核糖开关和核糖体RNA的进化起源及保守结构元件:核糖开关作为氨基糖苷类相互作用的潜在靶点
Evolutionary Origin and Conserved Structural Building Blocks of Riboswitches and Ribosomal RNAs: Riboswitches as Probable Target Sites for Aminoglycosides Interaction.
作者信息
Mehdizadeh Aghdam Elnaz, Barzegar Abolfazl, Hejazi Mohammad Saeid
机构信息
Drug Applied Research Center and Department of Pharmaceutical Biotechnology, Faculty of Pharmacy, Tabriz University of Medical Sciences, Tabriz, Iran.
Research Institute for Fundamental Sciences (RIFS), University of Tabriz, Tabriz, Iran. ; The School of Advanced Biomedical Sciences (SABS), Tabriz University of Medical Sciences, Tabriz, Iran.
出版信息
Adv Pharm Bull. 2014;4(3):225-35. doi: 10.5681/apb.2014.033. Epub 2014 Feb 7.
PURPOSE
Riboswitches, as noncoding RNA sequences, control gene expression through direct ligand binding. Sporadic reports on the structural relation of riboswitches with ribosomal RNAs (rRNA), raises an interest in possible similarity between riboswitches and rRNAs evolutionary origins. Since aminoglycoside antibiotics affect microbial cells through binding to functional sites of the bacterial rRNA, finding any conformational and functional relation between riboswitches/rRNAs is utmost important in both of medicinal and basic research.
METHODS
Analysis of the riboswitches structures were carried out using bioinformatics and computational tools. The possible functional similarity of riboswitches with rRNAs was evaluated based on the affinity of paromomycin antibiotic (targeting "A site" of 16S rRNA) to riboswitches via docking method.
RESULTS
There was high structural similarity between riboswitches and rRNAs, but not any particular sequence based similarity between them was found. The building blocks including "hairpin loop containing UUU", "peptidyl transferase center conserved hairpin A loop"," helix 45" and "S2 (G8) hairpin" as high identical rRNA motifs were detected in all kinds of riboswitches. Surprisingly, binding energies of paromomycin with different riboswitches are considerably better than the binding energy of paromomycin with "16S rRNA A site". Therefore the high affinity of paromomycin to bind riboswitches in comparison with rRNA "A site" suggests a new insight about riboswitches as possible targets for aminoglycoside antibiotics.
CONCLUSION
These findings are considered as a possible supporting evidence for evolutionary origin of riboswitches/rRNAs and also their role in the exertion of antibiotics effects to design new drugs based on the concomitant effects via rRNA/riboswitches.
目的
核糖开关作为非编码RNA序列,通过直接结合配体来控制基因表达。关于核糖开关与核糖体RNA(rRNA)结构关系的零星报道,引发了人们对核糖开关与rRNA进化起源之间可能存在相似性的兴趣。由于氨基糖苷类抗生素通过与细菌rRNA的功能位点结合来影响微生物细胞,因此在医学和基础研究中,发现核糖开关/rRNA之间的任何构象和功能关系都至关重要。
方法
使用生物信息学和计算工具对核糖开关结构进行分析。基于巴龙霉素抗生素(靶向16S rRNA的“A位点”)通过对接方法与核糖开关的亲和力,评估核糖开关与rRNA可能的功能相似性。
结果
核糖开关与rRNA之间存在高度的结构相似性,但未发现它们之间基于特定序列的相似性。在各种核糖开关中都检测到了包括“含有UUU的发夹环”、“肽基转移酶中心保守发夹A环”、“螺旋45”和“S2(G8)发夹”等构建模块,这些是高度相同的rRNA基序。令人惊讶的是,巴龙霉素与不同核糖开关的结合能明显优于巴龙霉素与“16S rRNA A位点”的结合能。因此,与rRNA“A位点”相比,巴龙霉素对核糖开关的高亲和力为将核糖开关作为氨基糖苷类抗生素的可能靶点提供了新的见解。
结论
这些发现被视为核糖开关/rRNA进化起源的可能支持证据,以及它们在抗生素作用发挥中的作用,从而基于rRNA/核糖开关的协同作用来设计新药。
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