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0. Capillary Electrophoretic Determination of Selenium and Tellurium Oxyanions in Bacterial Cultures by Bala Krishna Pathem and Thomas G. Chasteen Department of Chemistry Sam Houston State University. 0. Instrument configuration. Source: ceandcec.com. 0. Flow reversal. For Anions:
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0 Capillary Electrophoretic Determination of Selenium and Tellurium Oxyanions in Bacterial CulturesbyBala Krishna Pathemand Thomas G. ChasteenDepartment of ChemistrySam Houston State University
0 Instrument configuration Source: ceandcec.com
0 Flow reversal • For Anions: • In order to speed up the separation, the EOF can be reversed by addition of cationic surfactants. • A negative voltage is applied. • We have used TTAB and HTAB in our work.
0 Source: ceandcec.com
0 Method development • We developed a method for the identification of selenium species in presence of TSB or LB bacterial growth medium, complex and well-defined media. • We applied the method for simultaneous estimation of selenate and selenite or tellurite in live cultures during their biological reduction by bacteria.
0 Capillary • Fused silica capillaries were used for all the studies done in this research. • Dimensions: 50 cm effective length, 75 µm i.d, 375 µm O.D.
Method • Buffer: 15 mM KH2PO4 + 1 mM TTAB • pH - 10.5 • Injection Pressure: 0.5 psi Time: 5 sec • Separation Voltage: – 25.0 KV • Capillary temp: 25oC • Run time: 5 min • Detection: 190 nm for selenium oxyanions 220 nm for tellurium oxyanions
Bacterial growth conditions • Two bacterial species were used in our research. • Precultures of Bacillus sp. were grown in TSB (pH 7.0) at 30 oC and then amended with 1.0 mM selenate. 2. Precultures of genetically modified clone of E.coli K-12 (1VH) were grown in LB medium with Ampicillin (pH 7.0) at 37 oC and then amended with 0.05 mM tellurite.
Bioreduction of 0.05 mM tellurite by 1VH TeO32- mAU 0 h5 h24 hafter inoculation Figure 6
Conclusions • Once bacteria enters stationary phase (4 h): • Rate of selenate reduction decreases • Selenite reduction process begins or increases significantly, 25% drop in SeO32- in 1 h • Varied bacterial response to toxic salts • Selenite is more toxic than selenate for both these organisms, based on specific growth rates
Conclusions • Method offers excellent LOD (3S/N) • Selenate : 1.0 ppm or 0.007 mM • Selenite : 0.25 ppm or 0.002 mM • Linearity • Selenate: 0.9996 (0.1 mM to 1.0 mM) • Selenite : 0.9998 (0.1 mM to 1.0 mM)
Conclusions • This method affords high sample through-put and minimal or no sample preparation for biological samples. • Perfect tool for the Qualitative or Quantitative analysis of selenium and tellurium oxyanions in solution. • Applicable for analysis in environmental or agricultural samples.
Acknowledgements Sam Houston State University’s Faculty Enhancement Research Fund The Robert A. Welch Foundation This work was supported by
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