在普遍存在的patescibacteriiota phyl细菌门中提出了Patescibacterium danicum gen. nov., sp. 11 .。11月。

IF 5.1 Q1 ECOLOGY

ISME communications Pub Date : 2024-11-19 eCollection Date: 2025-01-01 DOI:10.1093/ismeco/ycae147

Zuzanna Dutkiewicz, Caitlin M Singleton, Mantas Sereika, Juan C Villada, Aaron J Mussig, Maria Chuvochina, Mads Albertsen, Frederik Schulz, Tanja Woyke, Per H Nielsen, Philip Hugenholtz, Christian Rinke

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引用次数: 0

摘要

念珠菌（Candidatus Patescibacteria）是一种多样化的细菌门，其成员具有超小的细胞大小、减少的基因组、有限的代谢能力和对其他原核宿主的依赖性。尽管在科学文献中普遍使用Ca. Patescibacteria这个名称，但它并没有被《国际原核生物命名法》正式承认，并且缺乏命名类型。在这里，我们通过描述两个密切相关的圆形宏基因组组装基因组来纠正这种情况，并根据SeqCode的规则提出其中一个（ABY1TS）作为物种Patescibacterium danicum TS gen. nov., sp. nov的命名类型。等级归一化系统基因组推断证实了P. danicum TS在Ca. Patescibacteria ABY1类中的稳定位置。基于这些结果，我们建议11 . Patescibacterium gen. 11作为相关高等分类群的模式属，包括Patescibacteriota phyl门。11 .我们通过基因组特征、代谢重建和Patescibacterium的生物地理分析来补充我们的建议。我们的研究结果证实了小基因组大小（36%），23S rRNA序列中出现长基因编码插入，代谢潜力降低，推断出共生生活方式，并且具有全球分布。总之，我们的建议将为细菌领域的第四大门提供命名稳定性。

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Proposal of Patescibacterium danicum gen. nov., sp. nov. in the ubiquitous bacterial phylum Patescibacteriota phyl. nov.

Candidatus Patescibacteria is a diverse bacterial phylum that is notable for members with ultrasmall cell size, reduced genomes, limited metabolic capabilities, and dependence on other prokaryotic hosts. Despite the prevalence of the name Ca. Patescibacteria in the scientific literature, it is not officially recognized under the International Code of Nomenclature of Prokaryotes and lacks a nomenclatural type. Here, we rectify this situation by describing two closely related circular metagenome-assembled genomes and by proposing one of them (ABY1^TS) to serve as the nomenclatural type for the species Patescibacterium danicum ^TS gen. nov., sp. nov. according to the rules of the SeqCode. Rank-normalized phylogenomic inference confirmed the stable placement of P. danicum ^TS in the Ca. Patescibacteria class ABY1. Based on these results, we propose Patescibacterium gen. nov. to serve as the type genus for associated higher taxa, including the phylum Patescibacteriota phyl. nov. We complement our proposal with a genomic characterization, metabolic reconstruction, and biogeographical analysis of Patescibacterium. Our results confirm small genome sizes (<1 Mbp), low GC content (>36%), and the occurrence of long gene coding insertions in the 23S rRNA sequences, along with reduced metabolic potential, inferred symbiotic lifestyle, and a global distribution. In summary, our proposal will provide nomenclatural stability to the fourth-largest phylum in the bacterial domain.

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ISME communications

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