Do-Hee Kim, Yong-Chan Lee, Chenglong Jin, Sung-Min Kang, Su-Jin Kang, Hoon-Seok Kang, Bong-Jin Lee
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引用次数: 0
摘要
肺炎链球菌是一种革兰氏阳性兼兼性厌氧细菌,可引起多种疾病,包括中耳炎、社区获得性肺炎、败血症和脑膜炎。随着抗生素耐药菌株的出现,迫切需要开发具有新机制的抗生素。毒素-抗毒素(TA)系统主要存在于原核生物中,由毒素及其等效的抗毒素基因组成。YefM-YoeB 模块是一个 II 型 TA 系统,其中 YoeB 毒素在激活后可作为一种假定的 mRNA 干扰素发挥作用,而 YefM 抗毒素则通过与 YoeB 一起结合到其启动子区域来发挥转录抑制作用。本研究测定了肺炎双球菌 TIGR4 中 YefM-YoeB 复合物的晶体结构,以了解 TA 系统的结合机制。此外,我们还进行了体外核糖核酸酶活性测定,以确定 YoeB 毒素的核糖核酸酶活性。此外,还研究了 YefM-YoeB 复合物在溶液中的寡聚状态,并提出了 DNA 结合模式。这些对 YefM-YoeB 复合物结构和功能的深入研究可为开发针对肺炎双球菌相关疾病的新型抗生素提供有价值的信息。
Structural and Functional Insight Into YefM-YoeB Complex of Toxin-Antitoxin System From Streptococcus pneumoniae.
Streptococcus pneumonia is a Gram-positive and facultative anaerobic bacterium that causes a number of diseases, including otitis media, community-acquired pneumonia, sepsis, and meningitis. With the emergence of antibiotic-resistant strains, there is an urgent need to develop antibiotics with a novel mechanism. The toxin-antitoxin (TA) system, which is primarily found in prokaryotes, consists of a toxin and its equivalent antitoxin genes. The YefM-YoeB module is a Type II TA system, where the YoeB toxin functions as a putative mRNA interferase upon activation, while the YefM antitoxin acts as a transcription repressor by binding to its promoter region along with YoeB. In this study, we determined the crystal structure of the YefM-YoeB complex from S. pneumoniae TIGR4 to comprehend the binding mechanism of the TA system. Furthermore, an in vitro ribonuclease activity assay was conducted to identify the ribonuclease activity of the YoeB toxin. Additionally, furthermore, the oligomeric state of the YefM-YoeB complex in solution was investigated, and a DNA-binding mode was proposed. These structural and functional insights into the YefM-YoeB complex could provide valuable information for the development of novel antibiotics targeting S. pneumonia-associated diseases.
期刊介绍:
The Journal of Cellular Biochemistry publishes descriptions of original research in which complex cellular, pathogenic, clinical, or animal model systems are studied by biochemical, molecular, genetic, epigenetic or quantitative ultrastructural approaches. Submission of papers reporting genomic, proteomic, bioinformatics and systems biology approaches to identify and characterize parameters of biological control in a cellular context are encouraged. The areas covered include, but are not restricted to, conditions, agents, regulatory networks, or differentiation states that influence structure, cell cycle & growth control, structure-function relationships.