Updating the Relationship Between the Threshold Value of Average Nucleotide Identity and Digital DNA-DNA Hybridization for Reliable Taxonomy of Corynebacterium.

IF 2 2区农林科学 Q2 VETERINARY SCIENCES

Veterinary Sciences Pub Date : 2024-12-17 DOI:10.3390/vetsci11120661

Haitham Elbir

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Abstract

Currently, bacterial classification at the species level relies on the 95-96% average nucleotide identity (ANI) value that is known to be equivalent to a 70% digital DNA-DNA hybridization (dDDH) value. However, during the routine identification of bacteria in the uteri of camels with a history of conception failure, we found that four out of the seven strains (2298A, 2569A, 2652, 2571B, 1103A, 2571A, and 335C) could not be assigned to any valid Corynebacterium species. Furthermore, a 70% dDDH value did not correspond to a 95-96% ANI value in strain 2569A. Thus, we aimed to classify these strains and explain the mechanisms underlying gene repertoire diversity and the disagreement we found between the ANI and dDDH cutoff values. For this study, we extracted information from the genomes of 150 Corynebacterium-type species and seven sequenced genomes of uterine Corynebacterium isolates. We found that the 96.67% OrthoANI value should be used in place of the generally accepted 95-96% ANI threshold in order to obtain an equivalent 70% dDDH value. Phylogenomic analysis determined the evolutionary position of each uterine strain. Then, strains 2652 and 2571B were classified as C. camporealensis based on the ANI value (98.44% and 98.72%) and dDDH value (85.8% and 88.5%). Strain 2569A had a 96.58% ANI and a 69.4% dDDH value and was classified as C. urogenitale. The strains 335C, 1103A, 2571A, and 2298A were classified as novel Corynebacterium based on the ANI value (77.12, 94.01%, 94.26%, and 94.03%) and dDDH value (21.3%, 54.1%, 54.9%, and 51.3%), respectively. Genes for menaquinone biosynthesis and the saturation of chains were detected in uterine strains and their closely related type strains. Gene gain predominates as a source of variation in the gene repertoire. Most of these genes are gained by horizontal gene transfer, driven by genomic islands and prophage. In summary, we refined the ANI cutoff value for an accurate diagnosis of Corynebacterium. Moreover, we clarified the mechanism underlying the diversity of the gene repertoire and expanded the number of Corynebacterium species isolated from the camel uterus.

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棒状杆菌可靠分类中平均核苷酸识别阈值与数字DNA-DNA杂交关系的更新

目前，物种水平上的细菌分类依赖于95-96%的平均核苷酸同一性（ANI）值，已知该值相当于70%的数字DNA-DNA杂交（dDDH）值。然而，在对有受孕失败史的骆驼进行子宫细菌常规鉴定时，我们发现7株细菌中有4株（2298A、2569A、2652、2571B、1103A、2571A和335C）无法归属于任何一种有效的棒状杆菌。此外，在菌株2569A中，70%的dDDH值与95-96%的ANI值不对应。因此，我们的目的是对这些菌株进行分类，并解释基因库多样性的机制，以及我们在ANI和dDDH截断值之间发现的分歧。在这项研究中，我们提取了150个棒状杆菌型物种的基因组信息和7个子宫棒状杆菌分离株的基因组序列。我们发现，为了获得等效的70% dDDH值，应该使用96.67%的OrthoANI值来代替普遍接受的95-96% ANI阈值。系统基因组分析确定了每个子宫品系的进化位置。根据ANI值（98.44%、98.72%）和dDDH值（85.8%、88.5%），将菌株2652和2571B归为camporealensis。菌株2569A的ANI值为96.58%，dDDH值为69.4%，属泌尿生殖弯杆菌。根据ANI值（77.12、94.01%、94.26%和94.03%）和dDDH值（21.3%、54.1%、54.9%和51.3%），菌株335C、1103A、2571A和2298A被归为新型棒状杆菌。在子宫菌株及其近缘型菌株中检测了甲基萘醌生物合成基因和链饱和基因。基因增益在基因库中作为变异来源占主导地位。这些基因大多是通过水平基因转移获得的，由基因组岛和噬菌体驱动。总之，我们改进了ANI截断值以准确诊断棒状杆菌。此外，我们阐明了基因库多样性的机制，并扩大了从骆驼子宫分离的棒状杆菌种类的数量。

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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来源期刊

Veterinary Sciences VETERINARY SCIENCES-

CiteScore

2.90

自引率

8.30%

发文量

612

审稿时长

6 weeks

期刊介绍： Veterinary Sciences is an international and interdisciplinary scholarly open access journal. It publishes original that are relevant to any field of veterinary sciences, including prevention, diagnosis and treatment of disease, disorder and injury in animals. This journal covers almost all topics related to animal health and veterinary medicine. Research fields of interest include but are not limited to: anaesthesiology anatomy bacteriology biochemistry cardiology dentistry dermatology embryology endocrinology epidemiology genetics histology immunology microbiology molecular biology mycology neurobiology oncology ophthalmology parasitology pathology pharmacology physiology radiology surgery theriogenology toxicology virology.