Cr(VI) resistance and removal by indigenous bacteria isolated from chromium-contaminated soil

Journal of Microbiology and Biotechnology

Volumn 23, Issue 8, 2013, Pages 1123-1132

  Long, Dongyan ^a   Tang, Xianjin ^a   Cai, Kuan ^b   Chen, Guangcun ^a   Shen, Chaofeng ^a   Shi, Jiyan ^a   Chen, Linggui ^a   Chen, Yingxu ^a  

^a ZHEJIANG UNIVERSITY   (China)

^b Global Environmental Technology Co Ltd   (China)

Author keywords

Bioremediation; Cr(VI) removal; Cr(VI) resistance; Kinetics; Pseudochrobactrum asaccharolyticum

Indexed keywords

CHROMIUM; RNA 16S;

16S RRNA GENE; ARTICLE; BACTERIAL GROWTH; BACTERIAL STRAIN; BACTERIUM ISOLATION; BIOACCUMULATION; BIOREMEDIATION; CONCENTRATION (PARAMETERS); CONTROLLED STUDY; ENERGY DISPERSIVE X RAY SPECTROSCOPY; GENE SEQUENCE; HEAVY METAL REMOVAL; METAL RECOVERY; NONHUMAN; NUCLEOTIDE SEQUENCE; PH; PSEUDOCHROBACTRUM ASACCHAROLYTICUM; ROENTGEN SPECTROSCOPY; SOIL MICROFLORA; SOIL POLLUTION; STRAIN IDENTIFICATION; TRANSMISSION ELECTRON MICROSCOPY;

BRUCELLACEAE; CHROMIUM; CLUSTER ANALYSIS; DNA, BACTERIAL; DNA, RIBOSOMAL; DRUG RESISTANCE, BACTERIAL; MICROSCOPY, ELECTRON, TRANSMISSION; MOLECULAR SEQUENCE DATA; PHYLOGENY; RNA, RIBOSOMAL, 16S; SEQUENCE ANALYSIS, DNA; SOIL MICROBIOLOGY; SOIL POLLUTANTS; SPECTROMETRY, X-RAY EMISSION;

EID: 84882959083     PISSN: 10177825     EISSN: 17388872     Source Type: Journal    
DOI: 10.4014/jmb.1301.01004     Document Type: Article

References (57)

1. Ackerley DF, Barak Y, Lynch SV, Curtin J, Matin A. 2006. Effect of chromate stress on Escherichia coli K-12. J. Bacteriol. 188: 3371-3381.
2. Al Hasin A, Gurman SJ, Murphy LM, Perry A, Smith TJ, Gardiner PHE. 2010. Remediation of chromium(VI) by a methane-oxidizing bacterium. Environ. Sci. Technol. 44: 400-405.
3. Beller HR, Han RY, Geller JT, Yang L, Brodie EL, Chakraborty R, et al. 2010. Physiological and transcriptional studies of Cr(VI) reduction under aerobic and denitrifying conditions by an aquifer-derived Pseudomonad. Environ. Sci. Technol. 44: 7491-7497.
4. Boddu VM, Abburi K, Talbott JL, Smith ED. 2003. Removal of hexavalent chromium from wastewater using a new composite chitosan biosorbent. Environ. Sci. Technol. 37: 4449-4456.
5. Camargo FAO, Bento FM, Okeke BC, Frankenberger WT. 2003. Chromate reduction by chromium-resistant bacteria isolated from soils contaminated with dichromate. J. Environ. Qual. 32: 1228-1233.
6. Cervantes C, Campos-Garcia J, Devars S, Gutierrez-Corona F, Loza-Tavera H, Torres-Guzman JC, et al. 2001. Interactions of chromium with microorganisms and plants. FEMS Microbiol. Rev. 25: 335-347.
7. Chai LY, Huang SH, Yang ZH, Peng B, Huang Y, Chen YH. 2009. Cr (VI) remediation by indigenous bacteria in soils contaminated by chromium-containing slag. J. Hazard. Mater. 167: 516-522.
8. Chardin B, Dolla A, Chaspoul F, Fardeau ML, Gallice P, Bruschi M. 2002. Bioremediation of chromate: thermodynamic analysis of the effects of Cr(VI) on sulfate-reducing bacteria. Appl. Microbiol. Biotechnol. 60: 352-360.
9. Chen JM, Hao OJ. 1998. Microbial chromium(VI) reduction. Crit. Rev. Environ. Sci. Tecnol. 28: 219-251.
10. Chen XC, Hu SP, Shen CF, Dou CM, Shi JY, Chen YX. 2009. Interaction of Pseudomonas putida CZ1 with clays and ability of the composite to immobilize copper and zinc from solution. Bioresour. Technol. 100: 330-337.
11. Chen XC, Shi JY, Chen YX, Xu XH, Xu SY, Wang YP. 2006. Tolerance and biosorption of copper and zinc by Pseudomonas putida CZ1 isolated from metal-polluted soil. Can. J. Microbiol. 52: 308-316.
12. Cheng YJ, Yan FB, Huang F, Chu WS, Pan DM, Chen Z, et al. 2010. Bioremediation of Cr(VI) and immobilization as Cr(III) by Ochrobactrum anthropi. Environ. Sci. Technol. 44: 6357-6363.
13. Cheung KH, Gu JD. 2007. Mechanism of hexavalent chromium detoxification by microorganisms and bioremediation application potential: a review. Int. Biodeterior. Biodegrad. 59: 8-15.
14. Desai C, Jain K, Madamwar D. 2008. Evaluation of in vitro Cr(VI) reduction potential in cytosolic extracts of three indigenous Bacillus sp. isolated from Cr(VI) polluted industrial landfill. Bioresour. Technol. 99: 6059-6069.
15. Dogan NM, Kantar C, Gulcan S, Dodge CJ, Yimaz BC, Mazmanci MA. 2011. Chromium(VI) bioremoval by Pseudomonas bacteria: role of microbial exudates for natural attenuation and biotreatment of Cr(VI) contamination. Environ. Sci. Technol. 45: 2278-2285.
16. Elangovan R, Abhipsa S, Rohit B, Ligy P, Chandraraj K. 2006. Reduction of Cr(VI) by a Bacillus sp. Biotechnol. Lett. 28: 247-252.
17. Francisco R, Alpoim MC, Morais PV. 2002. Diversity of chromium-resistant and -reducing bacteria in a chromiumcontaminated activated sludge. J. Appl. Microbiol. 92: 837-843.
18. Fulladosa E, Desjardin V, Murat JC, Gourdon R, Villaescusa I. 2006. Cr(VI) reduction into Cr(III) as a mechanism to explain the low sensitivity of Vibrio fischeri bioassay to detect chromium pollution. Chemosphere 65: 644-650.
19. Garavaglia L, Cerdeira SB, Vullo DL. 2010. Chromium(VI) biotransformation by β- and γ-Proteobacteria from natural polluted environments: a combined biological and chemical treatment for industrial wastes. J. Hazard. Mater. 175: 104-110.
20. Guha H, Jayachandran K, Maurrasse F. 2001. Kinetics of chromium(VI) reduction by a type strain Shewanella alga under different growth conditions. Environ. Pollut. 115: 209-218.
21. Guha H, Jayachandran K, Maurrasse F. 2003. Microbiological reduction of chromium(VI) in presence of pyrolusite-coated sand by Shewanella alga Simidu ATCC 55627 in laboratory column experiments. Chemosphere 52: 175-183.
22. He MY, Li XY, Liu HL, Miller SJ, Wang GJ, Rensing C. 2011. Characterization and genomic analysis of a highly chromate resistant and reducing bacterial strain Lysinibacillus fusiformis ZC1. J. Hazard. Mater. 185: 682-688.
23. Kilic NK, Stensballe A, Otzen DE, Donmez G. 2010. Proteomic changes in response to chromium(VI) toxicity in Pseudomonas aeruginosa. Bioresour. Technol. 101: 2134-2140.
24. Konovalova VV, Dmytrenko GM, Nigmatullin RR, Bryk MT, Gvozdyak PI. 2003. Chromium(VI) reduction in a membrane bioreactor with immobilized Pseudomonas cells. Enzyme Microb. Technol. 33: 899-907.
25. Li B, Pan DM, Zheng JS, Cheng YJ, Ma XY, Huang F, et al. 2008. Microscopic investigations of the Cr(VI) uptake mechanism of living Ochrobactrum anthropi. Langmuir 24: 9630-9635.
26. Losi ME, Amrhein C, Frankenberger WT. 1994. Environmental biochemistry of chromium. Rev. Environ. Contam. Toxicol. 136: 91-121.
27. Keyhan M, Ackerley DF, Matin A. 2003. Targets of improvement in bacterial chromate bioremediation. In Pellei M, Porta A (eds.). Proceedings of the Second International Conference on Remediation of Contaminated Sediments (Venice, Italy, 30 Sep-3 Oct 2003). Battlle Press, Columbus, OH.
28. Masood F, Malik A. 2011. Hexavalent chromium reduction by Bacillus sp. strain FM1 isolated from heavy-metal contaminated soil. Bull. Environ. Contam. Toxicol. 86: 114-119.
29. Mazoch J, Tesarik R, Sedlacek V, Kucera I, Turanek J. 2004. Isolation and biochemical characterization of two soluble iron(III) reductases from Paracoccus denitrificans. Eur. J. Biochem. 271: 553-562.
30. McLean J, Beveridge TJ. 2001. Chromate reduction by a pseudomonad isolated from a site contaminated with chromated copper arsenate. Appl. Environ. Microbiol. 67: 1076-1084.
31. Megharaj M, Avudainayagam S, Naidu R. 2003. Toxicity of hexavalent chromium and its reduction by bacteria isolated from soil contaminated with tannery waste. Curr. Microbiol. 47: 51-54.
32. Morales-Barrera L, Guillen-Jimenez FD, Ortiz-Moreno A, Villegas-Garrido TL, Sandoval-Cabrera A, Hernandez-Rodriguez CH, et al. 2008. Isolation, identification and characterization of a Hypocrea tawa strain with high Cr(VI) reduction potential. Biochem. Eng. J. 40: 284-292.
33. Morel MA, Ubalde MC, Brana V, Castro-Sowinski S. 2011. Delftia sp. JD2: a potential Cr(VI)-reducing agent with plant growth-promoting activity. Arch. Microbiol. 193: 63-68.
34. Morokutti A, Lyskowski A, Sollner S, Pointner E, Fitzpatrick TB, Kratky C, et al. 2005. Structure and function of YcnD from Bacillus subtilis, a flavin-containing oxidoreductase. Biochemistry 44: 13724-13733.
35. Myers CR, Carstens BP, Antholine WE, Myers JM. 2000. Chromium(VI) reductase activity is associated with the cytoplasmic membrane of anaerobically grown Shewanella putrefaciens MR-1. J. Appl. Microbiol. 88: 98-106.
36. Pal A, Dutta S, Paul AK. 2005. Reduction of hexavalent chromium by cell-free extract of Bacillus sphaericus AND 303 isolated from serpentine soil. Curr. Microbiol. 51: 327-330.
37. Palmer CD, Wittbrodt PR. 1991. Processes affecting the remediation of chromium-contaminated sites. Environ. Health Perspect. 92: 25-40.
38. Pattanapipitpaisal P, Brown NL, Macaskie LE. 2001. Chromate reduction and 16S rRNA identification of bacteria isolated from a Cr(VI)-contaminated site. Appl. Microbiol. Biotechnol. 57: 257-261.
39. Pei QH, Shahir S, Raj ASS, Zakaria ZA, Ahmad WA. 2009. Chromium(VI) resistance and removal by Acinetobacter haemolyticus. World J. Microbiol. Biotechnol. 25: 1085-1093.
40. Ramirez-Ramirez R, Calvo-Mendez C, Avila-Rodriguez M, Lappe P, Ulloa M, Vazquez-Juarez R, et al. 2004. Cr(VI) reduction in a chromate-resistant strain of Candida maltosa isolated from the leather industry. Antonie Van Leeuwenhoek 85: 63-68.
41. Rehman A, Zahoor A, Muneer B, Hasnain S. 2008. Chromium tolerance and reduction potential of a Bacillus sp.ev3 isolated from metal contaminated wastewater. Bull. Environ. Contam. Toxicol. 81: 25-29.
42. Ryan MP, Williams DE, Chater RJ, Hutton BM, McPhail DS. 2002. Why stainless steel corrodes. Nature 415: 770-774.
43. Shakoori AR, Makhdoom M, Haq RU. 2000. Hexavalent chromium reduction by a dichromate-resistant gram-positive bacterium isolated from effluents of tanneries. Appl. Microbiol. Biotechnol. 53: 348-351.
44. Shen H, Wang YT. 1993. Characterization of enzymatic reduction of hexavalent chromium by Escherichia-coli ATCC33456. Appl. Environ. Microbiol. 59: 3771-3777.
45. Srivastava J, Chandra H, Tripathi K, Naraian R, Sahu RK. 2008. Removal of chromium(VI) through biosorption by the Pseudomonas spp. isolated from tannery effluent. J. Basic Microbiol. 48: 135-139.
46. Stasinakis AS, Thomaidis NS, Mamais D, Karivali M, Lekkas TD. 2003. Chromium species behavior in the activated sludge process. Chemosphere 52: 1059-1067.
47. Stepanauskas R, Glenn TC, Jagoe CH, Tuckfield RC, Lindell AH, McArthur JV. 2005. Elevated microbial tolerance to metals and antibiotics in metal-contaminated industrial environments. Environ. Sci. Technol. 39: 3671-3678.
48. Sundararajan M, Campbell AJ, Hillier IH. 2011. How do enzymes reduce metals? The mechanism of the reduction of Cr(VI) in chromate by cytochrome c(7) proteins proposed from DFT calculations. Faraday Discuss. 148: 195-205.
49. Tang XJ, Shen CF, Shi DZ, Cheema SA, Khan MI, Zhang CK, et al. 2010. Heavy metal and persistent organic compound contamination in soil from Wenling: an emerging e-waste recycling city in Taizhou area, China. J. Hazard. Mater. 173: 653-660.
50. Thacker U, Parikh R, Shouche Y, Madamwar D. 2006. Hexavalent chromium reduction by Providencia sp. Process Biochem. 41: 1332-1337.
51. Thacker U, Parikh R, Shouche Y, Madamwar D. 2007. Reduction of chromate by cell-free extract of Brucella sp. isolated from Cr(VI) contaminated sites. Bioresour. Technol. 98: 1541-1547.
52. Thakur IS, Srivastava S. 2006. Evaluation of bioremediation and detoxification potentiality of Aspergillus niger for removal of hexavalent chromium in soil microcosm. Soil Biol. Biochem. 38: 1904-1911.
53. Urone PF. 1955. Stability of colorimetric reagent for chromium, s-diphenylcarbazide, in various solvents. Anal. Chem. 27: 1354-1355.
54. Viti C, Pace A, Giovannetti L. 2003. Characterization of Cr(VI)-resistant bacteria isolated from chromium-contaminated soil by tannery activity. Curr. Microbiol. 46: 1-5.
55. Wang GJ, He MY, Li XY, Liu HL, Miller SJ, Rensing C. 2011. Characterization and genomic analysis of a highly chromate resistant and reducing bacterial strain Lysinibacillus fusiformis ZC1. J. Hazard. Mater. 185: 682-688.
56. Wang PC, Mori T, Komori K, Sasatsu M, Toda K, Ohtake H. 1989. Isolation and characterization of an Enterobacter-cloacae strain that reduces hexavalent chromium under anaerobic conditions. Appl. Environ. Microbi. 55: 1665-1669.
57. Zakaria ZA, Zakaria Z, Surif S, Ahmad WA. 2007. Hexavalent chromium reduction by Acinetobacter haemolyticus isolated from heavy-metal contaminated wastewater. J. Hazard. Mater. 146: 30-38.