1 Abd-El-Haleem, D., Moawad, H., Zaki, E.A., Zaki, S., “Molecular characterization of phenol-degrading bacteria isolated from different Egyptian ecosystems”, Microbial. Ecol., 43, 217—224(2002). 2 Watanabe, K., Hino, S., Takahashi, N., “Responses of ac-tivated sludge to an increase in phenol loading”, J. Fer-ment. Bioeng., 82, 522—524(1996). 3 Watanabe, K., Teramoto, M., Harayama, S., “An out-break of nonflocculating catabolic populations caused the breakdown of a phenol-digesting activated sludge proc-ess”, Appl. Environ. Microbiol., 65, 2813—2819(1999). 4 Kibret, M., Somitsch, W., Robra, K.H., “Characterization of a phenol degrading mixed population by enzyme as-say”, Water Res., 34, 1127—1134(2000). 5 Benndorf, D., Loffhagen, N., Babel, W., “Protein synthe-sis patterns in Acinetobacter calcoaceticus induced by phenol and catechol show specificities of responses to chemostress”, FEMS Microbiol. Lett., 200, 247—252(2001). 6 Giuffrida, M.G., Pessione, E., Mazzoli, R., Dellavalle, G., Barello, C., Conti, A., Giunta, C., “Media containing aromatic compounds induce peculiar proteins in Acine-tobacter radioresistens, as revealed by proteome analy-sis”, Electrophoresis, 22, 1705—1711(2001). 7 Zhao, B., Yeo, C.C., Lee, C.C., Geng, A., Chew, F.T., Poh, C.L., “Proteome analysis of gentisate-induced re-sponse in Pseudomonas alcaligenes NCIB 9867”, Pro-teomics, 4, 2028—2036(2004). 8 Geng, A., Soh, E.W.A., Lim, C.J., Loke, C.T.L., “Isola-tion and characterization of a phenol-degrading bacte-rium from an industrial activated sludge”, Appl. Micro-biol. Biotechnol., 71, 728—735(2006). 9 VanBogelen, R.A., Kelley, P.M., Neidhardt, F.C., “Dif-ferential induction of heat shock, SOS, and oxidation stress regulons and accumulation of nucleotides in Es-cherichia coli”, J. Bacteriol., 169, 26—32(1987). 10 Blom, A., Harder, W., Matin, A., “Unique and overlap-ping pollutant stress proteins of Escherichia coli”, Appl. Environ. Microbiol., 58, 331—334(1992). 11 Krayl, M., Benndorf, D., Loffhagen, N., Babel, W., “Use of proteomics and physiological characteristics to eluci-date ecotoxic effects of methyl tert-butyl ether in Pseu-domonas putida KT2440”, Proteomics, 3, 1544—1552(2003). 12 Loffhagen, N., Hartig, C., Babel, W., “The toxicity of substituted phenolic compounds to a detoxifying and an acetic acid bacterium”, Ecotoxicol. Environ. Saf., 36, 269—274(1997). 13 Stadtman, E.R., “Oxidation of free amino acids and amino acid residues in proteins by radiolysis and by metal-catalyzed reactions”, Annu. Rev. Biochem., 62, 797—821(1993). 14 Keweloh, H., Heipieper, H.J., “Trans unsaturated fatty acids in bacteria”, Lipids, 31, 129—137(1996). 15 Silver, R.P., Prior, K., Nsahlai, C., Wright, L.F., “ABC transporters and the export of capsular polysaccharides from gram-negative bacteria”, Res. Microbiol. 152, 126—132(2001). 16 Wingender, J., Strathmann, M., Rode, A., Leis, A., Flem-ming, H.C., “Isolation and biochemical characterization of extracellular polymeric substances from Pseudomonas aeruginosa”, Methods Enzymol., 336, 302—314(2001). 17 Rosenberg, E., Ron, E.Z., “High- and low-molecular-mass microbial surfactants”, Appl. Microbiol. Biotechnol., 52, 154—162(1999). 18 Knobloch, J.K., Bartscht, K., Sabottke, A., Rohde, H., Feucht, H.H., “Biofilm formation by Staphylococcus epidermidis depends on functional RsbU, an activator of the sigB operon: Differential activation mechanisms due to ethanol and salt stress”, J. Bacteriol., 183, 2624—2633(2001). 19 Mah, T.F., O’Toole, G.A., “Mechanisms of biofilm resis-tance to antimicrobial agents”, Trends Microbiol., 9, 34—39(2001).
|