马流产沙门氏菌的分离鉴定及其微量凝集抗体检测方法的建立与应用

doi:10.3864/j.issn.0578-1752.2020.10.017

Abstract

Abstract:

【Objective】Salmonella abortus equi was isolated and identified from the tissue of aborted foal. The aim for the study was to establish a sensitive, specific, easy to operate and high throughput microagglutination method by using the isolated Salmonella abortus equi, so as to realize the rapid diagnosis of Salmonella abortus equi antibody. 【Method】Selective medium for Salmonella was used for bacteria reproduction from aborted foal organs, and the purple colonies were selected and identified by Gram staining. The whole genome of bacteria was extracted, and 16S rRNA was used for PCR amplification and sequencing identification. Biochemical identification and serotype identification of the bacteria were carried out to make a comprehensive diagnosis of the etiology. The obtained positive bacteria was used as agglutinating antigen after inactivation, and the standard positive serum of Salmonella was used as positive control. The microagglutination assay was established by optimizing the reaction conditions, and then the specificity, sensitivity and repeatability of the method were verified. Meanwhile, a total of 151 serum samples from three different locations in north and northwest of China were detected with microagglutination. And 30 of these samples were randomly selected to be detected with both microagglutination and test tube agglutination, and the sensitivities of these two methods were compared and analyzed.【Result】A large number of purple target colonies could be obtained from the coloration culture medium of Salmonella. The results of gram staining showed that the isolated strains were gram-negative short bacillus, and 16S rRNA sequencing confirmed that the isolated strains were Salmonella. The biochemical identification results showed that all the 17 isolated strains were in line with the biochemical characteristics of Salmonella abortus equine, but could not ferment rhamnosus compared with C77-1, a strong strain of Salmonella abortus equi identified in China in the last century. Serotype identification confirmed that all isolated strains were Salmonella abortus equi, and the 17 isolated strains were named as ES-1-17 respectively. Therefore, it was confirmed that the abortion of horses was caused by Salmonella abortus equi infection. The agglutination antigen of Salmonella abortus equi was prepared by inactivating E.S-1 strain with formaldehyde, and a rapid and sensitive method of microagglutination was established for the detection of agglutination, in which the optimal concentration of agglutination antigen was 400 million mL^-1. The sensitivity was 1 titer higher than that of test tube agglutination, and the specificity was good without any cross reaction with sera against other equine infectious pathogens, and it had good repeatability. Equine sera collected from three epidemic areas in North China were detected with microagglutination for antibodies against Salmonella abortus equi, and the positive rates were 28.6%, 42.9% and 27.3%, respectively, while the positive rate was 0% in three non-epidemic areas in Northwest China. In addition, 30 samples of the above clinical serum were detected by these two methods, 10 of 33 were positive for microagglutination and 3 of 33 were positive for test tube agglutination with positive rates of 33% and 10%, respectively. The sensitivity and specificity of microagglutination were 100% and 74.1%, respectively, and the total coincidence rate was 76.7%.【Conclusion】Seventeen strains of Salmonella equi abortion were isolated and identified in this study. A microagglutinating antibody detection method for Salmonella abortus equi was established. This method was of high sensitivity, specificity and good repeatability, simple, rapid, high throughput, could be widely used in the horse abortion antibody detection of Salmonella in the animal, and was one of the important basis for evaluation of the disease diagnosis and vaccine.

Key words: Salmonella abortus equi, separation, microagglutination, application, horse

GUO Kui,WANG Ning,WANG JinHui,CHU XiaoYu,ZHAO YuTing,GUO Wei,LIU DiQiu,HU Zhe,WANG XiaoJun. Establishment and Preliminary Application of Microagglutination Detection Method for Salmonella Abortus Equi[J].Scientia Agricultura Sinica, 2020, 53(10): 2112-2121.

0
/ / Recommend

Add to citation manager EndNote|Reference Manager|ProCite|BibTeX|RefWorks

URL: https://www.chinaagrisci.com/EN/10.3864/j.issn.0578-1752.2020.10.017

https://www.chinaagrisci.com/EN/Y2020/V53/I10/2112

Figures/Tables 10

Fig. 1

Fig. 2

Fig. 3

Fig. 4

Table 1

Table 2

Table 3

Table 4

Table 5

Table 6

References 30

[1]	李阳, 杨康, 张宝江, 苏艳 . 马流产沙门氏菌新疆分离株FliC基因的克隆及分子特征分析. 中国畜牧兽医, 2014,41(11):20-24.
	LI Y, YANG K, ZHANG B J, SU Y . Cloning and molecular character analysis of FliC gene of Salmonella abortus equi isolated from Xinjiang. China Animal Husbandry & Veterinary Medicine, 2014,41(11):20-24. (in Chinese)
[2]	UZZAU S, BROWN D J, WALLIS T, RUBINO S, LEORI G, BERNARD S, CASADESUS J, PLATT D J, OLSEN J E . Host adapted serotypes of Salmonella enterica. Epidemiology and Infection, 2000,125(2):229-255.
[3]	GRANDOLFO E, PARISI A, RICCI A, LORUSSO E . High mortality in foals associated with Salmonella enterica subsp. enterica Abortusequi infection in Italy. Journal of Veterinary Diagnostic Investigation Official Publication of the American Association of Veterinary Laboratory Diagnosticians Inc, 2018,30(3):104063871775396.
[4]	孙殿和 . 对爆发性马副伤寒流产的防治报告. 青海畜牧兽医杂志, 1984(3). 32-35.
	SUN D H . Prevention and treatment of paratyphoid fever induced abortion in horses. Chinese Qinghai Journal of Animal and Veterinary Sciences, 1984(3). 32-35.(in Chinese)
[5]	童昆周, 白文彬, 田枫岚, 代克珍, 张自刚, 陈毓璋, 周长钧, 刘风岗 . 马流产沙门氏杆菌C系弱毒菌苗的研究. 中国农业科学, 1980,13(1):80-89.
	TONG K Z, BAI W B, TIAN F L, DAI K Z, ZHANG Z G, CHEN Y Z, ZHOU C J, LIU F G . Study on the C strain of Salmonella Abortus Equi. Scientia Agricultura Sinica, 1980,13(1):80-89. (in Chinese)
[6]	王欣 . 马沙门氏菌病的流行与诊治方法. 现代畜牧科技, 2017(4):129.
	WANG X . Prevalence, diagnosis and treatment of Salmonella Abortus Equi. Modern Animal Husbandry Science & Technology, 2017(4):129. (in Chinese)
[7]	NIWA H, HOBO S, KINOSHITA Y, MURANAKA M, OCHI A, UENO T, OKU K, HARIU K, KATAYAMA Y . Aneurysm of the anterior mesenteric artery as a site of carriage of Salmonella enterica subsp. enterica serovar Abortusequi in the horse. Journal of Veterinary Diagnostic Investigation, 2016,28(4):440-444.
[8]	ALAM J, SINGH B R, HANSDA D, SINGH V P, VERMA J C . Evaluation of aroA deletion mutant of Salmonella enterica subspecies enterica serovar Abortusequi for its vaccine candidate potential. Indian Journal of Experimental Biology, 2009,47(11):871-879.
[9]	STRITOF Z, HABUS J, GRIZELJ J, KOSKOVIC , BARBIC L J, TEVANOVIC V S, HORVATEK TOMIC D, MILAS Z, PERHARIC M, STARESINA V, TURK N . Two outbreaks of Salmonella Abortus equi abortion in mares in Croatia. Journal of Equine Veterinary Science, 2016,39:S63.
[10]	GENNARO E E D, GUIDA N, FRANCO P G, MORAS E V, MUÑOZ A J . Infectious abortion caused by Salmonella enterica subsp enterica serovar Abortusequi in Argentina. Journal of Equine Veterinary Science, 2012,32(10):S74-S74.
[11]	NIWA H, HOBO S, KINOSHITA Y, KINOSHITA Y, MURANAKA M, OCHI A, UENO T, OKU K, HARIU K, KATAYAMA Y . Aneurysm of the anterior mesenteric artery as a site of carriage of Salmonella enterica subsp. enterica serovar Abortusequi in the horse. Journal of Veterinary Diagnostic Investigation Official Publication of the American Association of Veterinary Laboratory Diagnosticians Inc, 2016,28(4):440.
[12]	王积禄, 孙来魁, 巩元庆, 陈关林 . 互助县马沙门氏杆菌病调查. 青海畜牧兽医杂志, 1987(5):43.
	WANG J L, SUN L K, GONG Y Q, CHEN G L . Investigation of salmonella in Huzhu county. Chinese Qinghai Journal of Animal and Veterinary Sciences, 1987(5):43. (in Chinese)
[13]	郑慎修 . 马流产沙门氏菌病诊断报告. 中国兽医科技, 1986(11):31-32.
	ZHENG S X . Diagnostic report ofSalmonellosis abortus equine. Chinese Veterinary Technology, 1986(11):31-32.(in Chinese)
[14]	CORTEZ A L, CARVALHO A C, IKUN O A A, BURGER K P, VIDAL-MARTINS A M C . Identification of Salmonella, spp. isolates from chicken abattoirs by multiplex-PCR. Research in Veterinary Science, 2006,81(3):340-344.
[15]	HIROSE K, ITOH K I, NAKAJIMA H, KURAZONO T, YAMAGUCHI M, MORIYA K, EZAKI T, KAWAMURA Y, TAMURA K, WATANABE H . Selective amplification of tyv (rfbE), prt (rfbS), viaB, and fliC genes by Multiplex PCR for identification of Salmonella enterica Serovars Typhi and Paratyphi A. Journal of Clinical Microbiology, 2002,40(2):633.
[16]	SOUMET C, ERMEL G, ROSE N, ROSE N, DROUIN P, SALVAT G, COLIN P . Identification by a multiplex PCR-based assay of Salmonella typhimurium and Salmonella enteritidis strains from environmental swabs of poultry houses. Letters in Applied Microbiology, 2010, 29(1):1-6.
[17]	TRAFNY E A, KOZŁOWSKA K, SZPAKOWSKA M . A novel multiplex PCR assay for the detection of Salmonella enterica serovar Enteritidis in human faeces. Letters in Applied Microbiology, 2010,43(6):673-679.
[18]	Persson S, Jacobsen T, Olsen J E, Olsen K E P, Hansen F . A new real‐time PCR method for the identification of, Salmonella Dublin. Journal of Applied Microbiology, 2012,113(3):615-621.
[19]	MORI Y, KITAO M, TOMITA N, NOTOMI T . Real-time turbidimetry of LAMP reaction for quantifying template DNA. Jorunal of Biochemical Biophysical Methods, 2004,59(2):145-157.
[20]	温和心, 龙英全, 蒋荣华, 盘宝进, 罗广生, 陈立军 . 实验猴沙门菌可视环介导等温扩增检测方法的建立及应用. 动物医学进展, 2018,39(08):40-44.
	WEN H X, LONG Y Q, JIANG R H, PAN B J, LUO G S, CHEN L J . Establishment and application of visible loop-mediated isothermal amplification method for detecting Salmonella in experimental monkeys. Progress in Veterinary Medicine, 2018,39(08) : 40-44. (in Chinese)
[21]	王晶钰, 张国祥, 王英珍, 阎守昌, 夏建新 . 微量凝集试验检测鸡大肠杆菌抗体方法的建立及应用. 中国预防兽医学报, 1996(6):34-37.
	WANG J Y, ZHANG G X, WANG Y Z, YAN S C, XIA J X . Establishment and preliminary application of microagglutination detection method for chicken Escherichia coli. Chinese Journal of Preventive Veterinary Medicine, 1996(6):34-37. (in Chinese)
[22]	徐为中, 薛家宾, 王启明, 诸玉梅 . 应用微量凝集法检测家兔大肠杆菌抗体水平的试验. 江苏农业科学, 2002(1):54-55.
	XU W Z, XUE J B, WANG Q M, ZHU Y M . Establishment and preliminary application of microagglutination detection method forEscherichia coli in rabbits. Jiangsu Agricultural Sciences, 2002(1):54-55. (in Chinese)
[23]	彭国瑞, 魏财文, 张媛, 王秀丽, 李建, 辛凌翔, 张一帜, 彭小兵, 李俊平 . 沙门氏菌马流产凝集试验抗原参考品的研制. 中国动物检疫, 2018,35(7):101-103.
	PENG G R, WEI C W, ZHNAG Y, WANG X L, LI J, XIN L X, ZHNAG Y Z, PENG X B, LI J P . Preparation of reference antigen materials for Salmonella Abortus-equi agglutination test. China Animal Health Inspection, 2018,35(7):101-103. (in Chinese)
[24]	BARRANDEGUY M E, CAROSSINO M . Infectious diseases in donkeys and mules: An overview and update. Journal of Equine Veterinary Science, 2018,65:98-105.
[25]	WANG H, LIU K J, SUN Y H, CUI L Y, MENG X, JIANG G M, ZHAO F W, LI J J . Abortion in donkeys associated with Salmonella abortus equi infection. Equine Veterinary Journal, 2019. doi: 10.1111/evj.13100.
[26]	王世民, 王彩蝶, 张艳楠, 苏艳 . 马流产沙门菌fimY基因同源性分析及蛋白表达. 动物医学进展, 2015. 36(6):39-42.
	WANG S M, WANG C D, ZHANG Y N, SU Y . Homology analysis and expression of gene fimY of Salmonella Abortus equine. Progress in Veterinary Medicine, 2015,36(6):39-42. (in Chinese)
[27]	李玉学 . 群牧母马发生流产的原因及防制措施. 畜牧兽医科技信息, 2014(4):32-34.
	LI Y X . Reasons and preventive measures of abortion in herd mare. Chinese Journal of Animal Husbandry and Veterinary Medicine, 2014(4):32-34. (in Chinese)
[28]	GARVEY M, SUAREZ N M, KERR K, HECTOR R, MOLONEY- QUINN L, ARKINS S, DAVISON A J, CULLINANE A . Equid herpesvirus 8: Complete genome sequence and association with abortion in mares. PloS One, 2018,13:1-17.
[29]	赵凤菊, 李璐, 闫明媚, 于学武, 陈瑶, 李井春 . 牛、羊布鲁氏菌病试管凝集试验与微量凝集试验检测方法的比较. 现代畜牧兽医, 2015(2):8-10.
	ZHAO F J, LI L, YAN M M, YU X W, CHEN Y, LI J C . Comparison of serum tube agglutination test and micro agglutination test on brucellosis detection in cattle, goat and sheep. Modern Journal of Animal Husbandry and Veterinary Medicine, 2015(2):8-10. (in Chinese)
[30]	杨康, 苏艳, 李阳, 张宝江 . ELISA和微量凝集法检测马流产沙门菌血清抗体的比较. 畜牧与兽医, 2015,47(6):130-132.
	YANG K, SU Y, LI Y, ZHANG B J . Comparison of ELISA and micro agglutination assay for determination of Salmonella antibody. Animal Husbandry & Veterinary Medicine, 2015,47(6):130-132. (in Chinese)

Related Articles 15

[1]	LI YiLing,PENG XiHong,CHEN Ping,DU Qing,REN JunBo,YANG XueLi,LEI Lu,YONG TaiWen,YANG WenYu. Effects of Reducing Nitrogen Application on Leaf Stay-Green, Photosynthetic Characteristics and System Yield in Maize-Soybean Relay Strip Intercropping [J]. Scientia Agricultura Sinica, 2022, 55(9): 1749-1762.
[2]	JIANG Hui,FENG Yu,QIN YuMing,ZHU LiangQuan,FAN XueZheng,DING JiaBo. Method Improvement and Its Application of Micro Complement Fixation Test for Brucellosis [J]. Scientia Agricultura Sinica, 2022, 55(8): 1676-1684.
[3]	LIU Miao,LIU PengZhao,SHI ZuJiao,WANG XiaoLi,WANG Rui,LI Jun. Critical Nitrogen Dilution Curve and Nitrogen Nutrition Diagnosis of Summer Maize Under Different Nitrogen and Phosphorus Application Rates [J]. Scientia Agricultura Sinica, 2022, 55(5): 932-947.
[4]	LI YaFei, SHI JiangLan, WU TianQi, WANG ShaoXia, LI YuNuo, QU ChunYan, LIU CongHui, NING Peng, TIAN XiaoHong. Effects of Combined Foliar Application of Zinc with Imidacloprid on Zinc Enrichment and Protein Components Content in Wheat Grain [J]. Scientia Agricultura Sinica, 2022, 55(3): 514-528.
[5]	DU WenTing,LEI XiaoXiao,LU HuiYu,WANG YunFeng,XU JiaXing,LUO CaiXia,ZHANG ShuLan. Effects of Reducing Nitrogen Application Rate on the Yields of Three Major Cereals in China [J]. Scientia Agricultura Sinica, 2022, 55(24): 4863-4878.
[6]	REN ZiQi,KANG YuJie,LI HaiZhen,WANG LianGang,MA HaoYun,LI Hui,WANG LiuYang,MEI XiangDong,NING Jun. Synthesis and Bioactivity of Sex Pheromone Analogues of Trachea atriplicis [J]. Scientia Agricultura Sinica, 2022, 55(23): 4640-4650.
[7]	XU Ke,FAN ZhiLong,YIN Wen,ZHAO Cai,YU AiZhong,HU FaLong,CHAI Qiang. Coupling Effects of N-fertilizer Postponing Application and Intercropping on Maize Photosynthetic Physiological Characteristics [J]. Scientia Agricultura Sinica, 2022, 55(21): 4131-4143.
[8]	MI GuoHua,HUO YueWen,ZENG AiJun,LI GangHua,WANG Xiu,ZHANG FuSuo. Integration of Agricultural Machinery and Agronomic Techniques for Crop Nutrient Management in China [J]. Scientia Agricultura Sinica, 2022, 55(21): 4211-4224.
[9]	HOU HuiZhi,ZHANG XuCheng,YIN JiaDe,FANG YanJie,WANG HongLi,YU XianFeng,MA YiFan,ZHANG GuoPing,LEI KangNing. Effects of Deep and Layered Application of Reduced Chemical Nitrogen Fertilizer on Water, Nutrient Utilization and Yield of Spring Wheat in Rain-Fed Arid Area [J]. Scientia Agricultura Sinica, 2022, 55(17): 3289-3302.
[10]	MA Yue,TIAN Yi,MU WenYan,ZHANG XueMei,ZHANG LuLu,YU Jie,LI YongHua,WANG HaoLin,HE Gang,SHI Mei,WANG ZhaoHui,QIU WeiHong. Response of Wheat Yield and Grain Nitrogen, Phosphorus and Potassium Concentrations to Test-Integrated Potassium Application and Soil Available Potassium in Northern Wheat Production Regions of China [J]. Scientia Agricultura Sinica, 2022, 55(16): 3155-3169.
[11]	GAO RenCai,CHEN SongHe,MA HongLiang,MO Piao,LIU WeiWei,XIAO Yun,ZHANG Xue,FAN GaoQiong. Straw Mulching from Autumn Fallow and Reducing Nitrogen Application Improved Grain Yield, Water and Nitrogen Use Efficiencies of Winter Wheat by Optimizing Root Distribution [J]. Scientia Agricultura Sinica, 2022, 55(14): 2709-2725.
[12]	WU TianQi,LI YaFei,SHI JiangLan,NING Peng,TIAN XiaoHong. Effects of Basal Nitrogen and Foliar Zinc Application at the Early Filling Stage on Zinc Enrichment and Protein Components Content in Wheat Grain [J]. Scientia Agricultura Sinica, 2022, 55(10): 1971-1986.
[13]	GONG Liang,JIN DanDan,NIU ShiWei,WANG Na,XU JiaYi,SUI ShiJiang. Analysis of Chemical Fertilizer Application Reduction Potential for Paddy Rice in Liaoning Province [J]. Scientia Agricultura Sinica, 2021, 54(9): 1926-1936.
[14]	LÜ TengFei,SHEN Jie,MA Peng,DAI Zou,YANG ZhiYuan,XU Hui,ZHENG ChuanGang,MA Jun. Effects of Combined Application of Slow Release Nitrogen Fertilizer and Urea on the Nitrogen Utilization Characteristics in Machine- Transplanted Hybrid Rice [J]. Scientia Agricultura Sinica, 2021, 54(7): 1410-1423.
[15]	XIANG XiaoLing,CHEN SongHe,YANG HongKun,YANG YongHeng,FAN GaoQiong. Effects of Straw Mulching and Phosphorus Application on Wheat Yield, Phosphorus Absorption and Utilization in Hilly Dryland [J]. Scientia Agricultura Sinica, 2021, 54(24): 5194-5205.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 0

No Suggested Reading articles found!

生化项目 Biochemical item	E.S-1-17/ C77-1	生化项目 Biochemical item	E.S-1-17/ C77-1
葡萄糖 Glucose	+/+	甘露醇 Mannitol	+/+
乳糖 Lactose	-/-	肌醇 Inositol	-/-
蔗糖 Sucrose	-/-	硫化氢 H₂S	-/-
麦芽糖 Maltose	+/+	靛基质 Indol	-/-
鼠李糖 Rhamnose	-/+	尿素 Carbamide	-/-
蜜二糖 Melibiose	-/-	MR试验 MR test	+/+
卫矛醇 Dulcose	+/+	VP试验 VP test	-/-
山梨醇 Sorbierite	+/+	动力试验 Dynamic test	+/+

抗原浓度（亿/mL） Antigen concentration (100 million·mL^-1)	血清稀释度Serum dilution
抗原浓度（亿/mL） Antigen concentration (100 million·mL^-1)	200	400	800	1600	3200	6400	12800	25600	空白Blank
12	＃	＃	＃	＃	-	-	-	-	-
10	＃	＃	＃	＃	++	-	-	-	-
6	＃	＃	＃	＃	+++	++	+	-	-
4	＃	＃	＃	＃	＃	+++	++	-	-
2	＃	＃	＃	＃	+++	+++	+	-	-

阳性血清 Positive serum	效价 Titer	结果 Result
S.abortus equi	12800	+
EIAV	0	-
EIV(H7N7)	0	-
EIV(H3N8)	0	-
EAV	0	-
EHV(I)	0	-
EHV (II)	0	-
EHV (III)	0	-
EHV (IV)	0	-
EHV (VII)	0	-
S.equi	0	-
S.typhi	400	-

地区Area	样本数量Number of sample	阳性份数（份）Positive number	阳性率Positive rate
华北地区A North A	91	26	28.6%
华北地区B North B	7	3	42.9%
华北地区C North C	22	6	27.3%
西北地区A Northwest A	7	0	0%
西北地区B Northwest B	12	0	0%
西北地区C Northwest C	12	0	0%
合计 Total	151	25	16.6%

方法 Method	试管凝集 Tube agglutination	微量凝集 Microagglutination
样本数量 Number of sample	30	30
加样时间 Operating time (min)	>240	20
血清量（单个样本） Serum volume (μL)	200	4
抗原量 Antigen volume (mL)	180	18
阳性份数 Positive number	3	10
阳性率 Positive rate (%)	10	33

Establishment and Preliminary Application of Microagglutination Detection Method for Salmonella Abortus Equi

RichHTML

PDF