Toxicity Assess 1986,1(1):13–26 CrossRef 45 Shuttleworth

Toxicity Assess 1986,1(1):13–26.CrossRef 45. Shuttleworth

KL, Unz RF: Influence of metal speciation on the growth of filamentous bacteria. Water Res 1991,25(10):1177–1186.CrossRef 46. Mohapatra PK: Environmental microbiology. 1st edition. New Delhi: I.K. International Publishing House; 2008. 47. Ruthven JA, Cairns J: Response of fresh-water protozoan artificial communities to metals. J Protozool 1973, 20:127–135. 48. Bitton G: Wastewater microbiology. 2nd edition. Canada: Wiley-Liss; 1999. 49. Ledin M, Pedersen K, Allard B: Effects of pH and ionic strength on the adsorption of Cs, Sr, Eu, Zn, Cd and Hg by Pseudomonas putidia. Water Air Soil Pollut 1997, 93:367–381. 50. Leborans GF, Herrero OY, Novillo A: Toxicity and bioaccumulation of lead in marine protozoa {Selleck Anti-infection Compound Library|Selleck Antiinfection Compound Library|Selleck Anti-infection Compound Library|Selleck Antiinfection Compound Library|Selleckchem Anti-infection Compound Library|Selleckchem Antiinfection Compound Library|Selleckchem Anti-infection Compound Library|Selleckchem Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|buy Anti-infection Compound Library|Anti-infection Compound Library ic50|Anti-infection Compound Library price|Anti-infection Compound Library cost|Anti-infection Compound Library solubility dmso|Anti-infection Compound Library purchase|Anti-infection Compound Library manufacturer|Anti-infection Compound Library research buy|Anti-infection Compound Library order|Anti-infection Compound Library mouse|Anti-infection Compound Library chemical structure|Anti-infection Compound Library mw|Anti-infection Compound Library molecular weight|Anti-infection Compound Library datasheet|Anti-infection Compound Library supplier|Anti-infection Compound Library in vitro|Anti-infection Compound Library cell line|Anti-infection Compound Library concentration|Anti-infection Compound Library nmr|Anti-infection Compound Library in vivo|Anti-infection Compound Library clinical trial|Anti-infection Compound Library cell assay|Anti-infection Compound Library screening|Anti-infection Compound Library high throughput|buy Antiinfection Compound Library|Antiinfection Compound Library ic50|Antiinfection Compound Library price|Antiinfection Compound Library cost|Antiinfection Compound Library solubility dmso|Antiinfection Compound Library purchase|Antiinfection Compound Library manufacturer|Antiinfection Compound Library research buy|Antiinfection Compound Library order|Antiinfection Compound Library chemical structure|Antiinfection Compound Library datasheet|Antiinfection Compound Library supplier|Antiinfection Compound Library in vitro|Antiinfection Compound Library cell line|Antiinfection Compound Library concentration|Antiinfection Compound Library clinical trial|Antiinfection Compound Library cell assay|Antiinfection Compound Library screening|Antiinfection Compound Library high throughput|Anti-infection Compound high throughput screening| communities. Ecotoxicol Selleck LBH589 Environ Saf 1998, 39:172–178.CrossRef

51. Rehman A, Ashraf S, Qazi JI, Shakoori AR: Uptake of lead by a ciliate, Stylonychia mytilus, isolated from industrial effluents: Potential use in bioremediation of wastewater. Bull Environ Contam Toxicol 2005, 75:290–296.PubMedCrossRef 52. Rehman A, Shakoori FR, Shakoori AR: Resistance and uptake of heavy metals by Vorticella microstoma and its Potential use in industrial wastewater treatment. Environ Prog Sustain Energy 2010,29(4):481–486.CrossRef 53. El-Sheekh MM, El-Shouny WA, Osman MEH, El-Gammal WE: Growth and heavy metals removal efficiency of Nostoc muscorum and Anabaena subcylindrica in sewage and industrial wastewater effluents. Environ Toxicol Pharmacol 2005,19(2):357–365.PubMedCrossRef 54. Jacob Fossariinae U, Walther H: Aquatic insect larvae as indicators of limiting minimal contents of dissolved CYT387 oxygen. Aquatic Insects 1981,3(4):219–224.CrossRef 55. Gutierrez T, Shimmield T, Haidon

C, Black K, Gree DH: Emulsifying and metal ion binding activity of a glycoprotein exopolymer produced by Pseudoalteromonas sp. strain TG12. Appl Environ Microbiol 2008,74(15):4887–4876.CrossRef 56. Pala AI, Sponza DT: Biological treatment of petrochemical wastewaters by Pseudomonas sp. qdded activated sludge culture. Environ Technol 1996,17(7):673–685.CrossRef 57. Musa NS, Ahmad WA: Chemical oxygen demand reduction in industrial wastewater using locally isolated bacteria. J Fund Sci 2010,6(2):88–92. 58. Chen B, Utgikar VP, Harmon SM, Tabak HH, Bishop DF, Govind R: Studies on biosorption of zinc(II) and copper(II) on Desulfovibrio desulfuricans. Int Biodeterior Biodegrad 2000, 46:11–18.CrossRef 59. Beech IB, Cheung CWS: Interactions of exopolymers produced by sulfate-reducing bacteria with metal ions. Int Biodeterior Biodegrad 1995, 35:59–72.CrossRef 60. Jong T, Parry DL: Microbial sulfate reduction under sequentially acidic conditions in an upflow anaerobic packed bed bioreactor. Water Res 2006,40(13):2561–2571.PubMedCrossRef Authors’ contributions Conceived and designed the experiments: MNBM. Contributed reagents/materials/analysis tools: MNBM IK.