Understanding the rapid spread of antimicrobial resistance genes mediated by IS26

mLife Pub Date : 2024-03-18 DOI:10.1002/mlf2.12114

Na Tang, Dawei Wei, Yuan Zeng, Gang Zhang, Chao Wang, Jie Feng, Yuqin Song

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Abstract

Insertion sequences (ISs) promote the transmission of antimicrobial resistance genes (ARGs) across bacterial populations. However, their contributions and dynamics during the transmission of resistance remain unclear. In this study, we selected IS26 as a representative transposable element to decipher the relationship between ISs and ARGs and to investigate their transfer features and transmission trends. We retrieved 2656 translocatable IS26 ‐bounded units with ARGs (tIS26‐bUs‐ARGs) in complete bacterial genomes from the NCBI RefSeq database. In total, 124 ARGs spanning 12 classes of antibiotics were detected, and the average contribution rate of IS26 to these genes was 41.2%. We found that IS26 ‐bounded units (IS26‐bUs) mediated extensive ARG dissemination within the bacteria of the Gammaproteobacteria class, showing strong transfer potential between strains, species, and even phyla. The IS26‐bUs expanded in bacterial populations over time, and their temporal expansion trend was significantly correlated with antibiotic usage. This wide dissemination could be due to the nonspecific target site preference of IS26. Finally, we experimentally confirmed that the introduction of a single copy of IS26 could lead to the formation of a composite transposon mediating the transmission of “passenger” genes. These observations extend our knowledge of the IS26 and provide new insights into the mediating role of ISs in the dissemination of antibiotic resistance.

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了解由 IS26 介导的抗菌药耐药性基因的快速传播

插入序列（ISs）可促进抗菌药耐药性基因（ARGs）在细菌种群中的传播。然而，它们在耐药性传播过程中的贡献和动态仍不清楚。在这项研究中，我们选择了 IS26 作为代表性的转座元件，以破译 IS 与 ARG 之间的关系，并研究它们的转移特征和传播趋势。我们从 NCBI RefSeq 数据库中检索了完整细菌基因组中的 2656 个带有 ARGs 的可转座 IS26 边界单元（tIS26-bUs-ARGs）。共检测到124个ARGs，涵盖12类抗生素，IS26对这些基因的平均贡献率为41.2%。我们发现，IS26-bounded units（IS26-bUs）介导了 ARG 在伽马蛋白杆菌类细菌中的广泛传播，显示出菌株、物种甚至门类之间的强大转移潜力。随着时间的推移，IS26-bU 在细菌种群中不断扩大，其时间扩展趋势与抗生素的使用有显著相关性。这种广泛传播可能是由于 IS26 的非特异性靶位偏好。最后，我们通过实验证实，引入 IS26 的单个拷贝可导致形成介导 "乘客 "基因传播的复合转座子。这些观察结果扩展了我们对 IS26 的认识，为我们了解 IS 在抗生素耐药性传播过程中的中介作用提供了新的视角。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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mLife

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