艾美耳球虫的三个操作分类单元在尼日利亚鸡中很常见,可能会破坏球虫病的有效分子诊断。
Three operational taxonomic units of Eimeria are common in Nigerian chickens and may undermine effective molecular diagnosis of coccidiosis.
作者信息
Jatau Isa D, Lawal Idris A, Kwaga Jacob K P, Tomley Fiona M, Blake Damer P, Nok Andrew J
机构信息
Faculty of Veterinary Medicine, Ahmadu Bello University, Zaria, Nigeria.
Pathology and Pathogen Biology, Royal Veterinary College, Hawkshead Lane, North Mymms, AL9 7TA, UK.
出版信息
BMC Vet Res. 2016 Jun 4;12:86. doi: 10.1186/s12917-016-0713-9.
BACKGROUND
Chicken is fast becoming the world's most consumed meat. As a consequence poultry health is more important now than ever before, with pathogens of chickens recognised as serious threats to food security. One such threat are Eimeria species parasites, protozoa which can cause the disease coccidiosis. Eimeria can compromise economic poultry production and chicken welfare, and have serious consequences for poor livestock keepers. Seven Eimeria species that infect chickens are recognised with a global enzootic distribution. More recently three cryptic Operational Taxonomic Units (OTUx, y and z) have been described in populations of Eimeria recovered from chickens in Australia. Two of the three OTUs have also been detected in sub-Saharan Africa, but their occurrence, pathology and the risk they pose is largely unknown.
RESULTS
Nigeria has witnessed a dramatic expansion in poultry production and is now the largest poultry producer in Africa. Here, faecal samples collected from nine of 12 commercial chicken farms sampled in Kaduna state, Nigeria, were found to contain eimerian oocysts. After amplification by in vivo propagation all three cryptic OTU genotypes were detected using polymerase chain reaction (PCR), including OTUy for the first time outside of Australia. Comparison with a widely used, established Eimeria species-specific PCR assay revealed failure to detect the OTU genotypes.
CONCLUSIONS
All three of the Eimeria OTU genotypes appear to be common in north-western Nigeria. The failure of a leading species-specific molecular assay to detect these genotypes indicates a risk of false negative Eimeria diagnosis when using molecular tools and suggests that the spatial occurrence of each OTU may be far wider than has been recognised. The risk posed by these novel genotypes is unknown, but it is clear that a better understanding of Eimeria occurrence is required together with the validation of effective diagnostics.
背景
鸡肉正迅速成为全球消费最多的肉类。因此,家禽健康如今比以往任何时候都更加重要,鸡的病原体被视为对食品安全的严重威胁。艾美耳属寄生虫就是这样一种威胁,它是一种可引发球虫病的原生动物。艾美耳属寄生虫会影响家禽的经济效益和鸡的健康状况,对贫困的养殖户造成严重后果。已知有七种感染鸡的艾美耳属寄生虫,在全球呈地方流行性分布。最近,在从澳大利亚鸡群中分离出的艾美耳属寄生虫种群中发现了三个隐秘操作分类单元(OTUx、y和z)。这三个OTU中的两个也在撒哈拉以南非洲被检测到,但它们的分布情况、病理学特征以及所构成的风险在很大程度上尚不清楚。
结果
尼日利亚的家禽产量急剧增长,现已成为非洲最大的家禽生产国。在尼日利亚卡杜纳州抽样的12个商业养鸡场中,有9个养鸡场的粪便样本被发现含有艾美耳属卵囊。通过体内繁殖进行扩增后,使用聚合酶链反应(PCR)检测到了所有三种隐秘OTU基因型,其中OTUy是首次在澳大利亚以外的地区被检测到。与一种广泛使用的、既定的艾美耳属物种特异性PCR检测方法进行比较发现,该方法未能检测到这些OTU基因型。
结论
所有三种艾美耳属OTU基因型在尼日利亚西北部似乎都很常见。一种主要的物种特异性分子检测方法未能检测到这些基因型,这表明在使用分子工具时存在艾美耳属诊断假阴性的风险,也表明每个OTU的实际分布范围可能比目前所认识到的要广泛得多。这些新基因型所构成的风险尚不清楚,但很明显需要更好地了解艾美耳属寄生虫的分布情况,并验证有效的诊断方法。
Zotero 插件