Agriculture Reference
In-Depth Information
Ozturk L, Eker S, Torun B, Cakmak I (2005) Variation in phosphorus efficiency among 73 bread
and durum wheat genotypes grown in a phosphorus-deficient calcareous soil. Plant Soil
269:69-80
Pao SS, Paulsen IT, Saier MH (1998) Major facilitator superfamily. Microbiol Mol Biol Rev
63:1-134
Pariasca-Tanaka J, Satoh K, Rose T, Mauleon R, Wissuwa M (2009) Stress response versus stress
tolerance: a transcriptome analysis of two rice lines contrasting in tolerance to phosphorus
deficiency. Rice 2:167-185
Paszkowski U, Kroken S, Roux C, Briggs SP (2002) Rice phosphate transporters include an
evolutionarily divergent gene specifically activated in arbuscular mycorrhizal symbiosis.
Proc Natl Acad Sci U S A 99:13324-13329
Peleg Z, Cakmak I, Ozturk L, Yazici A, Jun Y, Budak H, Korol AB, Fahim TA, Saranga Y (2009)
Quantitative trait loci conferring grain mineral nutrient concentrations in durum wheat x wild
emmer wheat RIL population. Theor Appl Genet 119:353-369
P
´
rez-Torres CA, L
´
pez-Bucio J, Cruz-Ram
´
rez A, Ibarra-Laclette E, Dharmasiri S, Estelle M,
Herrera-Estrella L (2008) Phosphate availability alters lateral root development in
Arabidopsis
by modulating auxin sensitivity via a mechanism involving the TIR1 auxin receptor. Plant Cell
20:3258-3272
Plaxton W, Tran HT (2011) Metabolic adaptation of phosphate-starved plants. Plant Physiol
156:1006-1015
Poirier Y, Thoma S, Somerville C, Schiefelbein J (1991) A mutant of
Arabidopsis
deficient in
xylem loading of phosphate. Plant Physiol 97:1087-1093
Preuss C, Huang CY, Gilliham M, Tyerman SD (2010) Channel-like characteristics of the
low-affinity barley phosphate transporter Pht1;6 when expressed in
xenopus
oocytes. Plant
Physiol 152:1431-1441
Raboy V (2009) Approaches and challenges to engineering seed phytate and total phosphorus.
Plant Sci 177:281-296
Rae AL, Cybinski DH, Jarmey JM, Smith FW (2003) Characterization of two phosphate trans-
porters from barley; evidence for diverse function and kinetic properties among members of
the Pht1 family. Plant Mol Biol 53:27-36
Rae AL, Jarmey JM, Mudge SR, Smith FW (2004) Over-expression of a high-affinity
transporter in transgenic barley plants does not enhance phosphate uptake rates. Funct Plant
Biol 31:141-148
Raghothama KG (1999) Phosphate acquisition. Annu Rev Plant Physiol Plant Mol Biol
50:665-693
Raghothama KG (2005) Phosphorous. In: Broadley MR, White PJ (eds) Plant nutritional geno-
mics. Blackwell Publishing Ltd., Oxford, pp 112-126
Rashotte AM, DeLong A, Muday GK (2001) Genetic and chemical reductions in protein phos-
phatase activity alter auxin transport, gravity response, and lateral root growth. Plant Cell
13:1683-1697
Rausch C, Bucher M (2002) Molecular mechanisms of phosphate transport in plants. Planta
216:23-37
Raven JA (2008) Phosphorus and the future. In: White PJ, Hammond JP (eds) The ecophysiology
of plant-phosphorus interactions. Springer, Dordrecht, pp 271-283
Raven JA (2012) Protein turnover and plant RNA and phosphorus requirements in relation to
nitrogen fixation. Plant Sci 188:25-35
Rebafka FP, Bationo A, Marschner H (1993) Phosphorus seed coating increases phosphorus
uptake, early growth and yield of pearl-millet (pennisetum-glaucum (l) r br) grown on an
acid sandy soil in niger, west-africa. Fertil Res 35:151-160
Ren F, Guo QQ, Chang LL, Chen L, Zhao CZ, Zhong H, Li XB (2012a)
Brassica napus PHR1
gene encoding a myb-like protein functions in response to phosphate starvation. PLoS One
7:e44005
Ren Y, He X, Liu D, Li J, Zhao X, Li B, Tong Y, Zhang A, Li Z (2012b) Major quantitative trait
loci for seminal root morphology of wheat seedlings. Mol Breed 30:139-148
