对来自多氯联苯降解菌株的二醇双加氧酶的表征,这些酶对氯化代谢物具有更高的特异性。
Characterization of extradiol dioxygenases from a polychlorinated biphenyl-degrading strain that possess higher specificities for chlorinated metabolites.
作者信息
Vaillancourt Frédéric H, Haro María-Amparo, Drouin Nathalie M, Karim Zamil, Maaroufi Halim, Eltis Lindsay D
机构信息
Departments of Microbiology and Biochemistry, University of British Columbia, Vancouver, British Columbia V6T 1Z3, Canada.
出版信息
J Bacteriol. 2003 Feb;185(4):1253-60. doi: 10.1128/JB.185.4.1253-1260.2003.
Recent studies demonstrated that 2,3-dihydroxybiphenyl 1,2-dioxygenase from Burkholderia sp. strain LB400 (DHBDLB400; EC 1.13.11.39) cleaves chlorinated 2,3-dihydroxybiphenyls (DHBs) less specifically than unchlorinated DHB and is competitively inhibited by 2',6'-dichloro-2,3-dihydroxybiphenyl (2',6'-diCl DHB). To determine whether these are general characteristics of DHBDs, we characterized DHBDP6-I and DHBDP6-III, two evolutionarily divergent isozymes from Rhodococcus globerulus strain P6, another good polychlorinated biphenyl (PCB) degrader. In contrast to DHBDLB400, both rhodococcal enzymes had higher specificities for some chlorinated DHBs in air-saturated buffer. Thus, DHBDP6-I cleaved the DHBs in the following order of specificity: 6-Cl DHB > 3'-Cl DHB approximately DHB approximately 4'-Cl DHB > 2'-Cl DHB > 4-Cl DHB > 5-Cl DHB. It also cleaved its preferred substrate, 6-Cl DHB, three times more specifically than DHB. Interestingly, some of the worst substrates for DHBDP6-I were among the best for DHBDP6-III (4-Cl DHB > 5-Cl DHB approximately 6-Cl DHB approximately 3'-Cl DHB > DHB > 2'-Cl DHB approximately 4'-Cl DHB; DHBDP6-III cleaved 4-Cl DHB two times more specifically than DHB). Generally, each of the monochlorinated DHBs inactivated the enzymes more rapidly than DHB. The exceptions were 4-Cl DHB for DHBDP6-I and 2'-Cl DHB for DHBDP6-III. As observed in DHBDLB400, chloro substituents influenced the reactivity of the dioxygenases with O2. For example, the apparent specificities of DHBDP6-I and DHBDP6-III for O2 in the presence of 2'-Cl DHB were lower than those in the presence of DHB by factors of >60 and 4, respectively. DHBDP6-I and DHBDP6-III shared the relative inability of DHBDLB400 to cleave 2',6'-diCl DHB (apparent catalytic constants of 0.088 +/- 0.004 and 0.069 +/- 0.002 s(-1), respectively). However, these isozymes had remarkably different apparent K(m) values for this compound (0.007 +/- 0.001, 0.14 +/- 0.01, and 3.9 +/- 0.4 micro M for DHBDLB400, DHBDP6-I, and DHBDP6-III, respectively). The markedly different reactivities of DHBDP6-I and DHBDP6-III with chlorinated DHBs undoubtedly contribute to the PCB-degrading activity of R. globerulus P6.
最近的研究表明,来自伯克霍尔德氏菌属菌株LB400的2,3 - 二羟基联苯1,2 - 双加氧酶(DHBDLB400;EC 1.13.11.39)对氯化2,3 - 二羟基联苯(DHBs)的切割特异性低于未氯化的DHB,并且受到2',6'-二氯-2,3 - 二羟基联苯(2',6'-二氯DHB)的竞争性抑制。为了确定这些是否是双加氧酶(DHBDs)的一般特征,我们对来自球形红球菌菌株P6(另一种良好的多氯联苯(PCB)降解菌)的两种进化上不同的同工酶DHBDP6 - I和DHBDP6 - III进行了表征。与DHBDLB400相反,在空气饱和缓冲液中,两种红球菌酶对某些氯化DHBs具有更高的特异性。因此,DHBDP6 - I以以下特异性顺序切割DHBs:6 - 氯DHB > 3'-氯DHB≈DHB≈4'-氯DHB > 2'-氯DHB > 4 - 氯DHB > 5 - 氯DHB。它切割其首选底物6 - 氯DHB的特异性比DHB高两倍。有趣的是,DHBDP6 - I的一些最差底物是DHBDP6 - III的最佳底物之一(4 - 氯DHB > 5 - 氯DHB≈6 - 氯DHB≈3'-氯DHB > DHB > 2'-氯DHB≈4'-氯DHB;DHBDP6 - III切割4 - 氯DHB的特异性比DHB高两倍)。一般来说,每种单氯代DHB使酶失活的速度比DHB更快。例外情况是DHBDP6 - I的4 - 氯DHB和DHBDP6 - III的2'-氯DHB。正如在DHBDLB400中观察到的那样,氯取代基影响双加氧酶与O2的反应性。例如,在存在2'-氯DHB的情况下,DHBDP6 - I和DHBDP6 - III对O2的表观特异性分别比存在DHB时低>60倍和4倍。DHBDP6 - I和DHBDP6 - III与DHBDLB400一样,相对无法切割2',6'-二氯DHB(表观催化常数分别为0.088±0.004和0.069±0.002 s(-1))。然而,这些同工酶对该化合物的表观K(m)值有显著差异(DHBDLB400、DHBDP6 - I和DHBDP6 - III分别为0.007±0.001、0.14±0.01和3.9±0.4 μM)。DHBDP6 - I和DHBDP6 - III与氯化DHBs的显著不同反应性无疑有助于球形红球菌P6的PCB降解活性。
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