肉鸡小体积呼吸道样本的病毒组鉴定方法。

IF 1.6 4区医学 Q3 BIOCHEMICAL RESEARCH METHODS

Journal of virological methods Pub Date : 2025-12-01 Epub Date: 2025-07-30 DOI:10.1016/j.jviromet.2025.115233

Giulia Von Tönnemann Pilati, Henrique Borges da Silva Grisard, Rafael Cadamuro Dorighello, Vilmar Benetti Filho, Mariane Dahmer, Beatriz Pereira Savi, Mariana Alves Elois, Gleidson Biasi Carvalho Salles, Eduardo Correa Muniz, Gislaine Fongaro

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引用次数: 0

摘要

家禽业是全球动物蛋白的主要来源，但仍然容易受到免疫抑制性病毒感染的影响，从而损害鸟类的健康和生产力。本研究评估了巴西圣卡塔琳娜肉鸡呼吸样本宏基因组分析的五种病毒纯化方法。收集10只鸡（每个农场1只）的气管拭子，加入50µL单纯疱疹病毒2型（HSV-2）和小鼠诺如病毒（MNV-1）混合物作为内部阳性对照。样品离心（2000 × g） 30min，过滤（0.45 μm），经过5种纯化方法。滤液采用五种不同的纯化方法。方法1 （M1）是基于核酸直接基因组提取上清的方法。方法2 (M2)：采用dna酶预处理，然后进行基因组提取。方法3 （M3）在4℃下以100,000 × g / 3h超离心，然后进行基因组提取。在方法4 （M4）中，样品在25%的蔗糖缓冲液上在4°C下以100,000 × g / 3小时的速度进行超离心，然后进行基因组提取。最后，在方法5 （M5）中，样品在25%的蔗糖缓冲液上以100,000 × g / 3小时在4°C下进行超离心，用DNase处理，然后进行基因组提取。所有基因组提取均使用RNeasy Mini试剂盒进行。将样品逆转录成cDNA，并通过MiSeq测序系统进行测序。以病毒遗传物质的产量评价M1-5的效率。所采用的所有方法都表明，从家禽生产中发现的病毒中恢复基因组的速度各不相同。在鸡基因组中发现的主要病毒包括禽回旋病毒2 （AGV-2）、禽白血病病毒（ALV）和禽内源性逆转录病毒EAV-HP。其中，M5表现最好，可恢复9.32%的病毒序列、44%的HSV-2、32%的EAV-HP、8%的ALV和7%的AGV-2。总之，本研究成功地评估和比较了五种不同的病毒纯化方法，对禽病毒组的表征和增强对病毒生态学的理解具有重要意义。

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Protocol for virome characterization in low-volume respiratory samples from broiler chickens.

The poultry industry is a major global source of animal protein but remains vulnerable to immunosuppressive viral infections that compromise bird health and productivity. This study evaluated five viral purification methods for metagenomic analysis of respiratory samples from broiler chickens in Santa Catarina, Brazil. Tracheal swabs from ten flocks (one per farm) were pooled, and 50 µL of a herpes simplex virus type 2 (HSV-2) and murine norovirus (MNV-1) mix was added as an internal positive control. The sample was centrifuged (2000 × g for 30 min), filtered (0.45 μm), and subjected to five purification methods. The filtrate was subjected to five different purification methods. Method 1 (M1) was based on nucleic acid direct genomic extraction of the supernatant. Method 2 (M2): a pre-treatment with DNase was used, followed by genomic extraction. Method 3 (M3) was performed using ultracentrifugation at 100,000 × g / 3 h at 4 °C, followed by genomic extraction. In Method 4 (M4), the sample was submitted to ultracentrifugation on a 25 % sucrose cushion at 100,000 × g / 3 h at 4 °C, followed by genomic extraction. Finally, in Method 5 (M5), the sample was ultracentrifuged on a 25 % sucrose cushion at 100,000 × g / 3 h at 4 °C, and the pellet was treated with DNase followed by genomic extraction. All genomic extractions were performed using the RNeasy Mini kit. Samples were reverse transcribed into cDNA and sequenced by the MiSeq Sequencing System. The efficiency of M1-5 was evaluated based on the yield of viral genetic material. All methodologies employed demonstrated varying rates of genome recovery from viruses identified in poultry production. Notable viruses included avian gyrovirus 2 (AGV-2), avian leukosis virus (ALV), and the avian endogenous retrovirus EAV-HP found within chicken genomes. However, M5 showed the best performance, recovering 9.32 % of viral sequences, 44 % of HSV-2, as internal viral control, 32 % of EAV-HP, 8 % of ALV, and 7 % of AGV-2. In conclusion, this study successfully evaluated and compared five distinct viral purification methods, contributing significantly to the characterization of avian viromes and enhancing comprehension of viral ecology.

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来源期刊

Journal of virological methods 医学-病毒学

CiteScore

5.80

自引率

0.00%

发文量

209

审稿时长

41 days

期刊介绍： The Journal of Virological Methods focuses on original, high quality research papers that describe novel and comprehensively tested methods which enhance human, animal, plant, bacterial or environmental virology and prions research and discovery. The methods may include, but not limited to, the study of: Viral components and morphology- Virus isolation, propagation and development of viral vectors- Viral pathogenesis, oncogenesis, vaccines and antivirals- Virus replication, host-pathogen interactions and responses- Virus transmission, prevention, control and treatment- Viral metagenomics and virome- Virus ecology, adaption and evolution- Applied virology such as nanotechnology- Viral diagnosis with novelty and comprehensive evaluation. We seek articles, systematic reviews, meta-analyses and laboratory protocols that include comprehensive technical details with statistical confirmations that provide validations against current best practice, international standards or quality assurance programs and which advance knowledge in virology leading to improved medical, veterinary or agricultural practices and management.