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Items: 1 to 20 of 289

1.

Requirement for the plastidial oxidative pentose phosphate pathway for nitrate assimilation in Arabidopsis.

Bussell JD, Keech O, Fenske R, Smith SM.

Plant J. 2013 Aug;75(4):578-91. doi: 10.1111/tpj.12222. Epub 2013 May 30.

2.
4.

Glucose elevates NITRATE TRANSPORTER2.1 protein levels and nitrate transport activity independently of its HEXOKINASE1-mediated stimulation of NITRATE TRANSPORTER2.1 expression.

de Jong F, Thodey K, Lejay LV, Bevan MW.

Plant Physiol. 2014 Jan;164(1):308-20. doi: 10.1104/pp.113.230599. Epub 2013 Nov 22.

5.

Multiple routes communicating nitrogen availability from roots to shoots: a signal transduction pathway mediated by cytokinin.

Takei K, Takahashi T, Sugiyama T, Yamaya T, Sakakibara H.

J Exp Bot. 2002 Apr;53(370):971-7. Review.

PMID:
11912239
6.

The effect of Glc6P uptake and its subsequent oxidation within pea root plastids on nitrite reduction and glutamate synthesis.

Bowsher CG, Lacey AE, Hanke GT, Clarkson DT, Saker LR, Stulen I, Emes MJ.

J Exp Bot. 2007;58(5):1109-18. Epub 2007 Jan 13.

PMID:
17220512
7.
8.

Nitrite transport activity of a novel HPP family protein conserved in cyanobacteria and chloroplasts.

Maeda S, Konishi M, Yanagisawa S, Omata T.

Plant Cell Physiol. 2014 Jul;55(7):1311-24. doi: 10.1093/pcp/pcu075. Epub 2014 Jun 5.

PMID:
24904028
9.

A 150 kDa plasma membrane complex of AtNRT2.5 and AtNAR2.1 is the major contributor to constitutive high-affinity nitrate influx in Arabidopsis thaliana.

Kotur Z, Glass AD.

Plant Cell Environ. 2015 Aug;38(8):1490-502. doi: 10.1111/pce.12496. Epub 2015 Jan 31.

PMID:
25474587
10.

Plastidial glyceraldehyde-3-phosphate dehydrogenase deficiency leads to altered root development and affects the sugar and amino acid balance in Arabidopsis.

Muñoz-Bertomeu J, Cascales-Miñana B, Mulet JM, Baroja-Fernández E, Pozueta-Romero J, Kuhn JM, Segura J, Ros R.

Plant Physiol. 2009 Oct;151(2):541-58. doi: 10.1104/pp.109.143701. Epub 2009 Aug 12.

11.

Exaggerated root respiration accounts for growth retardation in a starchless mutant of Arabidopsis thaliana.

Brauner K, Hörmiller I, Nägele T, Heyer AG.

Plant J. 2014 Jul;79(1):82-91. doi: 10.1111/tpj.12555. Epub 2014 Jun 20.

12.

The sink-specific plastidic phosphate transporter PHT4;2 influences starch accumulation and leaf size in Arabidopsis.

Irigoyen S, Karlsson PM, Kuruvilla J, Spetea C, Versaw WK.

Plant Physiol. 2011 Dec;157(4):1765-77. doi: 10.1104/pp.111.181925. Epub 2011 Sep 29.

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14.

The effect of nitrate assimilation deficiency on the carbon and nitrogen status of Arabidopsis thaliana plants.

Santos-Filho PR, Saviani EE, Salgado I, Oliveira HC.

Amino Acids. 2014 Apr;46(4):1121-9. doi: 10.1007/s00726-014-1674-6. Epub 2014 Jan 28.

PMID:
24468931
15.

Arabidopsis roots and shoots show distinct temporal adaptation patterns toward nitrogen starvation.

Krapp A, Berthomé R, Orsel M, Mercey-Boutet S, Yu A, Castaings L, Elftieh S, Major H, Renou JP, Daniel-Vedele F.

Plant Physiol. 2011 Nov;157(3):1255-82. doi: 10.1104/pp.111.179838. Epub 2011 Sep 7.

16.

Molecular and functional regulation of two NO3- uptake systems by N- and C-status of Arabidopsis plants.

Lejay L, Tillard P, Lepetit M, Olive Fd, Filleur S, Daniel-Vedele F, Gojon A.

Plant J. 1999 Jun;18(5):509-19.

17.

Differential expression and function of Arabidopsis thaliana NHX Na+/H+ antiporters in the salt stress response.

Yokoi S, Quintero FJ, Cubero B, Ruiz MT, Bressan RA, Hasegawa PM, Pardo JM.

Plant J. 2002 Jun;30(5):529-39.

18.

Four alleles of AtCESA3 form an allelic series with respect to root phenotype in Arabidopsis thaliana.

Pysh L, Alexander N, Swatzyna L, Harbert R.

Physiol Plant. 2012 Apr;144(4):369-81.

PMID:
22514801
20.

Nitrate efflux at the root plasma membrane: identification of an Arabidopsis excretion transporter.

Segonzac C, Boyer JC, Ipotesi E, Szponarski W, Tillard P, Touraine B, Sommerer N, Rossignol M, Gibrat R.

Plant Cell. 2007 Nov;19(11):3760-77. Epub 2007 Nov 9.

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