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Items: 1 to 20 of 113

1.

Combined NanoSIMS and synchrotron X-ray fluorescence reveal distinct cellular and subcellular distribution patterns of trace elements in rice tissues.

Moore KL, Chen Y, van de Meene AM, Hughes L, Liu W, Geraki T, Mosselmans F, McGrath SP, Grovenor C, Zhao FJ.

New Phytol. 2014 Jan;201(1):104-15. doi: 10.1111/nph.12497. Epub 2013 Sep 24.

2.

High-resolution secondary ion mass spectrometry reveals the contrasting subcellular distribution of arsenic and silicon in rice roots.

Moore KL, Schröder M, Wu Z, Martin BG, Hawes CR, McGrath SP, Hawkesford MJ, Feng Ma J, Zhao FJ, Grovenor CR.

Plant Physiol. 2011 Jun;156(2):913-24. doi: 10.1104/pp.111.173088. Epub 2011 Apr 13.

3.

Role of the node in controlling traffic of cadmium, zinc, and manganese in rice.

Yamaguchi N, Ishikawa S, Abe T, Baba K, Arao T, Terada Y.

J Exp Bot. 2012 Apr;63(7):2729-37. doi: 10.1093/jxb/err455. Epub 2012 Jan 30.

4.

Localization and speciation of arsenic and trace elements in rice tissues.

Smith E, Kempson I, Juhasz AL, Weber J, Skinner WM, Gräfe M.

Chemosphere. 2009 Jul;76(4):529-35. doi: 10.1016/j.chemosphere.2009.03.010. Epub 2009 Apr 3.

PMID:
19345396
5.

Speciation and distribution of arsenic and localization of nutrients in rice grains.

Lombi E, Scheckel KG, Pallon J, Carey AM, Zhu YG, Meharg AA.

New Phytol. 2009;184(1):193-201. doi: 10.1111/j.1469-8137.2009.02912.x. Epub 2009 Jun 22.

6.

NanoSIMS analysis of arsenic and selenium in cereal grain.

Moore KL, Schröder M, Lombi E, Zhao FJ, McGrath SP, Hawkesford MJ, Shewry PR, Grovenor CR.

New Phytol. 2010 Jan;185(2):434-45. doi: 10.1111/j.1469-8137.2009.03071.x. Epub 2009 Nov 5.

7.

Chemical bioimaging for the subcellular localization of trace elements by high contrast TEM, TEM/X-EDS, and NanoSIMS.

Penen F, Malherbe J, Isaure MP, Dobritzsch D, Bertalan I, Gontier E, Le Coustumer P, Schaumlöffel D.

J Trace Elem Med Biol. 2016 Sep;37:62-68. doi: 10.1016/j.jtemb.2016.04.014. Epub 2016 May 7.

PMID:
27288221
8.

The role of nodes in arsenic storage and distribution in rice.

Chen Y, Moore KL, Miller AJ, McGrath SP, Ma JF, Zhao FJ.

J Exp Bot. 2015 Jul;66(13):3717-24. doi: 10.1093/jxb/erv164. Epub 2015 Apr 28.

10.

Inhibition of cadmium ion uptake in rice (Oryza sativa) cells by a wall-bound form of silicon.

Liu J, Ma J, He C, Li X, Zhang W, Xu F, Lin Y, Wang L.

New Phytol. 2013 Nov;200(3):691-9. doi: 10.1111/nph.12494. Epub 2013 Sep 18.

11.

Speciation and localization of arsenic in white and brown rice grains.

Meharg AA, Lombi E, Williams PN, Scheckel KG, Feldmann J, Raab A, Zhu Y, Islam R.

Environ Sci Technol. 2008 Feb 15;42(4):1051-7.

PMID:
18351071
12.

Spatial distribution of arsenic and temporal variation of its concentration in rice.

Zheng MZ, Cai C, Hu Y, Sun GX, Williams PN, Cui HJ, Li G, Zhao FJ, Zhu YG.

New Phytol. 2011 Jan;189(1):200-9. doi: 10.1111/j.1469-8137.2010.03456.x. Epub 2010 Sep 14.

13.

Vacuolar membrane transporters OsVIT1 and OsVIT2 modulate iron translocation between flag leaves and seeds in rice.

Zhang Y, Xu YH, Yi HY, Gong JM.

Plant J. 2012 Nov;72(3):400-10. doi: 10.1111/j.1365-313X.2012.05088.x. Epub 2012 Aug 3.

14.

Spatial imaging of Zn and other elements in Huanglongbing-affected grapefruit by synchrotron-based micro X-ray fluorescence investigation.

Tian S, Lu L, Labavitch JM, Webb SM, Yang X, Brown PH, He Z.

J Exp Bot. 2014 Mar;65(4):953-64. doi: 10.1093/jxb/ert450. Epub 2014 Jan 13.

15.

Simultaneous compartmentalization of lead and arsenic in co-hyperaccumulator Viola principis H. de Boiss.: an application of SRXRF microprobe.

Lei M, Chen TB, Huang ZC, Wang YD, Huang YY.

Chemosphere. 2008 Aug;72(10):1491-6. doi: 10.1016/j.chemosphere.2008.04.084. Epub 2008 Jun 20.

PMID:
18571691
16.

Phloem transport of arsenic species from flag leaf to grain during grain filling.

Carey AM, Norton GJ, Deacon C, Scheckel KG, Lombi E, Punshon T, Guerinot ML, Lanzirotti A, Newville M, Choi Y, Price AH, Meharg AA.

New Phytol. 2011 Oct;192(1):87-98. doi: 10.1111/j.1469-8137.2011.03789.x. Epub 2011 Jun 10.

17.

Expression analysis and functional characterization of the monosaccharide transporters, OsTMTs, involving vacuolar sugar transport in rice (Oryza sativa).

Cho JI, Burla B, Lee DW, Ryoo N, Hong SK, Kim HB, Eom JS, Choi SB, Cho MH, Bhoo SH, Hahn TR, Neuhaus HE, Martinoia E, Jeon JS.

New Phytol. 2010 May;186(3):657-68. doi: 10.1111/j.1469-8137.2010.03194.x. Epub 2010 Feb 23.

18.

Cellular distribution of ACT domain repeat protein 9, a nuclear localizing protein, in rice (Oryza sativa).

Kudo T, Kawai A, Yamaya T, Hayakawa T.

Physiol Plant. 2008 Jun;133(2):167-79. doi: 10.1111/j.1399-3054.2008.01051.x. Epub 2008 Feb 16.

PMID:
18282189
19.

OsYSL2 is a rice metal-nicotianamine transporter that is regulated by iron and expressed in the phloem.

Koike S, Inoue H, Mizuno D, Takahashi M, Nakanishi H, Mori S, Nishizawa NK.

Plant J. 2004 Aug;39(3):415-24.

20.

Concentration of various trace elements in the rat retina and their distribution in different structures.

Ugarte M, Grime GW, Lord G, Geraki K, Collingwood JF, Finnegan ME, Farnfield H, Merchant M, Bailey MJ, Ward NI, Foster PJ, Bishop PN, Osborne NN.

Metallomics. 2012 Dec;4(12):1245-54. doi: 10.1039/c2mt20157g.

PMID:
23093062

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