350
Views
28
CrossRef citations to date
0
Altmetric
Original Articles

Genotypic Difference in Arsenic and Cadmium Accumulation by Rice Seedlings Grown in Hydroponics

&
Pages 2168-2182 | Received 04 Jul 2007, Accepted 08 Aug 2008, Published online: 15 Nov 2008

REFERENCES

  • Abedin , M. J. , Cresser , M. S. , Meharg , A. A. , Feldmann , J. and Cotter-Howells , J. 2002a . Arsenic accumulation and metabolism in rice (Oryza sativa L.) . Environmental Science and Technology , 36 : 962 – 968 .
  • Abedin , M. J. , Feldmann , J. and Meharg , A. A. 2002b . Uptake kinetics of arsenic species in rice plants . Plant Physiology , 128 : 1120 – 1128 .
  • Bleeker , P. M. , Hakvoort , H. W. J. , Bliek , M. , Souer , E. and Schat , H. 2006 . Enhanced arsenate reduction by a CDC25-like tyrosine phosphatase explains increased phytochelatin accumulation in arsenate-tolerant Holcus lanatus. 2006 . The Plant Journal , 45 : 917 – 929 .
  • Chen , S. L. , Yeh , S. J. , Yang , M. H. and Lin , T. H. 1995 . Trace-element concentration and arsenic speciation in the well water of a Taiwan area with endemic blackfoot disease . Biological Trace Element Research , 48 : 263 – 274 .
  • Cosio , C. , DeSantis , L. , Frey , B. , Diallo , S. and Keller , C. 2005 . Distribution of cadmium in leaves of Thlaspi caerulescens . Journal of Experimental Botany , 56 : 765 – 775 .
  • Dasgupta , T. , Hossain , S. A. , Meharg , A. A. and Price , A. H. 2004 . An arsenate tolerant gene on chromosome 6 of rice . New Phytologist , 163 : 45 – 49 .
  • Dhankher , O. P. , Shasti , N. A. , Rosen , B. P. , Fuhrmann , M. and Meagher , R. B. 2003 . Increasing cadmium tolerance and accumulation by plants expressing bacterial arsenate reductase . New Phytologist , 159 : 431 – 441 .
  • Doucleff , M. and Terry , N. 2002 . Pumping out the arsenic . Nature Biotechnology , 20 : 1094 – 1096 .
  • Duan , G. L. , Zhou , Y. , Tong , Y. P. , Mukhopadhyay , R. , Rosen , B. P. and Zhu , Y. G. 2007 . A CDC25 homologue from rice functions as an arsenate reductase . New Phytologist , 174 : 311 – 321 .
  • Ellis , D. R. , Gumaelius , L. , Indriolo , E. , Pickering , I. J. , Banks , J. A. and Salt , D. E. 2006 . A novel arsenate reductase from the arsenic hyperaccumulating fern Pteris vittata . Plant Physiology , 141 : 1544 – 1554 .
  • Galbraith , H. , Lejeune , K. and Lipton , J. 1995 . Metal and arsenic impacts to soils, vegetation communities, and wildlife habitat in southwest Montana uplands contaminated by smelter emissions. I. Field evaluation . Environmental Toxicology and Chemistry , 14 : 1895 – 1903 .
  • Geng , C. N. , Zhu , Y. G. , Hu , Y. and Smith , S. E. 2006 . Arsenate causes differential acute toxicity to two P-deprived genotypes of rice seedlings (Oryza sativa L.) . Plant and Soil , 279 : 297 – 306 .
  • Grill , E. , Loffler , S. , Winnacker , E.-L. and Zenk , M. H. 1989 . Phytochelatins, the heavy metal-banding peptides of plants, are synthesized from glutathione by a specific γ-glutamycystein dipeptidyl transpeptidase (phytochelatin synthase) . Proceedings of the National Academy of Sciences of the United States of America , 86 : 6838 – 6842 .
  • Hewitt , E. J. 1966 . Sand and Water Culture Methods Used in the Study of Plant Nutrition. Technical Communication No. 22, ed , 2nd , Farnham Royal, UK: Commonwealth Agriculture Bureau .
  • Inouhe , M. , Mitsumune , M. , Tohoyama , H. , John , M. and Murayama , T. 1991 . Concentrations of cell wall and metal-binding peptide to Cd- and Cu-tolerances in suspension-cultured cells of tomato . Botanical Magazine, Tokyo , 104 : 217 – 229 .
  • Kim , D. Y. , Lucien , B. , Masayoshi , M. , Enrico , M. and Lee , Y. S. 2007 . The ABC transporter AtPDR8 is a cadmium extrusion pump conferring heavy metal resistance . The Plant Journal , 50 : 207 – 218 .
  • Liao , X. Y. , Chen , T. B. , Xie , H. and Liu , Y. R. 2005 . Soil as contamination and its risk assessment in areas near the industrial districts of Chenzhou City, Southern China . Environment International , 31 : 791 – 798 .
  • Lindberg , S. , Landberg , T. and Greger , M. 2007 . Cadmium uptake and interaction with phytochelatins in wheat protoplasts . Plant Physiology and Biochemistry , 45 : 47 – 53 .
  • Liu , J. G. , Jiang , J. S. , Li , K. Q. , Zhang , Z. J. , Yu , B. Y. , Lu , X. L. , Yang , J. C. and Zhu , Q. S. 2003a . Correlations between cadmium and mineral nutrients in absorption and accumulation in various genotypes of rice under cadmium stress . Chemosphere , 52 : 1467 – 1473 .
  • Liu , J. G. , Li , K. Q. , Xu , J. K. , Liang , J. S. , Lu , X. L. , Yang , J. S. and Zhu , Q. S. 2003b . Interaction of Cd and five mineral nutrients for uptake and accumulation in different rice cultivars and genotypes . Field Crops Research , 80 : 271 – 281 .
  • Liu , W. J. , Zhu , Y. G. , Smith , F. A. and Smith , S. E. 2004 . Do iron plaque and genotypes affect arsenate uptake and translocation by rice seedlings (Oryza sativa L.) grown in solution culture? . Journal of Experimental Botany , 55 : 1703 – 1713 .
  • Liu , W. J. , Zhu , Y. G. , Hu , Y. , Williams , P. N. , Gault , A. G. , Meharg , A. A. , Charnock , J. M. and Smith , F. A. 2006 . Arsenic sequestration in iron plaque, its accumulation and speciation in mature rice plants (Oryza Sativa L.) . Environmental Science and Technology , 40 : 5730 – 5736 .
  • Llamas , A. , Ullrich , C. I. and Sanz , A. 2000 . Cd2+ effects on transmembrane electrical potential difference, respiration and membrane permeability of rice (Oryza sativa L.) roots . Plant and Soil , 219 : 21 – 28 .
  • Maclean , K. S. and Langille , L. M. 1981 . Arsenic in orchard and potato soils and plant tissue . Plant and Soil , 61 : 413 – 418 .
  • Mandal , B. K. , Roy , C. T. , Samanta , G. , Basu , G. K. , Chowdhury , P. P. , Chanda , C. R. , Lodh , D. , Karan , N. K. , Dhar , R. K. , Tamili. D.K. , D. K. , Das , D. , Saha , K. C. and Chakraborti , D. 1997 . In reply to “Chronic arsenic toxicity in West Bengal.” . Current Science , 72 : 114 – 117 .
  • Meharg , A. A. and Hartley-Whitaker , J. 2002 . Arsenic uptake and metabolism in arsenic resistant and nonresistant plant species . New Phytologist , 154 : 29 – 43 .
  • Meharg , A. A. and Macnair , M. R. 1992 . Suppression of the high-affinity phosphate-uptake system—a mechanism of arsenate tolerance in Holcus Lanatus . Journal of Experimental Botany , 43 : 519 – 524 .
  • Meharg , A. A. and Macnair , M. R. 1994 . Relationship between plant phosphorus status and kinetics of arsenate influx in clones of Deschampsia cespitosa (L.) Beauv that differ in their tolerance to arsenate . Plant and Soil , 162 : 99 – 106 .
  • Metwally , A. , Safronova , V. , Belimoc , A. A. and Dietz , K. J. 2005 . Genotypic variation of the response to cadmium toxicity in Pisum sativum L . Journal of Experimental Botany , 48 : 123 – 128 .
  • Mukhopadhyay , R. and Rosen , B. P. 2002 . Arsenic reductases in prokaryotes and eukaryotes . Environmental Health Perspectives , 110 : 745 – 748 .
  • Perfus-Barbeoch , L. , Leonhardt , N. , Vavasseur , A. and Forestier C. , C. 2002 . Heavy metal toxicity: cadmium permeates through calcium channels and disturbs the plant water status . The Plant Journal , 32 : 539 – 548 .
  • Qian , Q. , Li , Y.H. , Zeng , D. , Teng , S. , Wang , Z. , Li , X. , Dong , Z. , Dai , N. , Sun , L. and Li , J. 2001 . Isolation and genetic characterization of a fragile plant mutant rice (Oryza sativa L.) . Chinese Science Bulletin , 46 : 2082 – 2085 .
  • Qin , J. , Rosen , B. P. , Zhang , Y. , Wang , G. , Franke , S. and Rensing , C. 2006 . Arsenic detoxification and evolution of trimethylarsine gas by a microbial arsenite S-adenosylmethionine methyltransferase . Proceeding of the National Academy of Sciences USA , 103 : 2075 – 2080 .
  • Quaghebeur , M. and Rengel , Z. 2003 . The distribution of arsenate and arsenic in shoots and roots of Holcus lanatus is influenced by arsenic tolerance and arsenate and phosphate supply . Plant Physiology , 132 : 1600 – 1609 .
  • Romero-Puertas , M. C. , Palma , J. M. , Gómez , M. , del Río , L. A. and Sandalio , L. M. 2002 . Cadmium caused the oxidative modification of protein in pea plants . Plant, Cell and Environment , 25 : 677 – 686 .
  • Ramos , I. , Esteban , E. , Lucena , J. J. and Gárate , A. 2002 . Cadmium uptake and subcellular distribution in plants of Lactuca sp. Cd-Mn interaction . Plant Science , 162 : 761 – 767 .
  • Rosen , B. P. 2002 . Transport and detoxification systems for transition metals, heavy metals and metalloids in eukaryotic and prokaryotic microbes . Comparative Biochemistry and Physiology A , 133 : 689 – 693 .
  • Sanità di Toppi , L. and Gabbrieli , R. 1999 . Response to cadmium in higher plants . Environmental and Experimental Botany , 41 : 105 – 130 .
  • Shi Vlamis-Gardikas , J. , Aslund , F. , Holmgren , A. and Rosen , B. P. 1999 . Reactivity of glutaredoxins 1, 2, and 3 from Escherichia coli shows that glutaredoxin2 is the primary hydrogen donor to ArsC-catalyzed arsenate reduction . Journal of Biological Chemistry , 274 : 36039 – 36042 .
  • Sneller , F. E. C. , Heerwaarden , L. M. V. , Schat , H. and Verkleij , J. A. C. 2000 . Toxicity, metal uptake, and accumulation of phytochelatins in Silene vulgaris exposed to mixtures of cadmium and arsenate . Environmental Toxicology and Chemistry , 19 : 2982 – 2986 .
  • Stolt , J. P. , Sneller , F. E. C. , Bryngelsson , T. , Lundborg , T. and Schat , H. 2003 . Phytochelatin and cadmium accumulation in wheat . Environmental and Experimental Botany , 49 : 21 – 28 .
  • Thomas , D. J. , Waters , S. B. and Styblo , M. 2004 . Elucidating the pathway for arsenic methylation . Toxicology and Applied Pharmacology , 198 : 319 – 326. .
  • Uraguchi , S. , Watanabe , I. , Yoshitomi , A. , Kiyono , M. and Kuno , K. 2006 . Characteristics of cadmium accumulation and tolerance in novel Cd-accumulation crops. Avena atrigosa and Crotalaria juncea . Journal of Experimental Botany , 57 : 2955 – 2965 .
  • Vázquez , S. , Goldsbrough , P. and Carpena , R. O. 2006 . Assessing the relative contributions of phytochelatins and the cell wall to cadmium resistance in white lupin . Physiologia Plantarum , 128 : 487 – 495 .
  • Verret , F. , Gravot , A. , Auroy , P. , Leonhardt , N. , David , P. , Nussaume , L. , Vavasseur , A. and Richaud , P. 2004 . Overexpression of AtHMA4 enhances root-to-shoot translocation of zinc and cadmium and plant metal tolerance . FEBS Letters , 576 : 306 – 312 .
  • Wang , J. , Zhao , F. J. , Meharg , A. A. , Raab , A. , Feldmann , J. and McGrath , S. P. 2002 . Mechanisms of arsenic hyperaccumulation in Pteris vittata: uptake kinetics, interactions with phosphate, and arsenic speciation . Plant Physiology , 130 : 1552 – 1561 .
  • Wang , K. R. and Gong , H. Q. 1996 . Compared study on the cadmium absorption and distribution of two genotypes rice . Agro-Environmental Protection , 15 : 145 – 149 .
  • Watanabe , T. , Moon , C. S. , Zhang , Z. W. , Shimbo , S. , Nakatsuka , H. , Matsuda-Inoguchi , N. , Higashikawa , K. and Ikeda , M. 2000 . Cadmium exposure of women in general population in Japan during 1991–1997 compared with 1977–1991 . International Archives of Occupational and Environmental Health , 73 : 26 – 34 .
  • Watanabe , T. , Shimbo , S. , Moon , C. S. , Zhang , Z. W. and Ikeda , M. 1996 . Cadmium contents in rice samples from various areas in the world . The Science of the Total Environment , 184 : 191 – 196 .
  • Wu , F. B. and Zhang , G. 2002 . Genotypic differences in effect of Cd on growth and mineral concentrations in barley seedlings . Bulletins of Environmental Contamination and Toxicology , 69 : 219 – 227 .
  • Zhang , G. H. , Zeng , D. L. , Hu , S. K. , A-Jia , L. T. , Guo , L. B. and Qian , Q. 2006a . QTL analysis of traits concerned submergence tolerance at seedling stage in rice (Oryza sativa L.) . Acta Agronomica Sinca , 32 : 1280 – 1286 .
  • Zhang , Q. J. , Liang , Y. S. , Ye , S. P. , Deng , Q. M. , Wang , L. X. , Li , P. , Ye , D. R. , Zou , J. S. and Lü , C. G. 2006b . QTL analysis of agronomic traits with sequenced rice varieties . Acta Agronomica Sinca , 32 : 1503 – 1510 .
  • Zhao , F. J. , Dunham , S. J. and McGrath , S. P. 2002a . Arsenic hyperaccumulation by difference fern species . New Phytologist , 156 : 27 – 31 .
  • Zhao , F. J. , Hamon , R. E. , Lombi , E. , Mclaughlin , M. J. and McGrath , S. P. 2002b . Characteristics of cadmium uptake in two contrasting ecotypes of the hyperaccumulator Thlaspi caerulescens . Journal of Experimental Botany , 53 : 535 – 543 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.