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Title: Sample preparation strategies for one- and two-dimensional gel electrophoretic separation of plant proteins and the influence on arsenic and zinc bindings. Author: Schmidt AC, Ahlswede J, Störr B. Journal: J Chromatogr B Analyt Technol Biomed Life Sci; 2009 Oct 01; 877(27):3097-104. PubMed ID: 19733519. Abstract: A sample preparation method including protein extraction by an aqueous buffer system, precipitation with trichloroacetic acid, washing with acetone, and desalting by dialysis was developed for 2D gel electrophoresis of mature leaves from Tropaeolum majus, a plant species with a high content of glucosinolates. By the optimized method, 1D- and 2D-gels could also be produced from Festuca rubra leaves and Helianthus annuus seeds. A strong influence of the varied protein preparation parameters on arsenic and zinc bindings was observed. Microwave-digestion with subsequent atomic spectroscopy analysis of protein fractions revealed the highest arsenic binding capacity of 76.2+/-1.7% for proteins from sunflower seeds spiked with arsenite. After spiking of T. majus extracts with different arsenic species and zinc salts to 100microg As or Zn in 10mL, 9.5+/-0.97%, 0.95+/-0.39%, 0.24+/-0.02%, 0.20+/-0.09%, 0.02%, 0.83+/-0.02%, 2.21+/-1.64%, and 1.45+/-0.69% were recovered in the final protein fraction for phenylarsine oxide, arsenite, arsenate, monomethylarsonate, dimethylarsinate, zinc chloride, zinc sulfate, and zinc acetate, respectively. The cultivation of T. majus under arsenic exposure resulted in a highly elevated arsenic-binding capacity of the proteins that was also dependent on the kind of arsenic species in the following order: arsenite (14.9%)>monomethylarsonate (12.4%)>arsenate (10.8%)>dimethylarsinate (0.32%).[Abstract] [Full Text] [Related] [New Search]