Tsai Shang-Yuan, Juang Ruey-Shin
Department of Chemical Engineering and Materials Science, Yuan Ze University, Chung-Li 320, Taiwan.
J Hazard Mater. 2006 Nov 2;138(1):125-32. doi: 10.1016/j.jhazmat.2006.05.044. Epub 2006 May 22.
The biodegradation of single phenol and sodium salicylate (SA) and their binary mixtures in water by free Pseudomonas putida (P. putida) CCRC 14365 was experimentally studied at 30 degrees C and pH 7. The initial concentration of the cells, adapted with either phenol or SA, was maintained at 0.025 g/L. Single substrate experiments were performed in the substrate level range 0.53-3.18 mM. The Haldane model has shown that phenol was biodegraded more quickly (mu(max)=0.245 h(-1)) than SA (0.137 h(-1)) under the ranges studied, and SA had a more inhibitory effect on cell growth (K(I)=5.21 mM) than phenol (12.6 mM) at low substrate levels even by SA-adapted cells. Binary substrate experiments were carried out at two fixed total substrate levels of 1.06 and 3.18 mM, with a varying molar concentration ratio of 0.33-3.0. The presence of a small amount of phenol to SA could significantly enhance the biodegradation of SA, particularly when the phenol-adapted cells were employed. On the other hand, the addition of a small amount of SA to phenol would retard the biodegradation of phenol, especially at higher total substrate levels (3.18 mM).
在30℃和pH值为7的条件下,对游离的恶臭假单胞菌(P. putida)CCRC 14365在水中对单酚、水杨酸钠(SA)及其二元混合物的生物降解进行了实验研究。用苯酚或SA驯化后的细胞初始浓度维持在0.025 g/L。在0.53 - 3.18 mM的底物水平范围内进行单底物实验。Haldane模型表明,在所研究的范围内,苯酚的生物降解速度(μ(max)=0.245 h(-1))比SA(0.137 h(-1))更快,并且在低底物水平下,即使是适应SA的细胞,SA对细胞生长的抑制作用(K(I)=5.21 mM)也比苯酚(12.6 mM)更强。二元底物实验在两个固定的总底物水平1.06和3.18 mM下进行,摩尔浓度比在0.33 - 3.0之间变化。少量苯酚与SA共存时可显著增强SA的生物降解,特别是使用适应苯酚的细胞时。另一方面,向苯酚中添加少量SA会阻碍苯酚的生物降解,尤其是在较高的总底物水平(3.18 mM)时。
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