van der Woude B J, Gottschal J C, Prins R A
Department of Microbiology, University of Groningen, Haren, The Netherlands.
Biodegradation. 1995 Jan;6(1):39-46. doi: 10.1007/BF00702297.
From long-term chemostat experiments, variants of Pseudomonas aeruginosa JB2 were obtained which exhibited altered properties with respect to the metabolism of 2,5-dichlorobenzoic acid (2,5-DBA). Thus, unlike the original strain JB2-WT, strain JB2-var1 is able to grow in continuous culture on 2,5-DBA as the sole limiting carbon and energy source. Yet, at a dilution rate of 0.07 h-1 and a dissolved oxygen concentration of < or = 12 microM, even with this strain no steady states with 2,5-DBA alone could be established in continuous cultures. Yet another strain was obtained after prolonged continuous growth of JB2-var1 in the chemostat. It has improved 2,5-DBA degrading capabilities which become apparent only during growth in continuous culture: a lower apparent Km for 2,5-DBA and lowered steady-state residual concentrations of 2,5 DBA. Although with this strain steady states were obtained at oxygen concentrations as low as 11 microM, at further lowered concentrations this was no longer possible. In C-limited continuous cultures of JB2-var1 or JB2-var2, addition of benzoic acid (BA) to the feed reduced the amounts of 2,5-DBA degraded, which was most apparent at low oxygen concentrations (< 30 microM). At higher dissolved oxygen concentrations the addition of BA resulted in increasing cell-densities but did not affect the residual steady state concentration of 2,5-DBA. Indeed, whole cell suspensions from chemostat cultures grown on BA plus 2,5-DBA did show a lower apparent affinity for 2,5-DBA than those from cultures grown on 2,5-DBA alone.(ABSTRACT TRUNCATED AT 250 WORDS)
通过长期的恒化器实验,获得了铜绿假单胞菌JB2的变体,这些变体在2,5 - 二氯苯甲酸(2,5 - DBA)代谢方面表现出改变的特性。因此,与原始菌株JB2 - WT不同,菌株JB2 - var1能够在以2,5 - DBA作为唯一限制性碳源和能源的连续培养中生长。然而,在稀释率为0.07 h⁻¹且溶解氧浓度≤12 μM的情况下,即使使用该菌株,在连续培养中仅使用2,5 - DBA也无法建立稳定状态。在恒化器中对JB2 - var1进行长时间连续培养后又获得了另一种菌株。它具有改进的2,5 - DBA降解能力,这仅在连续培养生长过程中才明显:对2,5 - DBA的表观Km较低,2,5 - DBA的稳态残留浓度降低。尽管使用该菌株在氧浓度低至11 μM时获得了稳定状态,但在进一步降低浓度时就不再可能。在JB2 - var1或JB2 - var2的碳限制连续培养中,向进料中添加苯甲酸(BA)会减少2,5 - DBA的降解量,这在低氧浓度(<30 μM)时最为明显。在较高的溶解氧浓度下,添加BA会导致细胞密度增加,但不影响2,5 - DBA的残留稳态浓度。实际上,在以BA加2,5 - DBA生长的恒化器培养物中的全细胞悬浮液对2,5 - DBA的表观亲和力确实低于仅以2,5 - DBA生长的培养物中的全细胞悬浮液。(摘要截短为250字)
