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Konishi M, Yanagisawa S (2010) Identification of a nitrate-responsive cis -element in the
Arabidopsis NIR1 promoter defines the presence of multiple cis -regulatory elements for
nitrogen response. Plant J 63:269-282
Krizek BA, Prost V, Joshi RM, Stoming T, Glenn TC (2003) Developing transgenic Arabidopsis
plants to be metal-specific bioindicators. Environ Toxicol Chem 22:175-181
Kutz A, Muller A, Hennig P, Kaiser WM, Piotrowski M, Weiler EW (2002) A role for nitrilase 3 in
the regulation of root morphology in sulphur-starving Arabidopsis thaliana . Plant J 30:95-106
Lappartient AG, Touraine B (1997) Glutathione-mediated regulation of ATP sulfurylase activity,
SO 4 2 uptake, and oxidative stress response in intact canola roots. Plant Physiol 114:177-183
Lappartient AG, Vidmar JJ, Leustek T, Glass AMD, Touraine B (1999) Inter-organ signalling in
plants: regulation of ATP sulfurylase and sulfate transporter genes expression in roots medi-
ated by phloem-translocated compound. Plant J 18:89-95
Lea US, Slimestad R, Smedvig P, Lillo C (2007) Nitrogen deficiency enhances expression of
specific MYB and bHLH transcription factors and accumulation of end products in the
flavonoids pathway. Planta 225:1245-1253
Lemaire G, Gastal F (2009) Quantifying crop responses to nitrogen deficiency and avenues to
improve nitrogen use efficiency. In: Sadras VO, Calderini DF (eds) Crop physiology: appli-
cations for genetic improvement and agronomy. Elsevier Publisher, Adelaide, pp 171-211
Li L, Liu C, Lian X (2010) Gene expression profiles in rice roots under low phosphorus stress.
Plant Mol Biol 72:423-432
Lu C, Zhang J (2000) Photosynthetic CO 2 assimilation, chlorophyll fluorescence and
photoinhibition as affected by nitrogen deficiency in maize plants. Plant Sci 151:135-143
Ma TL, Wu WH, Wang Y (2012) Transcriptome analysis of rice root responses to potassium
deficiency. BMC Plant Biol 12:161
Malhi BS, Haderlein LK, Pauly DG, Johnston AM (2002) Improving fertilizer phosphorus use
efficiency. Better Crop 86:8-9
Maruyama-Nakashita A, Inoue E, Watanabe-Takahashi A, Yamaya T, Takahashi H (2003)
Transcriptome profiling of sulfur-responsive genes in Arabidopsis reveals global effects of
sulfur nutrition on multiple metabolic pathways. Plant Physiol 132:597-605
Maruyama-Nakashita A, Nakamura Y, Watanabe-Takahashi A, Inoue E, Yamaya T, Takahashi H
(2005) Identification of a novel cis -acting element conferring sulfur deficiency response in
Arabidopsis roots. Plant J 42:305-314
Maruyama-Nakashita A, Nakamura Y, Tohge T, Saito K, Takahashi H (2006) Arabidopsis SLIM1
is a central transcriptional regulator of plant sulfur response and metabolism. Plant Cell
18:3235-3251
Mena MA, Treynor TP, Mayo SL, Daugherty PS (2006) Blue fluorescent proteins with enhanced
brightness and photostability from a structurally targeted library. Nat Biotechnol 24:1569-
1571
Millwood RJ, Halfhill MD, Harkins D, Russotti R, Stewart CN (2003) Instrumentation and
methodology for quantifying GFP fluorescence in intact plant organs. Biotechniques 34:638-
643
Novina CD, Roy AL (1996) Core promoters and transcriptional control. Trends Genet 12:351-355
Odell JT, Nagy F, Chua NH (1985) Identification of DNA sequences required for activity of the
cauliflower mosaic virus 35S promoter. Nature 313:810-812
Ollinger SV, Richardson AD, Martin ME, Hollinger DY, Frolking SE, Reich PB, Plourd LC, Katul
GG, Munger JW, Oren R, Smith ML, Paw UKT, Bolstad PV, Cook BD, Day MC, Martin TA,
Monson RK, Schmid HP (2008) Canopy nitrogen, carbon assimilation, and albedo in temperate
and boreal forests: functional relations and potential climate feedbacks. Proc Natl Acad Sci U S
A 105:19336-19341
Pierce FJ, Nowak P (1999) Aspects of precision agriculture. In: Sparks DL (ed) Advances in
agronomy. Academic Press, New York, pp 1-85
Price J, Laxmi A, St Martin SK, Jang JC (2004) Global transcription profiling reveals multiple
sugar signal transduction mechanisms in Arabidopsis . Plant Cell 16:2128-2150
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