within integrated approaches. Journal of Experimental Botany 58: 23692387.
  • Hirel B, Lea PJ. 2011. The molecular genetics of nitrogen use efficiency in crops. In: Hawkesford MJ, Barraclough PB, eds. The molecular and physiological basis of nutrient use efficiency in crops. Chichester, UK: Wiley-Blackwell, 139164.
  • Hirel B, Tétu T, Lea PJ, Dubois F. 2011. Improving nitrogen use efficiency in crops for a sustainable agriculture. Sustainability 3: 14521485.
  • Igarashi D, Tsuchida H, Miyao M, Ohsumi C. 2006. Glutamate:glyoxylate aminotransferase modulates amino acid content during photorespiration. Plant Physiology 142: 901991.
  • Lacuesta M, Dever LV, Munoz-Rueda A, Lea PJ. 1997. A study of photorespiratory ammonia production in the C4 plant Amaranthus edulis. Physiologia Plantarum 99: 447455.
  • Lander ES, Botstein D. 1989. Mapping mendelian factors underlying quantitative traits using RFLP linkage maps. Genetics 121: 185199.
  • Lea PJ, Sodek MA, Parry MAJ, Shewry PR, Halford NG. 2007. Asparagine in plants. Annals of Applied Biology 150: 126.
  • Lemaître T, Gaufichon L, Boutet-Mercey S, Christ A, Masclaux-Daubresse C. 2008. Enzymatic and metabolic diagnostic of nitrogen deficiency in Arabidopsis thaliana Wassileskija accession. Plant and Cell Physiology 49: 10561065.
  • Limami AM, Rouillon C, Glevarec G, Gallais A, Hirel B. 2002. Genetic and physiological analysis of germination efficiency in maize in relation to N metabolism reveals the importance of cytosolic glutamine synthetase. Plant Physiology 130: 18601870.
  • Loulakakis KA, Morot-Gaudry JF, Velanis CN, Skopelitis DS, Moschou PN, Hirel B, Roubelakis-Angelakis KA. 2009. Advancements in nitrogen metabolism in grapevine. In: Roubelakis-Angelakis KA, ed. Grapevine molecular physiology and biotechnology, 2nd edn. Dordrecht, Heidelberg, London, New York: Springer, 161205.
  • Martin A, Lee J, Kichey T, Gerentes D, Zivy M, Tatout C, Dubois F, Balliau T, Valot B, Davanture M et al. 2006. Two cytosolic glutamine synthetase isoforms of maize are specifically involved in the control of kernel production. Plant Cell 18: 32523274.
  • Maurino VG, Peterhansel C. 2010. Photorespiration: current status and approaches for metabolic engineering. Current Opinion in Plant Biology 13: 249256.
  • Méchin V, Thévenot C, Le Guilloux M, Prioul JL, Damerval C. 2007. Developmental analysis of maize endosperm proteome suggests a pivotal role for pyruvate orthophosphate dikinase. Plant Physiology 143: 12031219.
  • Moose SP, Below FE. 2009. Biotechnology approaches to improving maize nitrogen use efficiency. In: Kriz AL, Larkins BA, eds. Molecular gene approaches to maize improvement. Biotechnology in agriculture and forestry. Berlin, Germany: Springer Verlag, 6577.
  • Moose SP, Mumm RH. 2008. Molecular plant breeding as the foundation for 21st century crop improvement. Plant Physiology 147: 969977.
  • O’Neal D, Joy KW. 1973. Glutamine synthetase of pea leaves. I. Purification, stabilisation and pH optima. Archives of Biochemistry and Biophysics 159: 113122.
  • Pan WL, Camberato JJ, Jackson WA, Moll RH. 1986. Utilization of previously accumulated and concurrently absorbed nitrogen during reproductive growth in maize: influence of prolificacy and nitrogen source. Plant Physiology 82: 247253.
  • Ribaud JM, Betran J, Monneveux P, Setter T. 2009. Drought tolerance in maize. In: Bennetzen Jl, Hake SC, eds. Handbook of maize: its biology. Dordrecht, Heidelberg, London, New York: Springer Science + Business Media, LLC, 311344.
  • Ribaud JM, Hoisington D. 1998. Marker assisted selection: new tools and strategies. Trends in Plant Science 3: 236239.
  • Rosen H. 1957. A modified ninhydrin colorimetric analysis for amino acids. Archives of Biochemistry and Biophysics 67: 1015.
  • SAS. 1990. SAS statistics users guide, statistical analysis system, 5th edn. Cary, NC, USA: SAS Institute Inc.
  • Schnable PS, Ware D, Fulton RS, Stein JC, Wei F, Pasternak S, Liang C, Khang J, Fulton L, Graves TA et al. 2009. The B73 maize genome: complexity, diversity and dynamics. Science 326: 11121115.
  • Seebauer JR, Moose SP, Fabbri BJ, Crossland LD, Below FE. 2004. Amino acid metabolism in maize earshoots. Implications for assimilate preconditioning and nitrogen signaling. Plant Physiology 136: 43264334.
  • Shrawat AK, Caroll RT, DePauw M, Taylor GJ, Good AG. 2008. Genetic engineering of improved nitrogen use efficiency in rice by the tissue-specific expression of alanine aminotransferase. Plant Biotechnology Journal 6: 722732.
  • Smoot ME, Ono K, Ruscheinski J, Wang PL, Ideker T. 2011. Cytoscape 2.8: new features for data integration and network visualization. Bioinformatics 27: 431432.
  • Springer NM, Stupar RM. 2007. Allelic variation and heterosis in maize: how do two halves make more than a whole? Genome Research 17: 264274.
  • Turano FJ, Thakkar SS, Fang T, Weisemann JM. 1996. Characterisation and expression of NAD(H) dependent glutamate dehydrogenase genes in Arabidopsis. Plant Physiology 113: 13291341.
  • Utz HF, Melchinger AE. 1995. PLABQTL a computer program to map QTL. Journal of Quantitative Trait Loci. 1: 2.
  • Zelitch I, Schultes NP, Peterson RB, Brown P, Brutnell TP. 2009. High glycolate oxidase activity is required for survival of maize in normal air. Plant Physiology 149: 195204.
  • Zinselmeier C, Westgate ME, Schussler JR, Jones RJ. 1995. Low water potential disrupts carbohydrate metabolism in maize (Zea mays L.) ovaries. Plant Physiology 107: 385391.