Search Results - "Basnakova, G"

use of Escherichia coli bearing a phoN gene for the removal of uranium and nickel from aqueous flows by Basnakova, G, Stephens, E.R, Thaller, M.C, Rossolini, G.M, Macaskie, L.E

“…A Citrobacter sp. originally isolated from metal-polluted soil accumulates heavy metals via metal-phosphate deposition utilizing inorganic phosphate liberated…”
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Bioaccumulation of nickel by intercalation into polycrystalline hydrogen uranyl phosphate deposited via an enzymatic mechanism by Bonthrone, Karen M, Basnakova, Gabriela, Lin, Fan, Macaskie, Lynne E

“…A Citrobacter sp. accumulates uranyl ion (UO2(2+)) as crystalline HUO2PO4.4H2O (HUP), using enzymatically generated inorganic phosphate. Ni was not removed by…”
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Nickel accumulation by immobilized biofilm of Citrobacter sp. containing cell-bound polycrystalline hydrogen uranyl phosphate by BASNAKOVA, G, FINLAY, J. A, MACASKIE, L. E

“…Hydrogen uranyl phosphate (HUO sub(2)PO sub(4): HUP), deposited enzymatically on Citrobacter N14 cells immobilized as biofilm on ceramic Raschig rings in a…”
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Bioaccumulation of nickel by microbially-enhanced chemisorption into polycrystalline hydrogen uranyl phosphate by BASNAKOVA, G, MACASKIE, L. E

“…Ni super(2+) was removed quantitatively from aqueous solution into a microbially-created crystalline deposit of hydrogen uranyl phosphate (HUP). The mechanism…”
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Microbially-enhanced chemisorption of Ni super(2+) ions into biologically-synthesised hydrogen uranyl phosphate (HUP) and selective recovery of concentrated Ni super(2+) using citrate or chloride ion by Basnakova, G, Macaskie, LE

“…Hydrogen uranyl phosphate (HUP) deposited enzymatically on Citrobacter N14 immobilized in polyacrylamide gel removed nickel ions from solution via…”
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Microbially-Enhanced Chemisorption of Heavy Metals:  A Method for the Bioremediation of Solutions Containing Long-Lived Isotopes of Neptunium and Plutonium by Macaskie, Lynne E, Basnakova, Gabriela

“…Immobilized cells of a Citrobacter sp. removed neptunium and plutonium negligibly from solution using an established technique that used biologically-produced…”
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Phosphate release and heavy metal accumulation by biofilm-immobilized and chemically-coupled cells of a citrobacter sp. pre-grown in continuous culture by Finlay, John A., Allan, Victoria J. M., Conner, Alex, Callow, Maureen E., Basnakova, Gabriela, Macaskie, Lynne E.

“…A heavy metal‐accumulating Citrobacter sp. was grown in carbon‐limiting continuous culture in an air‐lift fermentor containing raschig rings as support for…”
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Nickel accumulation by immobilized biofilm of Cirobacter sp. containing cell-bound polycrystalline hydrogen uranyl phosphate by Basnakova, G, Finlay, Ja, Macaskie, Le

“…Hydrogen uranyl phosphate (HUO2PO4: HUP), deposited enzymatically on Citrobacter N14 cells immobilized as biofilm on ceramic Raschig rings in a flow-through…”
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Microbially-enhanced chemisorption of Ni2+ ions into biologically-synthesised hydrogen uranyl phosphate (HUP) and selective recovery of concentrated Ni2+ using citrate or chloride ion by BASNAKOVA, G, MACASKIE, L. E

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Growth of naturally occurring microbial isolates in metal-citrate medium and bioremediation of metal-citrate wastes by Thomas, Russell AP, Beswick, Alan J, Basnakova, Gabriela, Moller, Rachel, Macaskie, Lynne E

“…The use of citrate as a chelating agent in decontamination operations is of environmental concern as it can mobilize toxic heavy metals if discharged into the…”
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Microbially enhanced chemisorption of nickel into biologically synthesized hydrogen uranyl phosphate: A novel system for the removal and recovery of metals from aqueous solutions by Basnakova, Gabriela, Macaskie, Lynne E.

“…Ni2+ was removed quantitatively from aqueous flows by columns loaded with polycrystalline hydrogen uranyl phosphate (HUP) bound to immobilized cells of…”
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Identification of the Nickel Uranyl Phosphate Deposits on Citrobacter sp. Cells by Electron Microscopy with Electron Probe X-ray Microanalysis and by Proton-Induced X-ray Emission Analysis by Basnakova, Gabriela, Spencer, Anthony J, Palsgard, Eva, Grime, Geoff W, Macaskie, Lynne E

“…Immobilized cells of a Citrobacter sp. can remove heavy metals from wastewaters by deposition of metals with enzymatically liberated phosphate. Nickel is not…”
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Growth of naturally occurring microbial isolates in metal-citrate medium and bioremediation of metal-citrate wastes by Thomas, RAP, Beswick, A J, Basnakova, G, Moller, R, Macaskie, LE

“…The use of citrate as a chelating agent in decontamination operations is of environmental concern as it can mobilize toxic heavy metals if discharged into the…”
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Accumulation of zirconium and nickel by Citrobacter sp by Basnakova, Gabriela, Macaskie, Lynne E

“…Zirconium in aqueous flows was moderately biomineralized by immobilized Citrobacter N14 cells, in the form of gel‐like deposits, probably comprising a mixture…”
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3-Alkyl-6-methyl-5,7-dioxo-4,5,6,7-tetrahydro-1,2,3-triazolo[4,5-d]pyrimidines and their alkylations by BOZOOVA, A, RYBAR, A, ALFÖLDI, J, BASNAKOVA, G

“…Alkylation of 3-alkyl-6-methyl-5,7-dioxo-4,5,6,7-tetrahydro-1,2,3-triazolo[4,5- d ]pyrimidines I with alkyl halides in dimethylformamide in the presence of…”
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Bioaccumulation of nickel by intercalation into polycrystalline hydrogen uranyl phosphate deposited via an enzymatic mechanism by BONTHRONE, K. M, BASNAKOVA, G, LIN, F, MACASKIE, L. E

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