Molecular detection and genetic characterization of Babesia, Theileria and Anaplasma amongst apparently healthy sheep and goats in the central region of Turkey

文献类型: 外文期刊

第一作者: Zhou, Mo

作者: Zhou, Mo;Cao, Shinuo;Jirapattharasate, Charoonluk;Moumouni, Paul Franck Adjou;Liu, Mingming;Wang, Guanbo;Iguchi, Aiko;Vudriko, Patrick;Suzuki, Hiroshi;Xuan, Xuenan;Zhou, Mo;Cao, Shinuo;Sevinc, Ferda;Sevinc, Mutlu;Ceylan, Onur;Ekici, Sepil

作者机构:

关键词: Tick-borne pathogen;Species-specific PCR;Sheep;Goat;Turkey

期刊名称:TICKS AND TICK-BORNE DISEASES ( 影响因子:3.744; 五年影响因子:3.693 )

ISSN: 1877-959X

年卷期: 2017 年 8 卷 2 期

页码:

收录情况: SCI

摘要: Babesia spp., Theileria spp. and Anaplasma spp. are significant tick-borne pathogens of livestock globally. In this study, we investigated the presence and distribution of Babesia ovis, Theileria ovis and Anaplasma ovis in 343 small ruminants (249 sheep and 94 goats) from 13 towns in the Central Anatolia region of Turkey using species-specific PCR assays. The PCR were conducted using the primers based on the B. ovis ssu rRNA (BoSSUrRNA), T. ovis ssu rRNA (ToSSUrRNA) and A. ovis major surface protein 4 (AoMSP4) genes, respectively. Fragments of these genes were sequenced for phylogenetic analysis. PCR results revealed that the overall infections ofA. ovis, T. ovis and B. ovis were 60.0%,35.9% and 5.2%, respectively. Co-infection of the animals with two or three pathogens was detected in 105/343 (30.6%) of the ovine samples. The results of sequence analysis indicated that AoMSP4 were conserved among the Turkish samples, with 100% sequence identity values. In contrast, the BoSSUrRNA and ToSSUrRNA gene sequences were relatively diverse with identity values of 98.54%-99.82% and 99.23%-99.81%, respectively. Phylograms were inferred based on the BoSSUrRNA, ToSSUrRNA and AoMSP4 sequences obtained in this study and those from previous studies. B. ovis isolates from Turkey were found in the same Glade as the isolates from other countries in phylogenetic analysis. On the other hand, the Turkish T. ovis isolates in the present study formed a monophyletic grouping with the isolates from other countries in a phylogeny based on ToSSUrRNA sequences. Furthermore, phylogenetic analysis using AoMSP4 sequences showed the presence of three genotypes ofA ovis. This study provides important data for understanding the epidemiology of tick borne diseases in small ruminants and the degree of genetic heterogeneities among these pathogens in Turkey. To our knowledge, this is the first study on the co-infection of Babesia, Theileria and Anaplasma in sheep and goats in Turkey. (C) 2016 Elsevier GmbH. All rights reserved.

分类号:

  • 相关文献

[1]First report on the occurrence of Theileria sp OT3 in China. Tian, Zhancheng,Liu, Guangyuan,Yin, Hong,Xie, Junren,Wang, Suyan,Yuan, Xiaosong,Wang, Fangfang,Luo, Jin. 2014

[2]Rapid identification of Streptococcus iniae by specific PCR assay utilizing genetic markers in ITS rDNA. Zhou, S. M.,Fan, Y.,Xie, M. Q.,Li, A. X.,Zhu, X. Q.. 2011

[3]Development of DIVA (differentiation of infected from vaccinated animals) vaccines utilizing heterologous NA and NS1 protein strategies for the control of triple reassortant H3N2 influenza in turkeys. Wang, Leyi,Qin, Zhuoming,Saifa, Yehia M.,Lee, Chang-Won,Wang, Leyi,Saifa, Yehia M.,Lee, Chang-Won,Qin, Zhuoming,Pantin-Jackwood, Mary,Faulkner, Olivia,Suarez, David L.,Garcia, Maricarmen,Lupiani, Blanca,Reddy, Sanjay M.. 2011

[4]Enzyme-linked immunosorbent assays using recombinant TgSAG2 and NcSAG1 to detect Toxoplasma gondii and Neospora caninum-specific antibodies in domestic animals in Turkey. Zhou, Mo,Cao, Shinuo,Liu, Mingming,Wang, Guanbo,Moumouni, Paul Franck Adjou,Jirapattharasate, Charoonluk,Suzuki, Hiroshi,Nishikawa, Yoshifumi,Xuan, Xuenan,Zhou, Mo,Sevinc, Ferda,Sevinc, Mutlu,Ceylan, Onur.

[5]A PCR survey of vector-borne pathogens in different dog populations from Turkey. Guo, Huanping,Gao, Yang,Moumouni, Paul Franck Adjou,Liu, Mingming,Efstratiou, Artemis,Wang, Guanbo,Cao, Shinuo,Jirapattharasate, Charoonluk,Ringo, Aaron Edmond,Zheng, Weiqing,Xuan, Xuenan,Sevinc, Ferda,Ceylan, Onur,Sevinc, Mutlu,Ince, Ege,Zhou, Mo.

[6]Effects of species and cellular activity of oviductal epithelial cells on their dialogue with co-cultured mouse embryos. Tan, Xiu-Wen,Ma, Suo-Feng,Yu, Jian-Ning,Zhang, Xia,Lan, Guo-Cheng,Liu, Xin-Yong,Han, Zheng-Bin,Tan, Jing-He. 2007

[7]Desmoglein 4 diversity and correlation analysis with coat color in goat. E, G. X.,Zhao, Y. J.,Na, R. S.,Zhao, Z. Q.,Jiang, C. D.,Zhang, J. H.,Chen, L. P.,Qiu, X. Y.,Hu, W.,Huang, Y. F.,Ma, Y. H.,Cao, G. L.,He, J. N.,Arlvd, S.. 2016

[8]Advances in Molecular Breeding Research of Goat Fecundity. Wang, Jian-Ying,Zhang, Xiu-Mei,Lan, Zou-Ran. 2012

[9]Tissue distribution and expression of signaling lymphocyte activation molecule receptor to peste des petits ruminant virus in goats detected by real-time PCR. Meng, Xuelian,Dou, Yongxi,Zhai, Junjun,Zhang, Hairui,Yan, Fengchao,Shi, Xiaoni,Luo, Xuelong,Li, Hui,Cai, Xuepeng. 2011

[10]DNA Polymorphisms of 5 '-Flanking Region of Insulin-Like Growth Factor 1 Gene and Their Association with Reproduction Traits in Goats. Wang Ping-qing,Tan Ying,Zhang Bao-yun,Deng La-mei,Fan Qi,Liu Chong-xu,Chu Ming-xing. 2011

[11]Liquid chromatography-tandem mass spectrometry analysis of nitazoxanide and its major metabolites in goat. Zhao, Zhanzhong,Zhang, Lifang,Xue, Feiqun,Wang, Xiaoyang,Zheng, Wenli,Zhang, Tao,Fei, Chenzhong,Zhang, Keyu,Qiu, Minqi,Xin, Ruixiang,Yang, Fengkun. 2008

[12]Identification and characterization of microRNAs in the ovaries of multiple and uniparous goats (Capra hircus) during follicular phase. Ling, Ying-Hui,Ren, Chun-Huan,Guo, Xiao-Fei,Huang, Ya-Feng,Luo, Jian-Chuan,Zhang, Yun-Hai,Zhang, Xiao-Rong,Zhang, Zi-Jun,Ling, Ying-Hui,Ren, Chun-Huan,Guo, Xiao-Fei,Huang, Ya-Feng,Luo, Jian-Chuan,Zhang, Yun-Hai,Zhang, Xiao-Rong,Zhang, Zi-Jun,Xu, Li-Na. 2014

[13]Detection of border disease virus (BDV) in goat herds suffering diarrhea in eastern China. Li, Wenliang,Mao, Li,Zhao, Yongqian,He, Kongwang,Jiang, Jieyuan,Sun, Yinhua. 2013

[14]Improvement of the nuclear transfer efficiency by using the same genetic background of recipient oocytes as the somatic donor cells in goats. Liu, Hai-jun,Zheng, Zi,Wang, Ru,Xue, Jun,Li, Kui,Ying, Zheng-Zhou.

[15]Genome-wide transcriptome analysis in the ovaries of two goats identifies differentially expressed genes related to fecundity. Miao, Xiangyang,Luo, Qingmiao,Qin, Xiaoyu.

[16]The Correlation Between Goat Cox II Gene Single Nucleotide Polymorphism and Sperm Motility. Ling, Yinghui,Wang, Lijuan,Zhang, Xiaodong,Ding, Jian-Ping,Zhang, Yun-Hai,Zhang, Zijun,Zhang, Xiao-Rong,Ling, Yinghui,Wang, Lijuan,Zhang, Xiaodong,Ding, Jian-Ping,Zhang, Yun-Hai,Zhang, Zijun,Zhang, Xiao-Rong,Xu, Lina. 2012

[17]Genetic diversity analysis of major Sri Lankan goat populations using microsatellite and mitochondrial DNA D-loop variations. Silva, Pradeepa,Dematawewa, C. M. B.,Kurukulasuriya, Maheshika,Utsunomiya, Yuri T.,Garcia, Jose Fernando,Pichler, Rudolf,Periasamy, Kathiravan,Thiruvenkadan, A. K.,Ramasamy, Saravanan,Han, Jian-Lin.

[18]Analysis on DNA sequence of goat RFRP gene and its possible association with average daily sunshine duration. Huang, D. W.,Di, R.,Wang, J. X.,Chu, M. X.,He, J. N.,Cao, G. L.,Fang, L.,Feng, T.,Li, N..

[19]Analysis on cDNA sequence, alternative splicing and polymorphisms associated with timing of puberty of Lin28B gene in goats. Cao, Guiling,Liu, Qiuyue,Chu, Mingxing,Di, Ran,Fang, Li,Feng, Tao,Li, Ning.

[20]The Prophet of PIT1 Gene Variation and its Effect on Growth Traits in Chinese Indigeous Goat. Xu, T. S.,Zhou, H. L.,Liu, J. B.,Yao, D. W.,Cai, H. F.,Chen, H.,Lan, X. Y.. 2010

作者其他论文 更多>>

微信小程序