Synchrotron X-Ray Based Investigation of As and Fe Bonding Environment in Collard Green Tissue Samples at Different Growth Stages
The arsenic and iron environments in different growth
stages have been studied with EXAFS and XANES using
Brookhaven Synchrotron Light Source. Collard Greens plants were
grown and tissue samples were harvested. The project studied the
EXAFS and XANES of tissue samples using As and Fe K-edges. The
Fe absorption and the Fourier transform bond length information
were used as a control comparison. The Fourier transform of the
XAFS data revealed the coexistence of As (III) and As (V) in the As
bonding environment inside the studied plant tissue samples,
although the soil only had As (III). The data suggests that Collard
Greens has a novel pathway to handle arsenic absorption in soil.
[1] P. L. Smedley and D. G. Kinniburgh, Appl. Geochem. 17, 517-568
(2002).
[2] World Health Organization, Arsenic in Drinking Water. Fact Sheet No.
210, Revised May 2001. (http://www.who.int/inf-fs/en/fact210.html)
[3] P. J. Potts, M. H. Ramsey, J. Carlisle, Portable X-ray fluorescence in the
characterization of Arsenic contamination associated with industrial
buildings at a heritage Arsenic works near Redruth, Cornwall, UK. J.
Environ. Monit, 4, 1017-1024, 2002.
[4] Canche-Tello J, Vargas MC, Hérnandez-Cobos J, Ortega-Blake I,
Leclercq A, Solari PL, Den Auwer C, Mustre de Leon J. Interpretation
of X-ray absorption spectra of As(III) in solution using Monte Carlo
simulations. J Phys Chem A. 2014 Nov 20; 118(46):10967-73.
[5] Canche-Tello J, Vargas MC, Hérnandez-Cobos J, Ortega-Blake I,
Leclercq A, Solari PL, Lezama-Pacheco J, Den Auwer C, Mustre de
Leon X-ray Accelerated Photo-Oxidation of As(III) in Solution. J Phys
Chem A. 2015 Mar 17. (Epub ahead of print)
http://www.ncbi.nlm.nih.gov/pubmed/ 25730736
[6] Zhang G, Liu F, Liu H, Qu J, Liu R. Respective role of Fe and Mn oxide
contents for arsenic sorption in iron and manganese binary oxide: an Xray
absorption spectroscopy investigation Environ Sci Technol. 2014
Sep 2; 48(17):10316-22.
[7] Zhao Z, Wang X, Zhang Z, Zhang H, Liu H, Zhu X, Li H, Chi X, Yin Z,
Gao J. Real-Time Monitoring of Arsenic Trioxide Release and Delivery
by Activatable T1 Imaging. ACS Nano. 2015 Feb 18. (Epub ahead of
print) http://www.ncbi.nlm.nih.gov/pubmed/25688714
[8] Kahlon TS, Chiu MC, Chapman MH. Steam cooking significantly
improves in vitro bile acid binding of collard greens, kale, mustard
greens, broccoli, green bell pepper, and cabbage. Nutr Res. 2008 Jun;
28(6):351-7.
[9] Lin LZ, Harnly JM. Identification of the phenolic components of collard
greens, kale, and Chinese broccoli. J Agric Food Chem. 2009 Aug
26;57(16):7401-8
[10] Santos J, Oliveira MB, Ibáñez E, Herrero M. Phenolic profile evolution
of different ready-to-eat baby-leaf vegetables during storage. J
Chromatogr A. 2014 Jan 31;1327:118-31
[11] M. Azizur Rahman, H. Hasegawa, K. Ueda, T. Maki, M. Mahfuzur
Rahman. Influence of phosphate and iron ions in selective uptake of
arsenic species by water fern (Salvinia natans L.). Chemical
Engineering Journal Volume 145, Issue 2, 15 December 2008, Pages
179–184
[12] United States Department of Agriculture Agricultural Research Service
National Nutrient Database for Standard Reference Release 27
http://ndb.nal.usda.gov/ndb/foods (Brassica oleracea)
[13] Newcomb M, Halgrimson JA, Horner JH, Wasinger EC, Chen LX,
Sligar SG. (2008) X-ray absorption spectroscopic characterization of a
cytochrome P450 compound II derivative. Proc Natl Acad Sci U S A.
Jun 17; 105(24):8179-84.
[14] Schlebusch CM, Gattepaille LM, Engström K, Vahter M, Jakobsson M,
Broberg K. Human Adaptation to Arsenic-Rich Environments.. Mol
Biol Evol. 2015 Mar 3. pii: msv046.
http://www.ncbi.nlm.nih.gov/pubmed/25739736
[15] http://www.uniprot.org/uniprot/Q9HBK9
[16] http://www.uniprot.org/uniprot/B0RA90
[17] Kumar S, Dubey RS, Tripathi RD, Chakrabarty D, Trivedi PK. Omics
and biotechnology of arsenic stress and detoxification in plants: current
updates and prospective. Environ Int. 2015 Jan; 74:221-30..
http://www.ncbi.nlm.nih.gov/pubmed/25454239
[18] Zhang J, Zhou W, Liu B, He J, Shen Q, Zhao FJ. Anaerobic arsenite
oxidation by an autotrophic arsenite-oxidizing bacterium from an
arsenic-contaminated paddy soil. Environ Sci Technol. 2015 Apr 2
http://www.ncbi.nlm.nih.gov/pubmed/25905768
[19] Tong D, Ortega J, Kim C, Huang J, Gu L, Li GM. Arsenic Inhibits DNA
Mismatch Repair by Promoting EGFR Expression and PCNA
Phosphorylation. J Biol Chem. 2015 Apr 23.
http://www.ncbi.nlm.nih.gov/pubmed/25907674
[20] Li X & Sun WJ. The clinical activity of arsenic trioxide, ascorbic acid,
ifosfamide and prednisone combination therapy in patients with
relapsed and refractory multiple myeloma.. Onco Targets Ther. 2015
Apr 9; 8:775-81. http://www.ncbi.nlm.nih.gov/pubmed/25914547
[21] Yunxian Liu, Leena Hilakivi-Clarke, Yukun Zhang, Xiao Wang, Yuan-
Xiang Pan, Jianhua Xuan, Stefanie C. Fleck, Daniel R. Doerge and
William G. Helferich. Isoflavones in soy flour diet have different effects
on whole-genome expression patterns than purified isoflavone mix in
human MCF-7 breast tumors in ovariectomized athymic nude mice.
Molecular Nutrition & Food Research, forth coming in press.
http://onlinelibrary.wiley.com/doi/10.1002/mnfr.201500028/abstract.
[22] Juan E. Andrade, Young H. Ju, Chandra Baker, Daniel R. Doerge and
William G. Helferich. Long-term exposure to dietary sources of
genistein induces estrogen-independence in the human breast cancer
(MCF-7) xenograft model. Molecular Nutrition & Food Research
Volume 59, Issue 3, pages 413–423, March 2015.
http://onlinelibrary.wiley.com/doi/10.1002/mnfr.201300780/abstract
[23] Salvo A, Cicero N, Vadalà R, Mottese AF, Bua D, Mallamace D,
Giannetto C, Dugo G. Toxic and essential metals determination in
commercial seafood: Paracentrotus lividus by ICP-MS. Nat Prod Res.
2015 Apr 28:1-8 http://www.ncbi.nlm.nih.gov/pubmed/25919907
[1] P. L. Smedley and D. G. Kinniburgh, Appl. Geochem. 17, 517-568
(2002).
[2] World Health Organization, Arsenic in Drinking Water. Fact Sheet No.
210, Revised May 2001. (http://www.who.int/inf-fs/en/fact210.html)
[3] P. J. Potts, M. H. Ramsey, J. Carlisle, Portable X-ray fluorescence in the
characterization of Arsenic contamination associated with industrial
buildings at a heritage Arsenic works near Redruth, Cornwall, UK. J.
Environ. Monit, 4, 1017-1024, 2002.
[4] Canche-Tello J, Vargas MC, Hérnandez-Cobos J, Ortega-Blake I,
Leclercq A, Solari PL, Den Auwer C, Mustre de Leon J. Interpretation
of X-ray absorption spectra of As(III) in solution using Monte Carlo
simulations. J Phys Chem A. 2014 Nov 20; 118(46):10967-73.
[5] Canche-Tello J, Vargas MC, Hérnandez-Cobos J, Ortega-Blake I,
Leclercq A, Solari PL, Lezama-Pacheco J, Den Auwer C, Mustre de
Leon X-ray Accelerated Photo-Oxidation of As(III) in Solution. J Phys
Chem A. 2015 Mar 17. (Epub ahead of print)
http://www.ncbi.nlm.nih.gov/pubmed/ 25730736
[6] Zhang G, Liu F, Liu H, Qu J, Liu R. Respective role of Fe and Mn oxide
contents for arsenic sorption in iron and manganese binary oxide: an Xray
absorption spectroscopy investigation Environ Sci Technol. 2014
Sep 2; 48(17):10316-22.
[7] Zhao Z, Wang X, Zhang Z, Zhang H, Liu H, Zhu X, Li H, Chi X, Yin Z,
Gao J. Real-Time Monitoring of Arsenic Trioxide Release and Delivery
by Activatable T1 Imaging. ACS Nano. 2015 Feb 18. (Epub ahead of
print) http://www.ncbi.nlm.nih.gov/pubmed/25688714
[8] Kahlon TS, Chiu MC, Chapman MH. Steam cooking significantly
improves in vitro bile acid binding of collard greens, kale, mustard
greens, broccoli, green bell pepper, and cabbage. Nutr Res. 2008 Jun;
28(6):351-7.
[9] Lin LZ, Harnly JM. Identification of the phenolic components of collard
greens, kale, and Chinese broccoli. J Agric Food Chem. 2009 Aug
26;57(16):7401-8
[10] Santos J, Oliveira MB, Ibáñez E, Herrero M. Phenolic profile evolution
of different ready-to-eat baby-leaf vegetables during storage. J
Chromatogr A. 2014 Jan 31;1327:118-31
[11] M. Azizur Rahman, H. Hasegawa, K. Ueda, T. Maki, M. Mahfuzur
Rahman. Influence of phosphate and iron ions in selective uptake of
arsenic species by water fern (Salvinia natans L.). Chemical
Engineering Journal Volume 145, Issue 2, 15 December 2008, Pages
179–184
[12] United States Department of Agriculture Agricultural Research Service
National Nutrient Database for Standard Reference Release 27
http://ndb.nal.usda.gov/ndb/foods (Brassica oleracea)
[13] Newcomb M, Halgrimson JA, Horner JH, Wasinger EC, Chen LX,
Sligar SG. (2008) X-ray absorption spectroscopic characterization of a
cytochrome P450 compound II derivative. Proc Natl Acad Sci U S A.
Jun 17; 105(24):8179-84.
[14] Schlebusch CM, Gattepaille LM, Engström K, Vahter M, Jakobsson M,
Broberg K. Human Adaptation to Arsenic-Rich Environments.. Mol
Biol Evol. 2015 Mar 3. pii: msv046.
http://www.ncbi.nlm.nih.gov/pubmed/25739736
[15] http://www.uniprot.org/uniprot/Q9HBK9
[16] http://www.uniprot.org/uniprot/B0RA90
[17] Kumar S, Dubey RS, Tripathi RD, Chakrabarty D, Trivedi PK. Omics
and biotechnology of arsenic stress and detoxification in plants: current
updates and prospective. Environ Int. 2015 Jan; 74:221-30..
http://www.ncbi.nlm.nih.gov/pubmed/25454239
[18] Zhang J, Zhou W, Liu B, He J, Shen Q, Zhao FJ. Anaerobic arsenite
oxidation by an autotrophic arsenite-oxidizing bacterium from an
arsenic-contaminated paddy soil. Environ Sci Technol. 2015 Apr 2
http://www.ncbi.nlm.nih.gov/pubmed/25905768
[19] Tong D, Ortega J, Kim C, Huang J, Gu L, Li GM. Arsenic Inhibits DNA
Mismatch Repair by Promoting EGFR Expression and PCNA
Phosphorylation. J Biol Chem. 2015 Apr 23.
http://www.ncbi.nlm.nih.gov/pubmed/25907674
[20] Li X & Sun WJ. The clinical activity of arsenic trioxide, ascorbic acid,
ifosfamide and prednisone combination therapy in patients with
relapsed and refractory multiple myeloma.. Onco Targets Ther. 2015
Apr 9; 8:775-81. http://www.ncbi.nlm.nih.gov/pubmed/25914547
[21] Yunxian Liu, Leena Hilakivi-Clarke, Yukun Zhang, Xiao Wang, Yuan-
Xiang Pan, Jianhua Xuan, Stefanie C. Fleck, Daniel R. Doerge and
William G. Helferich. Isoflavones in soy flour diet have different effects
on whole-genome expression patterns than purified isoflavone mix in
human MCF-7 breast tumors in ovariectomized athymic nude mice.
Molecular Nutrition & Food Research, forth coming in press.
http://onlinelibrary.wiley.com/doi/10.1002/mnfr.201500028/abstract.
[22] Juan E. Andrade, Young H. Ju, Chandra Baker, Daniel R. Doerge and
William G. Helferich. Long-term exposure to dietary sources of
genistein induces estrogen-independence in the human breast cancer
(MCF-7) xenograft model. Molecular Nutrition & Food Research
Volume 59, Issue 3, pages 413–423, March 2015.
http://onlinelibrary.wiley.com/doi/10.1002/mnfr.201300780/abstract
[23] Salvo A, Cicero N, Vadalà R, Mottese AF, Bua D, Mallamace D,
Giannetto C, Dugo G. Toxic and essential metals determination in
commercial seafood: Paracentrotus lividus by ICP-MS. Nat Prod Res.
2015 Apr 28:1-8 http://www.ncbi.nlm.nih.gov/pubmed/25919907
@article{"International Journal of Biological, Life and Agricultural Sciences:70017", author = "Sunil Dehipawala and Aregama Sirisumana and P. Schneider and G. Tremberger Jr and D. Lieberman and Todd Holden T. Cheung", title = "Synchrotron X-Ray Based Investigation of As and Fe Bonding Environment in Collard Green Tissue Samples at Different Growth Stages", abstract = "The arsenic and iron environments in different growth
stages have been studied with EXAFS and XANES using
Brookhaven Synchrotron Light Source. Collard Greens plants were
grown and tissue samples were harvested. The project studied the
EXAFS and XANES of tissue samples using As and Fe K-edges. The
Fe absorption and the Fourier transform bond length information
were used as a control comparison. The Fourier transform of the
XAFS data revealed the coexistence of As (III) and As (V) in the As
bonding environment inside the studied plant tissue samples,
although the soil only had As (III). The data suggests that Collard
Greens has a novel pathway to handle arsenic absorption in soil.", keywords = "EXAFS, Fourier Transform, metalloproteins,
XANES. ", volume = "9", number = "6", pages = "605-4", }
