TY - JOUR
T1 - Reduction of Cr(VI) and bioaccumulation of chromium by Gram-positive and Gram-negative micro-organisms not previously exposed to Cr-stress
AU - Pattanapipitpaisal, P
AU - Mabbett, Amanda
AU - Finlay, John
AU - Beswick, Alan
AU - Paterson-Beedle, Marion
AU - Essa, Ashraf
AU - Wright, J
AU - Tolley, MR
AU - Badar, U
AU - Ahmed, N
AU - Hobman, Jonathan
AU - Brown, Nigel
AU - Macaskie, Lynne
PY - 2002/1/1
Y1 - 2002/1/1
N2 - Resistance to Cr(VI) is usually associated with its cellular exclusion, precluding enrichment techniques for the isolation of organisms accumulating Cr(VI) via bioreduction to insoluble Cr(III). A technique was developed to screen for potential Cr(VI) reduction in approx. 2000 isolates from a coastal environment, based on the non-specific reduction of selenite and tellurite to Se-0 and Te-0, and reduction of tetrazolium blue to insoluble blue formazan. The most promising strains were further screened in liquid culture, giving three, which were identified by 16S rRNA sequence analysis as Bacillus pumilus, Exiguobacterium aurantiacum and Pseudomonas synxantha, all of which reduced 100 muM Cr(VI) anaerobically, without growth. The respective removal of Cr(VI) was 90% and 80%, by B. pumilus and E. aurantiacum after 48 h and 80% and by P. synxantha after 192 h. With the Gram positive strains Cr(VI) promoted loss of flagella and, in the case of B. pumilus, lysis of some cells, but Cr was deposited as an exocellular precipitate which was identified as containing Cr and P using energy dispersive Xray microanalysis (EDAX). This prompted the testing of Citrobacter sp. N14 (subsequently re-assigned by 16S rRNA sequence analysis and biochemical studies as a strain of Serratia) which bioprecipitates metal cation phosphates via enzymatically-liberated phosphate. This strain reduced Cr(VI) at a rate comparable to that of P. synzantha but Cr(M) was not bioprecipitated where La(III) was removed as LaPO4, even though a similar amount of phosphate was produced in the presence of Cr(III). Since B. pumilus removed most of the Cr(VI), with the formation of cell-bound CrPO4 implicated, this suggests that this strain could have future bioprocess potential.
AB - Resistance to Cr(VI) is usually associated with its cellular exclusion, precluding enrichment techniques for the isolation of organisms accumulating Cr(VI) via bioreduction to insoluble Cr(III). A technique was developed to screen for potential Cr(VI) reduction in approx. 2000 isolates from a coastal environment, based on the non-specific reduction of selenite and tellurite to Se-0 and Te-0, and reduction of tetrazolium blue to insoluble blue formazan. The most promising strains were further screened in liquid culture, giving three, which were identified by 16S rRNA sequence analysis as Bacillus pumilus, Exiguobacterium aurantiacum and Pseudomonas synxantha, all of which reduced 100 muM Cr(VI) anaerobically, without growth. The respective removal of Cr(VI) was 90% and 80%, by B. pumilus and E. aurantiacum after 48 h and 80% and by P. synxantha after 192 h. With the Gram positive strains Cr(VI) promoted loss of flagella and, in the case of B. pumilus, lysis of some cells, but Cr was deposited as an exocellular precipitate which was identified as containing Cr and P using energy dispersive Xray microanalysis (EDAX). This prompted the testing of Citrobacter sp. N14 (subsequently re-assigned by 16S rRNA sequence analysis and biochemical studies as a strain of Serratia) which bioprecipitates metal cation phosphates via enzymatically-liberated phosphate. This strain reduced Cr(VI) at a rate comparable to that of P. synzantha but Cr(M) was not bioprecipitated where La(III) was removed as LaPO4, even though a similar amount of phosphate was produced in the presence of Cr(III). Since B. pumilus removed most of the Cr(VI), with the formation of cell-bound CrPO4 implicated, this suggests that this strain could have future bioprocess potential.
KW - Serratia sp.
KW - Exiguobacterium aurantiacum
KW - chromate reduction
KW - chromium removal
KW - Pseudomonas synxantha
KW - Citrobacter sp.
KW - Bacillus pumilus
U2 - 10.1080/09593332308618367
DO - 10.1080/09593332308618367
M3 - Article
C2 - 12164635
VL - 23
SP - 731
EP - 745
JO - Environmental Technology
JF - Environmental Technology
ER -