• Home
  • Separation of Mercury Resistant Bacteria from Wastewater of Milk, Detergent and Ceramic Industry

Share To

Article Url


Manuscript ID : JCHR-8 Visit : 154 Page: 0 - 0

10.22034/jchr.2011.543968

Article Type: Original Research

Separation of Mercury Resistant Bacteria from Wastewater of Milk, Detergent and Ceramic Industry

Subject Areas : Journal of Chemical Health Risks

M. Moghbeli 1 , F. Shakeri 2 , H. Hashemi-Moghaddam 3

1 - Department of Microbiology, Damghan Branch, Islamic Azad University, P.O. Box 36716- 39998, Damghan, Iran
2 - Department of Microbiology, Damghan Branch, Islamic Azad University, P.O. Box 36716- 39998, Damghan, Iran
3 - Department of Chemistry, Damghan Branch, Islamic Azad University, P.O. Box 36716-39998, Damghan, Iran

Received: 2011-09-28 Accepted : 2018-10-29 Published : 2011-09-28

Keywords:

Abstract :

References:
  1. Adebowale A., 2004. Bioremediation of Arsenic,
  2. Chromium,Lead, and Mercury, National
  3. Network of Environmental Management
  4. Studies Fellowfor U.S. Environmental
  5. Protection Agency. www.clu-in.org
  6. Arif Tasleem J., M. Imtiyaz, A. Arif and H.
  7. Rizwanul, 2009. Mercury pollution: an
  8. emerging problem and potential Bacterial
  9. remediation strategies., World J Microbiol
  10. Biotechnol 25:1529ââ‚‌“1537
  11. Clarkson T. W., L. Magos and G. J. Myers,
  12. Toxicology of mercury;current
  13. exposure and clinical manifestations. N Engl
  14. J Med 349:1731ââ‚‌“1737
  15. Devars S., J. S. Rodríguez-Zavala and R.
  16. Moreno-Sánchez, 2010. Enhanced Tolerance
  17. to Mercury in a Streptomycin-Resistant Strain
  18. of Euglena gracilis, Water, Air, & Soil
  19. Pollution
  20. Essa A. M. , L. E. Macaskie and N. L.
  21. Brown, 2005. A new method for mercury
  22. removal, Biotechnology Letters (2005)
  23. : 1649ââ‚‌“1655
  24. Jaysankar De , N. Ramaiah, A. Mesquita and
  25. X. N. Verlekar. (2003), Tolerance to
  26. Various Toxicants by Marine Bacteria
  27. Highly Resistant to Mercury., Marine
  28. Biotechnology
  29. Mortazavi S., A. Rezaee, A. Khavanin, S.
  30. Varmazyar and M. Iafarzadeh ,2005.
  31. Removal of Mercuric Chloride by a
  32. Mercury Resistant Pseudomonas putida
  33. Strain. Journal ofBiological Sciences 5
  34. (3): 269-273
  35. Moshafi M.H., Mansori S., Nemati R.,
  36. Forootanfar H.(2009), Simultaneous
  37. Resistance to heavy Metals and
  38. Antibiotics in Escherichia coli Strains
  39. Isolated from Clinical Samples.
  40. Rafsanjan Med. Sci. Univer. J. , (8),
  41. -202
  42. Okino S., K. Iwasaki, O. Yagi and H.
  43. Tanaka, 2000. Development of a
  44. biological mercury removal-recovery
  45. system., Biotechnology Letters 22: 783ââ‚‌“
  47. Poulain A. J., S. M. N. Chadhain, A. P.
  48. Ariya, M. Amyot, E. Garcia, P. G. C.
  49. Campbell, G. J. Zylstra and T. Barkay,
  50. Potential for mercury reduction by
  51. microbes in high Arctic. Appl Environ
  52. Microbiol 73(7):2230ââ‚‌“2238
  53. Rasmussen LD, Zawadsky C, Binnerup SJ,
  54. Oregaard G, Sorensen SJ,Kroer N (2008)
  55. Cultivation of hard to culture subsurface
  56. mercury resistant bacteria and discovery
  57. of new merA gene sequences. Appl
  58. Environ Microbiol 74(12):3795ââ‚‌“3803
  59. Ruiz NO, Daniell H (2009) Genetic
  60. engineering to enhance mercury
  61. phytoremediation. Curr Opin Biotechnol
  62. :1ââ‚‌“7
  63. Schue M, Dover LG, Besra GS, Parkhill J,
  64. Brown NL (2009) Sequence and analysis
  65. of a plasmid encoded mercury resistance
  66. operon from Mycobacterium marinum
  67. identifies MerH, a new mercuric ion
  68. transporter. J Bacteriol 191(1):439ââ‚‌“444.
  69. Doi
  70. Summers A. O., 2009. Damage control:
  71. regulating defenses against toxic metals
  72. and metalloids. Curr Opin Microbiol
  73. :1ââ‚‌“7

Sanad

Sanad is a platform for managing Azad University publications

Links

Related Centers

Technical Support

Official pages

The rights to this website are owned by the Raimag Press Management System.
Copyright © 2021-2024

Home| Login| About Us| Contact Us|
[فارسی] [العربية] [fa] [ar]