源自南非水牛的与其他源自水牛和牛的不同。

South African Buffalo-Derived Is Distinct From Other Buffalo and Cattle-Derived .

作者信息

Maboko Boitumelo B, Sibeko-Matjila Kgomotso P, Pierneef Rian, Chan Wai Y, Josemans Antoinette, Marumo Ratselane D, Mbizeni Sikhumbuzo, Latif Abdalla A, Mans Ben J

机构信息

Agricultural Research Council, Onderstepoort Veterinary Research, Pretoria, South Africa.

Department of Veterinary Tropical Diseases, University of Pretoria, Pretoria, South Africa.

出版信息

Front Genet. 2021 Jun 25;12:666096. doi: 10.3389/fgene.2021.666096. eCollection 2021.

DOI:10.3389/fgene.2021.666096

PMID:34249088

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8269612/

Abstract

is a protozoan parasite transmitted by the brown-eared ticks, and . Buffaloes are the parasite's ancestral host, with cattle being the most recent host. The parasite has two transmission modes namely, cattle-cattle and buffalo-cattle transmission. Cattle-cattle transmission causes East Coast fever (ECF) and January disease syndromes. Buffalo to cattle transmission causes Corridor disease. Knowledge on the genetic diversity of South African populations will assist in determining its origin, evolution and identify any cattle-cattle transmitted strains. To achieve this, genomic DNA of blood and culture material infected with South African isolates (8160, 8301, 8200, 9620, 9656, 9679, Johnston, KNP2, HL3, KNP102, 9574, and 9581) were extracted and paired-end whole genome sequencing using Illumina HiSeq 2500 was performed. East and southern African sample data (Chitongo Z2, Katete B2, Kiambu Z464/C12, Mandali Z22H10, Entebbe, Nyakizu, Katumba, Buffalo LAWR, and Buffalo Z5E5) was also added for comparative purposes. Data was analyzed using BWA and SAMtools variant calling with the Muguga genome sequence used as a reference. Buffalo-derived strains had higher genetic diversity, with twice the number of variants compared to cattle-derived strains, confirming that buffaloes are ancestral reservoir hosts of . Host specific SNPs, however, could not be identified among the selected 74 gene sequences. Phylogenetically, strains tended to cluster by host with South African buffalo-derived strains clustering with buffalo-derived strains. Among the buffalo-derived strains, South African strains were genetically divergent from other buffalo-derived strains indicating possible geographic sub-structuring. Geographic sub- structuring was also observed within South Africa strains. The knowledge generated from this study indicates that to date, ECF is not circulating in buffalo from South Africa. It also shows that has historically been present in buffalo from South Africa before the introduction of ECF and was not introduced into buffalo during the ECF epidemic.

摘要

是一种由褐耳蜱传播的原生动物寄生虫。水牛是该寄生虫的原始宿主，牛是其最新宿主。该寄生虫有两种传播模式，即牛 - 牛传播和水牛 - 牛传播。牛 - 牛传播会引发东海岸热（ECF）和一月病综合征。水牛到牛的传播会引发走廊病。了解南非种群的遗传多样性将有助于确定其起源、进化并识别任何牛 - 牛传播的菌株。为实现这一目标，提取了感染南非分离株（8160、8301、8200、9620、9656、9679、约翰斯顿、KNP2、HL3、KNP102、9574和9581）的血液和培养材料的基因组DNA，并使用Illumina HiSeq 2500进行了双端全基因组测序。还添加了东非和南非的样本数据（奇通戈Z2、卡特特B2、基安布Z464/C12、曼达利Z22H10、恩德培、尼亚基祖、卡图姆巴、水牛LAWR和水牛Z5E5）用于比较。使用BWA和SAMtools变异检测对数据进行分析，以穆古加基因组序列作为参考。源自水牛的菌株具有更高的遗传多样性，其变异数量是源自牛的菌株的两倍，这证实了水牛是该寄生虫的原始宿主库。然而，在所选择的74个基因序列中未能鉴定出宿主特异性单核苷酸多态性。在系统发育上，菌株倾向于按宿主聚类，南非源自水牛的菌株与源自水牛的菌株聚类在一起。在源自水牛的菌株中，南非菌株在基因上与其他源自水牛的菌株不同，表明可能存在地理亚结构。在南非菌株中也观察到了地理亚结构。这项研究产生的知识表明，迄今为止，ECF并未在南非的水牛中传播。它还表明，在ECF引入之前，该寄生虫在南非的水牛中就已存在，并且在ECF流行期间并未传播到水牛中。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e51/8269612/d837d2dac2bb/fgene-12-666096-g001.jpg

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源自南非水牛的与其他源自水牛和牛的不同。

South African Buffalo-Derived Is Distinct From Other Buffalo and Cattle-Derived .

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