Shandong Provincial Key Laboratory of Synthetic Biology, Qingdao C1 Refinery Engineering Research CenterQingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences, Qingdao, 266101, China.
Shandong Energy Institute, Qingdao, 266101, China.
Appl Microbiol Biotechnol. 2024 Dec;108(1):22. doi: 10.1007/s00253-023-12827-3. Epub 2023 Dec 30.
Three new strains of dissimilatory perchlorate-reducing bacteria (DPRB), QD19-16, QD1-5, and P3-1, were isolated from an active sludge. Phylogenetic trees based on 16S rRNA genes indicated that QD19-16, QD1-5, and P3-1 belonged to Brucella, Acidovorax, and Citrobacter, respectively, expanding the distribution of DPRB in the Proteobacteria. The three strains were gram-negative and facultative anaerobes with rod-shaped cells without flagella, which were 1.0-1.6 μm long and 0.5-0.6 μm wide. The three DPRB strains utilized similar broad spectrum of electron donors and acceptors and demonstrated a similar capability to reduce perchlorate within 6 days. The enzyme activity of perchlorate reductase in QD19-16 toward chlorate was higher than that toward perchlorate. The high sequence similarity of the perchlorate reductase operon and chlorite dismutase genes in the perchlorate reduction genomic islands (PRI) of the three strains implied that they were monophyletic origin from a common ancestral PRI. Two transposase genes (tnp1 and tnp2) were found in the PRIs of strain QD19-16 and QD1-5, but were absent in the strain P3-1 PRI. The presence of fragments of IR sequences in the P3-1 PRI suggested that P3-1 PRI had previously contained these two tnp genes. Therefore, it is plausible to suggest that a common ancestral PRI transferred across the strains Brucella sp. QD19-16, Acidovorax sp. QD1-5, and Citrobacter sp. P3-1 through horizontal gene transfer, facilitated by transposases. These results provided a direct evidence of horizontal gene transfer of PRI that could jump across phylogenetically unrelated bacteria through transposase. KEY POINTS: • Three new DPRB strains can effectively remove high concentration of perchlorate. • The PRIs of three DPRB strains are acquired from a single ancestral PRI. • PRIs are incorporated into different bacteria genome through HGT by transposase.
三株新的异化高氯酸盐还原菌(DPRB)QD19-16、QD1-5 和 P3-1 从活性污泥中分离得到。基于 16S rRNA 基因的系统发育树表明,QD19-16、QD1-5 和 P3-1 分别属于布鲁氏菌属、食酸菌属和柠檬酸杆菌属,扩大了 DPRB 在变形菌门中的分布。三株菌均为革兰氏阴性兼性厌氧菌,细胞呈杆状,无鞭毛,长 1.0-1.6μm,宽 0.5-0.6μm。三株 DPRB 菌株利用相似的广谱电子供体和受体,并在 6 天内表现出相似的还原高氯酸盐的能力。QD19-16 中高氯酸盐还原酶对氯酸盐的酶活性高于高氯酸盐。三株菌的高氯酸盐还原基因座(PRI)中的高氯酸盐还原酶基因和亚氯酸盐歧化酶基因序列高度相似,表明它们来自一个共同的祖先 PRI。在菌株 QD19-16 和 QD1-5 的 PRI 中发现了两个转座酶基因(tnp1 和 tnp2),但在菌株 P3-1 的 PRI 中不存在。在 P3-1 PRI 中存在 IR 序列片段表明,P3-1 PRI 曾经包含这两个 tnp 基因。因此,可以推测,一个共同的祖先 PRI 通过转座酶介导的水平基因转移在布鲁氏菌属 QD19-16、食酸菌属 QD1-5 和柠檬酸杆菌属 P3-1 菌株之间转移。这些结果提供了 PRI 通过转座酶在进化上不相关的细菌之间发生水平基因转移的直接证据。要点:
三株新的 DPRB 菌株能有效去除高浓度的高氯酸盐。
三株 DPRB 菌株的 PRI 是从单个祖先 PRI 获得的。
通过转座酶,PRI 通过 HGT 整合到不同细菌的基因组中。
