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Items: 1 to 20 of 115

1.

Methodological approaches for using synchrotron X-ray fluorescence (SXRF) imaging as a tool in ionomics: examples from Arabidopsis thaliana.

Punshon T, Ricachenevsky FK, Hindt MN, Socha AL, Zuber H.

Metallomics. 2013 Sep;5(9):1133-45. doi: 10.1039/c3mt00120b. Review.

2.

Using synchrotron X-ray fluorescence microprobes in the study of metal homeostasis in plants.

Punshon T, Guerinot ML, Lanzirotti A.

Ann Bot. 2009 Mar;103(5):665-72. doi: 10.1093/aob/mcn264. Epub 2009 Jan 31. Review.

3.

Inferring the geometry of fourth-period metallic elements in arabidopsis thaliana seeds using synchrotron-based multi-angle X-ray fluorescence mapping.

Young L, Westcott N, Christensen C, Terry J, Lydiate D, Reaney M.

Ann Bot. 2007 Dec;100(6):1357-65. Epub 2007 Sep 19.

4.

Exploiting natural variation to uncover candidate genes that control element accumulation in Arabidopsis thaliana.

Conn SJ, Berninger P, Broadley MR, Gilliham M.

New Phytol. 2012 Mar;193(4):859-66. Review.

PMID:
22403822
5.

Mapping element distributions in plant tissues using synchrotron X-ray fluorescence techniques.

Donner E, de Jonge MD, Kopittke PM, Lombi E.

Methods Mol Biol. 2013;953:143-59. doi: 10.1007/978-1-62703-152-3_9.

PMID:
23073881
6.

Functional characterisation of metal(loid) processes in planta through the integration of synchrotron techniques and plant molecular biology.

Donner E, Punshon T, Guerinot ML, Lombi E.

Anal Bioanal Chem. 2012 Apr;402(10):3287-98. doi: 10.1007/s00216-011-5624-9. Epub 2011 Dec 27. Review.

7.

Unbiased characterization of genotype-dependent metabolic regulations by metabolomic approach in Arabidopsis thaliana.

Kusano M, Fukushima A, Arita M, Jonsson P, Moritz T, Kobayashi M, Hayashi N, Tohge T, Saito K.

BMC Syst Biol. 2007 Nov 21;1:53.

8.

The role of CAX1 and CAX3 in elemental distribution and abundance in Arabidopsis seed.

Punshon T, Hirschi K, Yang J, Lanzirotti A, Lai B, Guerinot ML.

Plant Physiol. 2012 Jan;158(1):352-62. doi: 10.1104/pp.111.184812. Epub 2011 Nov 15.

9.

Plant calcium content: ready to remodel.

Yang J, Punshon T, Guerinot ML, Hirschi KD.

Nutrients. 2012 Aug;4(8):1120-36. Epub 2012 Aug 21.

10.

Self-rescue of an EXTENSIN mutant reveals alternative gene expression programs and candidate proteins for new cell wall assembly in Arabidopsis.

Saha P, Ray T, Tang Y, Dutta I, Evangelous NR, Kieliszewski MJ, Chen Y, Cannon MC.

Plant J. 2013 Jul;75(1):104-16. doi: 10.1111/tpj.12204. Epub 2013 May 16.

11.

Natural variants of AtHKT1 enhance Na+ accumulation in two wild populations of Arabidopsis.

Rus A, Baxter I, Muthukumar B, Gustin J, Lahner B, Yakubova E, Salt DE.

PLoS Genet. 2006 Dec 1;2(12):e210. Epub 2006 Oct 26.

12.

A high-throughput determination of metal concentrations in whole intact Arabidopsis thaliana seeds using synchrotron-based X-ray fluorescence spectroscopy.

Young LW, Westcott ND, Attenkofer K, Reaney MJ.

J Synchrotron Radiat. 2006 Jul;13(Pt 4):304-13. Epub 2006 Jun 15.

PMID:
16799221
13.

Two novel proteins, MRL7 and its paralog MRL7-L, have essential but functionally distinct roles in chloroplast development and are involved in plastid gene expression regulation in Arabidopsis.

Qiao J, Ma C, Wimmelbacher M, Börnke F, Luo M.

Plant Cell Physiol. 2011 Jun;52(6):1017-30. doi: 10.1093/pcp/pcr054. Epub 2011 Apr 22.

PMID:
21515910
14.

A molecular and structural characterization of senescing Arabidopsis siliques and comparison of transcriptional profiles with senescing petals and leaves.

Wagstaff C, Yang TJ, Stead AD, Buchanan-Wollaston V, Roberts JA.

Plant J. 2009 Feb;57(4):690-705. doi: 10.1111/j.1365-313X.2008.03722.x. Epub 2008 Oct 16.

15.
16.

Successful reproduction requires the function of Arabidopsis Yellow Stripe-Like1 and Yellow Stripe-Like3 metal-nicotianamine transporters in both vegetative and reproductive structures.

Chu HH, Chiecko J, Punshon T, Lanzirotti A, Lahner B, Salt DE, Walker EL.

Plant Physiol. 2010 Sep;154(1):197-210. doi: 10.1104/pp.110.159103. Epub 2010 Jul 12.

17.

Haemoglobin modulates NO emission and hyponasty under hypoxia-related stress in Arabidopsis thaliana.

Hebelstrup KH, van Zanten M, Mandon J, Voesenek LA, Harren FJ, Cristescu SM, Møller IM, Mur LA.

J Exp Bot. 2012 Sep;63(15):5581-91. doi: 10.1093/jxb/ers210. Epub 2012 Aug 21.

18.

Genomic scale profiling of nutrient and trace elements in Arabidopsis thaliana.

Lahner B, Gong J, Mahmoudian M, Smith EL, Abid KB, Rogers EE, Guerinot ML, Harper JF, Ward JM, McIntyre L, Schroeder JI, Salt DE.

Nat Biotechnol. 2003 Oct;21(10):1215-21. Epub 2003 Aug 31.

PMID:
12949535
19.

Inheritance beyond plain heritability: variance-controlling genes in Arabidopsis thaliana.

Shen X, Pettersson M, Rönnegård L, Carlborg Ö.

PLoS Genet. 2012;8(8):e1002839. doi: 10.1371/journal.pgen.1002839. Epub 2012 Aug 2.

20.

Large-scale reverse genetics in Arabidopsis: case studies from the Chloroplast 2010 Project.

Ajjawi I, Lu Y, Savage LJ, Bell SM, Last RL.

Plant Physiol. 2010 Feb;152(2):529-40. doi: 10.1104/pp.109.148494. Epub 2009 Nov 11.

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