Localizing the biochemical transformations of arsenate in a hyperaccumulating fern

Ingrid J. Pickering; Luke Gumaelius; Hugh H. Harris; Roger C. Prince; Gregory Hirsch; Jo Ann Banks; David E. Salt; Graham N. George

doi:10.1021/es052559a

Localizing the biochemical transformations of arsenate in a hyperaccumulating fern

Ingrid J. Pickering, Luke Gumaelius, Hugh H. Harris, Roger C. Prince, Gregory Hirsch, Jo Ann Banks, David E. Salt, Graham N. George

Aberdeen Centre For Environmental Sustainability

Research output: Contribution to journal › Article › peer-review

190 Citations (Scopus)

Abstract

The fern Pteris vittata accumulates unusually high levels of arsenic. Using X-ray absorption spectroscopy (XAS) and XAS imaging, we reveal the distribution of arsenic species in vivo. Arsenate is transported through the vascular tissue from the roots to the fronds ( leaves), where it is reduced to arsenite and stored at high concentrations. Arsenic-thiolate species surrounding veins may be intermediates in this reduction. In gametophytes, arsenite is compartmentalized within the cell vacuole. Arsenic is excluded from cell walls, rhizoids, and reproductive areas. This study provides important insights into arsenic hyperaccumulation, which may prove useful for phytoremediating arsenic-contaminated sites, and demonstrates the strengths of XAS imaging for distinguishing highly localized species.

Original language	English
Pages (from-to)	5010-5014
Number of pages	5
Journal	Environmental Science & Technology
Volume	40
Issue number	16
Early online date	12 Jul 2006
DOIs	https://doi.org/10.1021/es052559a
Publication status	Published - 15 Aug 2006

Keywords

Pteris-Vittata
Indian mustard
Chinese brake
accumulation
speciation
reductase
tolerance
transport
selenium
systems

Access to Document

10.1021/es052559a

Cite this

@article{670730f973cc47699580bbbb697517eb,

title = "Localizing the biochemical transformations of arsenate in a hyperaccumulating fern",

abstract = "The fern Pteris vittata accumulates unusually high levels of arsenic. Using X-ray absorption spectroscopy (XAS) and XAS imaging, we reveal the distribution of arsenic species in vivo. Arsenate is transported through the vascular tissue from the roots to the fronds ( leaves), where it is reduced to arsenite and stored at high concentrations. Arsenic-thiolate species surrounding veins may be intermediates in this reduction. In gametophytes, arsenite is compartmentalized within the cell vacuole. Arsenic is excluded from cell walls, rhizoids, and reproductive areas. This study provides important insights into arsenic hyperaccumulation, which may prove useful for phytoremediating arsenic-contaminated sites, and demonstrates the strengths of XAS imaging for distinguishing highly localized species.",

keywords = "Pteris-Vittata, Indian mustard, Chinese brake, accumulation, speciation, reductase, tolerance, transport, selenium, systems",

author = "Pickering, {Ingrid J.} and Luke Gumaelius and Harris, {Hugh H.} and Prince, {Roger C.} and Gregory Hirsch and Banks, {Jo Ann} and Salt, {David E.} and George, {Graham N.}",

year = "2006",

month = aug,

day = "15",

doi = "10.1021/es052559a",

language = "English",

volume = "40",

pages = "5010--5014",

journal = "Environmental Science & Technology",

issn = "0013-936X",

publisher = "American Chemical Society",

number = "16",

}

TY - JOUR

T1 - Localizing the biochemical transformations of arsenate in a hyperaccumulating fern

AU - Pickering, Ingrid J.

AU - Gumaelius, Luke

AU - Harris, Hugh H.

AU - Prince, Roger C.

AU - Hirsch, Gregory

AU - Banks, Jo Ann

AU - Salt, David E.

AU - George, Graham N.

PY - 2006/8/15

Y1 - 2006/8/15

N2 - The fern Pteris vittata accumulates unusually high levels of arsenic. Using X-ray absorption spectroscopy (XAS) and XAS imaging, we reveal the distribution of arsenic species in vivo. Arsenate is transported through the vascular tissue from the roots to the fronds ( leaves), where it is reduced to arsenite and stored at high concentrations. Arsenic-thiolate species surrounding veins may be intermediates in this reduction. In gametophytes, arsenite is compartmentalized within the cell vacuole. Arsenic is excluded from cell walls, rhizoids, and reproductive areas. This study provides important insights into arsenic hyperaccumulation, which may prove useful for phytoremediating arsenic-contaminated sites, and demonstrates the strengths of XAS imaging for distinguishing highly localized species.

AB - The fern Pteris vittata accumulates unusually high levels of arsenic. Using X-ray absorption spectroscopy (XAS) and XAS imaging, we reveal the distribution of arsenic species in vivo. Arsenate is transported through the vascular tissue from the roots to the fronds ( leaves), where it is reduced to arsenite and stored at high concentrations. Arsenic-thiolate species surrounding veins may be intermediates in this reduction. In gametophytes, arsenite is compartmentalized within the cell vacuole. Arsenic is excluded from cell walls, rhizoids, and reproductive areas. This study provides important insights into arsenic hyperaccumulation, which may prove useful for phytoremediating arsenic-contaminated sites, and demonstrates the strengths of XAS imaging for distinguishing highly localized species.

KW - Pteris-Vittata

KW - Indian mustard

KW - Chinese brake

KW - accumulation

KW - speciation

KW - reductase

KW - tolerance

KW - transport

KW - selenium

KW - systems

U2 - 10.1021/es052559a

DO - 10.1021/es052559a

M3 - Article

SN - 0013-936X

VL - 40

SP - 5010

EP - 5014

JO - Environmental Science & Technology

JF - Environmental Science & Technology

IS - 16

ER -

Localizing the biochemical transformations of arsenate in a hyperaccumulating fern

Abstract

Keywords

Access to Document

Fingerprint

Cite this