Section of Genetics and Microbiology, Department of Agriculture and Ecology, Faculty of Life Sciences, University of Copenhagen, Thorvaldsensvej 40, Frederiksberg C, Denmark.
Appl Environ Microbiol. 2010 May;76(9):2873-83. doi: 10.1128/AEM.02270-09. Epub 2010 Mar 19.
The rdpA and sdpA genes encode two enantioselective alpha-ketoglutarate-dependent dioxygenases catalyzing the initial step of microbial degradation of the chiral herbicide (R,S)-2-(2,4-dichlorophenoxy)propionate (R,S-dichlorprop). Primers were designed to assess abundance and transcription dynamics of rdpA and sdpA genes in a natural agricultural soil. No indigenous rdpA genes were detected, but sdpA genes were present at levels of approximately 10(3) copies g of soil(-1). Cloning and sequencing of partial sdpA genes revealed a high diversity within the natural sdpA gene pool that could be divided into four clusters by phylogenetic analysis. BLASTp analysis of deduced amino acids revealed that members of cluster I shared 68 to 69% identity, cluster II shared 78 to 85% identity, cluster III shared 58 to 64% identity, and cluster IV shared 55% identity to their closest SdpA relative in GenBank. Expression of rdpA and sdpA in Delftia acidovorans MC1 inoculated in soil was monitored by reverse transcription quantitative real-time PCR (qPCR) during in situ degradation of 2 and 50 mg kg(-1) of (R,S)-dichlorprop. (R,S)-Dichlorprop amendment created a clear upregulation of both rdpA and sdpA gene expression during the active phase of (14)C-labeled (R,S)-dichlorprop mineralization, particularly following the second dose of 50 mg kg(-1) herbicide. Expression of both genes was maintained at a low constitutive level in nonamended soil microcosms. This study is the first to report the presence of indigenous sdpA genes recovered directly from natural soil and also comprises the first investigation into the transcription dynamics of two enantioselective dioxygenase genes during the in situ degradation of the herbicide (R,S)-dichlorprop in soil.
rdpA 和 sdpA 基因编码两种对映体选择性的 α-酮戊二酸依赖性双加氧酶,催化手性除草剂(R,S)-2-(2,4-二氯苯氧基)丙酸(R,S-二氯丙酸)的微生物降解的初始步骤。设计了引物来评估天然农业土壤中 rdpA 和 sdpA 基因的丰度和转录动态。没有检测到本地 rdpA 基因,但 sdpA 基因的含量约为土壤的 10(3)个拷贝 g(-1)。部分 sdpA 基因的克隆和测序揭示了天然 sdpA 基因库中的高度多样性,通过系统发育分析可分为四个聚类。BLASTp 分析推导的氨基酸表明,聚类 I 的成员之间共享 68%至 69%的同一性,聚类 II 共享 78%至 85%的同一性,聚类 III 共享 58%至 64%的同一性,聚类 IV 与 GenBank 中最接近的 SdpA 相关物共享 55%的同一性。通过实时定量 RT-PCR(qPCR)监测 Delftia acidovorans MC1 在原位降解 2 和 50 mg kg(-1)(R,S)-二氯丙酸时 rdpA 和 sdpA 在土壤中的表达。(R,S)-二氯丙酸的添加在(14)C 标记的(R,S)-二氯丙酸矿化的活跃阶段明显上调了 rdpA 和 sdpA 基因的表达,特别是在第二次施用 50 mg kg(-1)除草剂后。未添加土壤微宇宙中两种基因的表达保持在低组成水平。本研究首次报道了从天然土壤中直接回收的本地 sdpA 基因的存在,也是首次研究了两种对映体选择性双加氧酶基因在土壤中(R,S)-二氯丙酸原位降解过程中的转录动态。