Nickel biopathways in tropical nickel hyperaccumulating trees from Sabah (Malaysia)

The extraordinary level of accumulation of nickel (Ni) in hyperaccumulator plants is a consequence of specific metal sequestering and transport mechanisms, and knowledge of these processes is critical for advancing an understanding of transition element metabolic regulation in these plants. The Ni biopathways were elucidated in three plant species, Phyllanthus balgooyi, Phyllanthus securinegioides (Phyllanthaceae) and Rinorea bengalensis (Violaceae), that occur in Sabah (Malaysia) on the Island of Borneo. This study showed that Ni is mainly concentrated in the phloem in roots and stems (up to... Mehr ...

Verfasser: A Van Der Ent
Damien Callahan
BN Noller
J Mesjasz-Przybylowicz
WJ Przybylowicz
A Barnabas
HH Harris
Dokumenttyp: Text
Erscheinungsdatum: 2017
Schlagwörter: Science & Technology / Multidisciplinary Sciences / Science & Technology - Other Topics / QUANTITATIVE PIXE MICROANALYSIS / BERKHEYA-CODDII ROESSLER / NAC NUCLEAR MICROPROBE / ELEMENTAL DISTRIBUTION / NI-HYPERACCUMULATOR / SEBERTIA-ACUMINATA / PROTON MICROPROBE / ALYSSUM-MURALE / COMMERCIAL PHYTOEXTRACTION / PHYLLANTHUS-BALGOOYI / Centre for Chemistry and Biotechnology / School of Life and Environmental Sciences / 060799 Plant Biology not elsewhere classified / 060705 Plant Physiology / 060702 Plant Cell and Molecular Biology / MD Multidisciplinary / 3108 Plant biology
Sprache: unknown
Permalink: https://search.fid-benelux.de/Record/base-29233407
Datenquelle: BASE; Originalkatalog
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Link(s) : http://hdl.handle.net/10536/DRO/DU:30091783

The extraordinary level of accumulation of nickel (Ni) in hyperaccumulator plants is a consequence of specific metal sequestering and transport mechanisms, and knowledge of these processes is critical for advancing an understanding of transition element metabolic regulation in these plants. The Ni biopathways were elucidated in three plant species, Phyllanthus balgooyi, Phyllanthus securinegioides (Phyllanthaceae) and Rinorea bengalensis (Violaceae), that occur in Sabah (Malaysia) on the Island of Borneo. This study showed that Ni is mainly concentrated in the phloem in roots and stems (up to 16.9% Ni in phloem sap in Phyllanthus balgooyi) in all three species. However, the species differ in their leaves - in P. balgooyi the highest Ni concentration is in the phloem, but in P. securinegioides and R. bengalensis in the epidermis and in the spongy mesophyll (R. bengalensis). The chemical speciation of Ni 2+ does not substantially differ between the species nor between the plant tissues and transport fluids, and is unambiguously associated with citrate. This study combines ion microbeam (PIXE and RBS) and metabolomics techniques (GC-MS, LC-MS) with synchrotron methods (XAS) to overcome the drawbacks of the individual techniques to quantitatively determine Ni distribution and Ni 2+ chemical speciation in hyperaccumulator plants.