扩展噬菌体银河系：五种新型链霉菌虹彩病毒 Ankus、Byblos、DekoNeimoidia、Mandalore 和 Naboo 的分离与特征描述。

PHAGE (New Rochelle, N.Y.) Pub Date : 2024-09-16 eCollection Date: 2024-09-01 DOI:10.1089/phage.2024.0012

Sebastian H Erdrich, Tom Luthe, Larissa Kever, Biel Badia Roigé, Borjana Arsova, Eva Davoudi, Julia Frunzke

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引用次数: 0

摘要

背景：放线菌属链霉菌的主要特征是多细胞、丝状生长和产生多种生物活性分子。这些特征似乎在噬菌体与宿主的相互作用中发挥着重要作用，并在感染过程中受到噬菌体的调节。为了加快对这种相互作用的研究和对多细胞细菌新型免疫系统的调查，需要对噬菌体进行分离、测序和特征描述。这是建立系统收集的先决条件，收集的噬菌体应适当涵盖噬菌体的多样性，以便进行比较分析：作为优先计划 SPP 2330 公共推广计划的一部分，我们在当地学校中分离并鉴定了感染格氏链霉菌、委内瑞拉链霉菌和橄榄链霉菌的五种新型链霉菌虹吸病毒：结果：所有分离株都是两个现有属的毒性成员，此外还在 Stanwilliamsviridae 科中建立了一个新属。除了大量参与噬菌体复制的 tRNA 和蛋白质外，约 80% 的噬菌体基因编码假定蛋白质，这凸显了感染放线菌的噬菌体的多样性和基因组暗物质尚未得到充分探索：总之，噬菌体 Ankus、Byblos、Deko-Neimoidia、Mandalore 和 Naboo 扩展了噬菌体的多样性，为链霉菌噬菌体-宿主相互作用领域的持续研究做出了贡献。

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Expanding the Phage Galaxy: Isolation and Characterization of Five Novel Streptomyces Siphoviruses Ankus, Byblos, DekoNeimoidia, Mandalore, and Naboo.

Background: Key features of the actinobacterial genus Streptomyces are multicellular, filamentous growth, and production of a broad portfolio of bioactive molecules. These characteristics appear to play an important role in phage-host interactions and are modulated by phages during infection. To accelerate research of such interactions and the investigation of novel immune systems in multicellular bacteria, phage isolation, sequencing, and characterization are needed. This is a prerequisite for establishing systematic collections that appropriately cover phage diversity for comparative analyses.

Material & methods: As part of a public outreach program within the priority program SPP 2330, involving local schools, we describe the isolation and characterization of five novel Streptomyces siphoviruses infecting S. griseus, S. venezuelae, and S. olivaceus.

Results: All isolates are virulent members of two existing genera and, additionally, establish a new genus in the Stanwilliamsviridae family. In addition to an extensive set of tRNAs and proteins involved in phage replication, about 80% of phage genes encode hypothetical proteins, underlining the yet underexplored phage diversity and genomic dark matter still found in bacteriophages infecting actinobacteria.

Conclusions: Taken together, phages Ankus, Byblos, DekoNeimoidia, Mandalore, and Naboo expand the phage diversity and contribute to ongoing research in the field of Streptomyces phage-host interactions.

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PHAGE (New Rochelle, N.Y.)

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