羊副结核分枝杆菌间接ELISA抗体检测方法的建立与初步应用

doi:10.3864/j.issn.0578-1752.2026.03.013

中国农业科学 ›› 2026, Vol. 59 ›› Issue (3): 655-667.doi: 10.3864/j.issn.0578-1752.2026.03.013

羊副结核分枝杆菌间接ELISA抗体检测方法的建立与初步应用

高云洁¹^,²(), 郭若男¹^,³, 陈春文¹^,², 段祎凡¹, 张镇均¹^,³, 聂蝉蝉¹^,², 李梦雨¹^,², 王慧¹, 冯婷婷¹, 崔莹莹¹, 党光辉¹(), 刘思国¹()

¹ 中国农业科学院哈尔滨兽医研究所/动物疫病防控全国重点实验室，哈尔滨 150069
² 东北农业大学动物医学学院，哈尔滨 150030
³ 新疆农业大学动物医学学院，乌鲁木齐 830052

收稿日期:2025-06-11 接受日期:2025-11-30 出版日期:2026-02-01 发布日期:2026-01-31
通信作者:
党光辉，E-mail：dangguanghui@caas.cn。
刘思国，E-mail：liusiguo@caas.cn
联系方式: 高云洁，E-mail：gaoyunjie2145@163.com。
基金资助:
“十四五”国家重点研发计划(2023YFD1801302); 国家自然科学基金(32273005); 中央级公益性科研院所基本科研业务费专项(1610302024002)

Establishment and Preliminary Application of Indirect ELISA Antibody Detection Method for Mycobacterium avium subsp. paratuberculosis in Sheep

GAO YunJie¹^,²(), GUO RuoNan¹^,³, CHEN ChunWen¹^,², DUAN YiFan¹, ZHANG ZhenJun¹^,³, NIE ChanChan¹^,², LI MengYu¹^,², WANG Hui¹, FENG TingTing¹, CUI YingYing¹, DANG GuangHui¹(), LIU SiGuo¹()

¹ State Key Laboratory of Animal Control and Prevention/Harbin Veterinary Reserch Institute, Chinese Academy of Agricultural Sciences, Harbin 150069
² College of Animal Medical, Northeast Agricultural University, Harbin 150030
³ College of Animal Medical, Xinjiang Agricultural University, Urumqi 830052

Received:2025-06-11 Accepted:2025-11-30 Published:2026-02-01 Online:2026-01-31

摘要/Abstract

摘要：

【目的】建立一种基于间接ELISA法的检测技术，用于检测羊副结核分枝杆菌（Mycobacterium avium subsp. paratuberculosis, MAP）特异性抗体，以期为羊副结核病（Johne’s disease, JD）的流行病学监测与防控提供一种高效、可靠的血清学方法。【方法】选用前期分离菌株（MAP-XJB13）的培养上清作为MAP包被抗原，通过对包被液和包被条件、封闭液和封闭条件、抗原包被浓度、血清稀释比例、抗体孵育和显色时间、显色液品牌、样品稀释液和酶标二抗保护液的筛选和优化，确定间接ELISA最佳反应条件和临界值。通过敏感性、特异性、重复性、保存期和符合率评价已建立的羊MAP间接ELISA抗体检测方法的效果。最后，使用初步组装的试剂盒应用于黑龙江和内蒙古羊的临床样品检测。【结果】确定ELISA最佳反应条件为：包被液为CBS缓冲液，包被条件为37 ℃ 4 h，封闭液为5%鱼明胶+5%海藻糖+12%PEG4000，封闭条件为37 ℃ 2 h，抗原包被浓度为80 µg·mL^-1，血清稀释度为1﹕40，酶标二抗血清稀释度为1﹕30 000，孵育条件为25 ℃条件下、一抗孵育30 min、酶标二抗孵育30 min、显色15 min，显色液为博奥龙，样品稀释液为1%卵清蛋白+0.5%海藻糖，酶标二抗保护液为0.1%卵清蛋白；建立的羊MAP间接ELISA抗体检测方法临界值为0.460，敏感性为95.89%，特异性为96.12%；交叉反应结果显示，在阴阳性结果成立的前提下，与羊布鲁氏菌阳性血清、绵羊丝状支原体阳性血清、山羊伪结核棒状杆菌阳性血清、羊结核阳性血清、山羊小反刍兽疫阳性血清、绵羊小反刍兽疫阳性血清和羊痘病毒阳性血清无交叉反应性；批内和批间变异系数分别在0.754%—7.812%和1.252%—7.277%之间，可稳定保存8个月；羊MAP间接ELISA抗体检测试剂盒与ID.vet副结核菌ELISA抗体检测试剂盒阳性符合率为95.89%，阴性符合率为95.55%，总符合率为95.56%。黑龙江和内蒙古两地的羊MAP的抗体阳性率为10.81%。【结论】成功开发了一种针对羊MAP的间接ELISA抗体检测方法。该方法表现出优良的特异性、较高的敏感性以及较长的保存期限，为JD的防控提供了有力的技术支持。

关键词: 副结核分枝杆菌, 羊副结核, 间接ELISA, 抗体检测, MAP-XJB13菌株

Abstract:

【Objective】This study aimed to develop an indirect ELISA detection method for antibodies against Mycobacterium avium subsp. paratuberculosis (MAP) in sheep, for providing an efficient and reliable technique for the epidemiological surveillance and serological testing of Johne's disease (JD) in sheep. 【Method】In this study, the culture supernatant of the strain (MAP-XJB13) was isolated in the laboratory during earlier stage, which was selected as the MAP-coated antigen. The optimal reaction conditions and critical values for indirect ELISA were determined through the systematic screening and optimization of various parameters, including the coating solution and conditions, blocking solution and conditions, antigen coating concentration, serum dilution ratio, antibody incubation and color development time, brand of color development solution, sample dilution solution and enzyme-labeled secondary antibody protective solution. The efficacy of the developed indirect ELISA antibody detection method for sheep MAP was assessed in terms of sensitivity, specificity, repeatability, preservation period, and coincidence rate. Finally, the initially assembled reagent kits were utilized for the clinical detection of samples from in Heilongjiang and Inner Mongolia. 【Result】The optimal conditions for the ELISA were determined as follows: the coating solution utilized as CBS buffer, with the coating condition process conducted at 37 ℃ for 4 hours. The blocking solution comprised 5% fish gelatin, 5% trehalose, and 12% PEG4000, with the blocking procedure also performed at 37 ℃ for 2 hours. The antigen coating concentration was set at 80 µg·mL^-1, the serum dilution ratio was 1:40, and the dilution ratio for the enzyme-labeled secondary antibody was 1:30 000. The incubation parameters included primary antibody incubation at 25 ℃ for 30 minutes, followed by a 30-minute incubation of the enzyme-labeled secondary antibody, and a 15-minute color development phase. The color development solution employed was Biodragon, while the sample dilution solution consisted of 1% ovalbumin and 0.5% trehalose. Additionally, the protective solution for the enzyme-labeled secondary antibody contained 0.1% ovalbumin. The critical threshold for the developed indirect ELISA method for detecting antibodies against sheep MAP was determined to be 0.460, with a sensitivity of 95.89% and a specificity of 96.12%. The cross-reactivity analysis demonstrated that, based on the premise that the positive and negative results were valid, there was no cross-reactivity with the following: positive serum for Brucella in sheep, positive serum for Mycoplasma mycoides in sheep, positive serum for Corynebacterium pseudomycosis in goats, positive serum for tuberculosis in sheep, positive serum for peste des petits ruminants virus in goats, positive serum for peste des petits ruminants in sheep, and positive serum for poxvirus in sheep. The intra-batch and inter-batch coefficients of variation ranged from 0.754% to 7.812% and 1.252% to 7.277%, respectively, and the stability of the results was maintained for up to 8 months. The sheep MAP indirect ELISA antibody detection kit exhibited a positive concordance rate of 95.89% and a negative concordance rate of 95.55% when compared to the ID.vet MAP ELISA antibody detection kit, resulting in an overall concordance rate of 98.56%. The prevalence of MAP antibodies in sheep from Heilongjiang and Inner Mongolia was found to be 10.81%. 【Conclusion】This study successfully developed an indirect ELISA method for the detection of antibodies MAP in sheep. The method exhibited exceptional specificity, high sensitivity and a long shelf life, thereby offering robust technical support for the prevention and management of JD.

Key words: Mycobacterium avium subsp. paratuberculosis, sheep paratuberculosis, indirect ELISA, antibody detection, MAP- XJB13 stain

高云洁, 郭若男, 陈春文, 段祎凡, 张镇均, 聂蝉蝉, 李梦雨, 王慧, 冯婷婷, 崔莹莹, 党光辉, 刘思国. 羊副结核分枝杆菌间接ELISA抗体检测方法的建立与初步应用[J]. 中国农业科学, 2026, 59(3): 655-667.

GAO YunJie, GUO RuoNan, CHEN ChunWen, DUAN YiFan, ZHANG ZhenJun, NIE ChanChan, LI MengYu, WANG Hui, FENG TingTing, CUI YingYing, DANG GuangHui, LIU SiGuo. Establishment and Preliminary Application of Indirect ELISA Antibody Detection Method for Mycobacterium avium subsp. paratuberculosis in Sheep[J]. Scientia Agricultura Sinica, 2026, 59(3): 655-667.

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链接本文: https://www.chinaagrisci.com/CN/10.3864/j.issn.0578-1752.2026.03.013

https://www.chinaagrisci.com/CN/Y2026/V59/I3/655

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试验有效性确定"

	阳性血清 Positive serum	阴性血清 Negative serum
标准差 SD	0.010	0.100
平均值 $x ¯$	0.072	1.662
$x ¯$ -3SD	1.362	0.042
$x ¯$ +3SD	1.962	0.102

表2

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参考文献 33

[1]	ALONSO-HEARN M, BALLESTEROS A, NAVARRO A, BADIA-BRINGUÉ G, CASAIS R. Lateral-flow assays for bovine paratuberculosis diagnosis. Frontiers in Veterinary Science, 2023, 10: 1257488. doi: 10.3389/fvets.2023.1257488
[2]	CUNHA M V, ROSALINO L M, LEÃO C, BANDEIRA V, FONSECA C, BOTELHO A, REIS A C. Ecological drivers of Mycobacterium avium subsp. paratuberculosis detection in mongoose (Herpestes ichneumon) using IS900 as proxy. Scientific Reports, 2020, 10(1): 860. doi: 10.1038/s41598-020-57679-3
[3]	赵太革. 羊临床副结核的发病机制、诊断和控制措施. 中国动物保健, 2024, 26(1): 118-119.
	ZHAO T G. The pathogenesis, diagnosis and control measures of clinical subclinical tuberculosis in sheep. China Animal Health, 2024, 26(1): 118-119. (in Chinese)
[4]	THARWAT M, ALI H, ALKHERAIF A A. Paratuberculosis in sheep and goats: Pathogenesis, diagnostic findings, and control strategies. Open Veterinary Journal, 2025, 15(1): 1-7. doi: 10.5455/OVJ.2024.v15.i1.1 pmid: 40092194
[5]	WHITTINGTON R, DONAT K, WEBER M F, KELTON D, NIELSEN S S, EISENBERG S, ARRIGONI N, JUSTE R, SáEZ J L, DHAND N, et al. Control of paratuberculosis: who, why and how. A review of 48 countries. BMC Veterinary Research, 2019, 15(1): 198. doi: 10.1186/s12917-019-1943-4 pmid: 31196162
[6]	MCALOON C G, ROCHE S, RITTER C, BARKEMA H W, WHYTE P, MORE S J, O’GRADY L, GREEN M J, DOHERTY M L. A review of paratuberculosis in dairy herds: Part 1: Epidemiology. The Veterinary Journal, 2019, 246: 59-65. doi: 10.1016/j.tvjl.2019.01.010
[7]	DOW C T, ALVAREZ B L. Mycobacterium paratuberculosis zoonosis is a One Health emergency. EcoHealth, 2022, 19(2): 164-174. doi: 10.1007/s10393-022-01602-x
[8]	MELES D K, MUSTOFA I, KHAIRULLAH A R, WURLINA W, MUSTOFA R I, SUWASANTI N, AKINTUNDE A O, PUTRA S W, KUSALA M K J, MOSES I B, et al. A comprehensive review of paratuberculosis in animals and its implications for public health. Open Veterinary Journal, 2024, 14(11): 2731-2744. doi: 10.5455/OVJ.2024.v14.i11.2 pmid: 39737030
[9]	OKUNI J B, HANSEN S, ELTOM K H, ELTAYEB E, AMANZADA A, OMEGA J A, CZERNY C P, ABD EL WAHED A, OJOK L. Paratuberculosis: A potential zoonosis and a neglected disease in Africa. Microorganisms, 2020, 8(7): 1007. doi: 10.3390/microorganisms8071007
[10]	COLLINS M T. Food safety concerns regarding paratuberculosis. The Veterinary Clinics of North America Food Animal Practice, 2011, 27(3): 631-636, vii-viii. doi: 10.1016/j.cvfa.2011.07.009
[11]	BHARATH M N, GUPTA S, VASHISTHA G, AHMAD S, SINGH S V. Bioprospective Role of Ocimum sanctum and Solanum xanthocarpum against Emerging Pathogen: Mycobacterium avium Subspecies paratuberculosis: A review. Molecules, 2023, 28(8): 3490. doi: 10.3390/molecules28083490
[12]	DE NORONHA XAVIER A, DE SÁ L M N, DE NAZARÉ SANTOS FERREIRA M, DE OLIVEIRA P R F, DE MORAES PEIXOTO R, MOTA R A, JUNIOR J W P. First serological diagnosis of Mycobacterium avium subsp. paratuberculosis infection in sheep in the state of Pernambuco, Brazil. Veterinary Research Communications, 2024, 48(2): 1293-1299. doi: 10.1007/s11259-024-10300-8
[13]	DANE H, STEWART L D, GRANT I R. Culture of Mycobacterium avium subsp. paratuberculosis: challenges, limitations and future prospects. Journal of Applied Microbiology, 2023, 134(1): lxac017.
[14]	LUTTIKHOLT S, LIEVAART-PETERSON K, GONGGRIJP M, AALBERTS M, VAN SCHAIK G, VELLEMA P. Mycobacterium avium subsp. paratuberculosis elisa responses in milk samples from vaccinated and nonvaccinated dairy goat herds in the Netherlands. Veterinary Sciences, 2019, 6(2): 58. doi: 10.3390/vetsci6020058
[15]	SHARMA K, SHARMA S, DHANDA S, BANGAR Y, KUMAR N, CHAUBEY K K. Meta-analysis of prevalence of paratuberculosis in cattle using published estimates under serum and milk ELISA. Research in Veterinary Science, 2024, 178: 105366. doi: 10.1016/j.rvsc.2024.105366
[16]	MIKKELSEN H, AAGAARD C, NIELSEN S S, JUNGERSEN G. Review of Mycobacterium avium subsp. paratuberculosis antigen candidates with diagnostic potential. Veterinary Microbiology, 2011, 152(1/2): 1-20. doi: 10.1016/j.vetmic.2011.03.006
[17]	MOYANO R D, ROMERO M A, COLOMBATTI OLIVIERI M A, ALVARADO PINEDO M F, TRAVERIA G E, ROMANO M I, ALONSO M N. Development and validation of a novel ELISA for the specific detection of antibodies against Mycobacterium avium subspecies paratuberculosis based on a chimeric polyprotein. Veterinary Medicine International, 2021, 2021(1): 7336848.
[18]	CHO D, COLLINS M T. Comparison of the proteosomes and antigenicities of secreted and cellular proteins produced by Mycobacterium paratuberculosis. Clinical and Vaccine Immunology, 2006, 13(10): 1155-1161. doi: 10.1128/CVI.00058-06
[19]	刘虹秀, 程玉笛, 党光辉, 李田田, 李鹤, 崔子寅, 宋宁宁, 陈利苹, 刘思国. 牛副结核分枝杆菌的分离及鉴定. 中国预防兽医学报, 2018, 40(12): 1177-1180.
	LIU H X, CHENG Y D, DANG G H, LI T T, LI H, CUI Z Y, SONG N N, CHEN L P, LIU S G. Isolation and identification of Mycobacterium avium subsp. paratuberculosis from cattle. Chinese Journal of Preventive Veterinary Medicine, 2018, 40(12): 1177-1180. (in Chinese)
[20]	JAIN M, KUMAR A, POLAVARAPU R, GUPTA S, ASERI G K, SHARMA D, SOHAL J S. Development of rELISA using novel markers for the diagnosis of paratuberculosis. Journal of Immunological Methods, 2021, 497: 113105. doi: 10.1016/j.jim.2021.113105
[21]	张从钺, 周红, 蔺辉星, 范红结. 猪增生性肠病间接ELISA抗体检测试剂盒的研制与应用. 中国农业科学, 2024, 57(16): 3283-3293. doi: 10.3864/j.issn.0578-1752.2024.16.014.
	ZHANG C Y, ZHOU H, LIN H X, FAN H J. Development and application of indirect ELISA kits for antibody detection of porcine proliferative enteropathy. Scientia Agricultura Sinica, 2024, 57(16): 3283-3293. doi: 10.3864/j.issn.0578-1752.2024.16.014. (in Chinese)
[22]	WINDSOR P A. Paratuberculosis in sheep and goats. Veterinary Microbiology, 2015, 181(1/2): 161-169. doi: 10.1016/j.vetmic.2015.07.019
[23]	陈凡若, 张嘉俊, 鹿萍, 崔宁, 崔莹莹, 崔子寅, 党光辉, 刘思国. 副结核分枝杆菌免疫原蛋白的筛选及免疫保护效果评价. 中国农业科学, 2024, 57(6): 1204-1214. doi: 10.3864/j.issn.0578-1752.2024.06.014.
	CHEN F R, ZHANG J J, LU P, CUI N, CUI Y Y, CUI Z Y, DANG G H, LIU S G. Screening of Mycobacterium avium subsp. paratuberculosis immunogenic proteins and its evaluation of immunological effect. Scientia Agricultura Sinica, 2024, 57(6): 1204-1214. doi: 10.3864/j.issn.0578-1752.2024.06.014. (in Chinese)
[24]	SCARPELLINI R, GIACOMETTI F, SAVINI F, ARRIGONI N, GARBARINO C A, CARNEVALE G, MONDO E, PIVA S. Bovine paratuberculosis: results of a control plan in 64 dairy farms in a 4-year period. Preventive Veterinary Medicine, 2023, 215: 105923. doi: 10.1016/j.prevetmed.2023.105923
[25]	MUNJAL S K, BOEHMER J, BEYERBACH M, STRUTZBERG- MINDER K, HOMUTH M. Evaluation of a LAM ELISA for diagnosis of paratuberculosis in sheep and goats. Veterinary Microbiology, 2004, 103(1/2): 107-114. doi: 10.1016/j.vetmic.2004.07.019
[26]	HEMATI Z, HAGHKHAH M, DERAKHSHANDEH A, CHAUBEY K K, SINGH S V. Novel recombinant Mce-truncated protein based ELISA for the diagnosis of Mycobacterium avium subsp. paratuberculosis infection in domestic livestock. PLoS ONE, 2020, 15(6): e0233695. doi: 10.1371/journal.pone.0233695
[27]	GURUNG R B, BEGG D J, PURDIE A C, EAMENS G J, WHITTINGTON R J. Development of 316v antibody enzyme-linked immunosorbent assay for detection of paratuberculosis in sheep. Revue Scientifique et Technique (International Office of Epizootics), 2015, 34(3): 869-879.
[28]	WILLEMSEN P T J, WESTERVEEN J, DINKLA A, BAKKER D, VAN ZIJDERVELD F G, THOLE J E R. Secreted antigens of Mycobacterium avium subspecies paratuberculosis as prominent immune targets. Veterinary Microbiology, 2006, 114(3/4): 337-344. doi: 10.1016/j.vetmic.2005.12.005
[29]	ROSSEELS V, MARCHÉ S, ROUPIE V, GOVAERTS M, GODFROID J, WALRAVENS K, HUYGEN K. Members of the 30- to 32-kilodalton mycolyl transferase family (Ag₈₅) from culture filtrate of Mycobacterium avium subsp. paratuberculosis are immunodominant Th1-type antigens recognized early upon infection in mice and cattle. Infection and Immunity, 2006, 74(1): 202-212. doi: 10.1128/IAI.74.1.202-212.2006
[30]	ELSOHABY I, ARANGO-SABOGAL J C, SELIM A, ATTIA K A, ALSUBKI R A, MOHAMED A M, MEGAHED A. Bayesian estimation of sensitivity and specificity of fecal culture, fecal PCR and serum ELISA for diagnosis of Mycobacterium avium subsp. paratuberculosis infections in sheep. Preventive Veterinary Medicine, 2022, 206: 105712. doi: 10.1016/j.prevetmed.2022.105712
[31]	GUMBER S, EAMENS G, WHITTINGTON R J. Evaluation of a Pourquier ELISA kit in relation to agar gel immunodiffusion (AGID) test for assessment of the humoral immune response in sheep and goats with and without Mycobacterium paratuberculosis infection. Veterinary Microbiology, 2006, 115(1/2/3): 91-101. doi: 10.1016/j.vetmic.2006.01.003
[32]	PICKRODT C, KÖHLER H, MOOG U, LIEBLER-TENORIO E M, MÖBIUS P. Molecular diversity of Mycobacterium avium subsp. paratuberculosis in four dairy goat herds from Thuringia (germany). Animals, 2023, 13(22): 3542. doi: 10.3390/ani13223542
[33]	ROBBE-AUSTERMAN S. Control of paratuberculosis in small ruminants. The Veterinary Clinics of North America Food Animal Practice, 2011, 27(3): 609-620, vii. doi: 10.1016/j.cvfa.2011.07.007

阳性血清Positive serum			阴性血清 Negative serum
编号Number	来源Source	数量Quantity	编号Number	来源Source	数量Quantity
1-53	黑龙江Heilongjiang	53	1-77	黑龙江Heilongjiang	77
54-67	内蒙古Inner Mongolia	14	78-126	内蒙古Inner Mongolia	49
68-73	新疆Xinjiang	6	127-129	新疆Xinjiang	3
合计Total		73	合计Total		129

血清 Serum	血清稀释度 Serum dilution
血清 Serum	1:40	1:80	1:160	1:320	1:640	1:1 280	1:2 560	1:5,120
N1	2.659	2.514	2.21	1.95	1.278	0.86	0.472	0.273
N2	2.107	1.697	1.27	1.112	0.45	0.248	0.164	0.117
N3	0.982	0.802	0.426	0.28	0.127	0.085	0.071	0.074
N4	2.091	2.342	1.509	1.152	0.598	0.355	0.229	0.147
N5	2.474	2.392	2.15	1.921	1.438	0.958	0.627	0.396
N6	2.519	2.446	1.647	1.208	0.529	0.286	0.186	0.127
N7	2.542	2.383	1.706	1.225	0.627	0.337	0.215	0.142
N8	1.716	1.272	0.676	0.454	0.239	0.148	0.096	0.094
N9	0.173	0.153	0.119	0.106	0.071	0.066	0.062	0.07
N10	0.419	0.332	0.182	0.137	0.083	0.068	0.065	0.072
N11	0.301	0.204	0.136	0.114	0.07	0.065	0.063	0.066
N12	0.338	0.218	0.152	0.122	0.097	0.068	0.062	0.072
N13	0.711	0.459	0.279	0.198	0.128	0.085	0.073	0.073
阳性对照Positive control	1.550		1.749		1.535		1.447
阴性对照Negative control	0.094		0.101		0.064		0.087

血清 Serum	血清稀释度 Serum dilution
血清 Serum	1:40	1:80	1:160	1:320	1:640	1:1280	1:2560	1:5120
N1	1.650	1.557	1.361	1.194	0.761	0.491	0.241	0.113
N2	1.295	1.031	0.755	0.654	0.227	0.097	0.043	0.013
N3	0.570	0.454	0.212	0.118	0.019	-0.008	-0.017	-0.015
N4	1.284	1.446	0.909	0.679	0.322	0.166	0.085	0.032
N5	1.531	1.478	1.322	1.175	0.864	0.554	0.341	0.192
N6	1.560	1.513	0.998	0.716	0.278	0.121	0.057	0.019
N7	1.575	1.473	1.036	0.726	0.341	0.154	0.076	0.029
N8	1.043	0.757	0.373	0.230	0.091	0.033	-0.001	-0.002
N9	0.049	0.036	0.014	0.005	-0.017	-0.020	-0.023	-0.018
N10	0.207	0.151	0.054	0.025	-0.009	-0.019	-0.021	-0.016
N11	0.131	0.069	0.025	0.011	-0.018	-0.021	-0.022	-0.020
N12	0.185	0.101	0.054	0.033	0.015	-0.005	-0.010	-0.002
N13	0.449	0.271	0.144	0.087	0.037	0.007	-0.002	-0.002

血清Serum	20240601	20240602	20240603
N1	0.305	0.12	0.111
N2	0.683	0.269	0.183
N3	0.120	0.117	0.096
N4	0.364	0.336	0.269
N5	0.390	0.261	0.186
N6	0.183	0.181	0.131
N7	0.47	0.495	0.324
阳性对照 Positive control	1.529	1.592	1.587
阳性对照 Positive control	1.536	1.721	1.593
阴性对照 Negative control	0.097	0.075	0.085
阴性对照 Negative control	0.099	0.074	0.081

血清Serum	20240601	20240602	20240603
N1	0.144	0.029	0.019
N2	0.408	0.123	0.066
N3	0.015	0.027	0.009
N4	0.185	0.165	0.123
N5	0.204	0.118	0.068
N6	0.059	0.067	0.032
N7	0.259	0.266	0.160

羊副结核分枝杆菌间接ELISA抗体检测方法的建立与初步应用

Establishment and Preliminary Application of Indirect ELISA Antibody Detection Method for Mycobacterium avium subsp. paratuberculosis in Sheep

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血清稀释比例 Serum dilution ratio	1个月 1 month	2个月 2 months	4个月 4 months	6个月 6 months	8个月 8 months
1:40	1.311	1.097	1.186	1.190	1.037
1:80	0.968	0.918	0.871	0.888	0.764
1:160	0.606	0.633	0.533	0.633	0.521
1:320	0.291	0.279	0.231	0.293	0.209
阳性对照 Positive control	1.591	1.316	1.282	1.53	1.44
阳性对照 Positive control	1.575	1.659	1.462	1.315	1.414
阳性对照 Positive control	0.063	0.076	0.069	0.077	0.096
阳性对照 Positive control	0.06	0.077	0.081	0.08	0.088

血清稀释比例 Serum dilution ratio	1个月 1 month	2个月 2 months	4个月 4 months	6个月 6 months	8个月 8 months
1:40	1.245	1.154	1.194	1.158	1.114
1:80	0.852	0.823	0.907	0.922	0.743
1:160	0.516	0.639	0.569	0.634	0.486
1:320	0.290	0.314	0.224	0.319	0.247

实验室自制试剂盒 Laboratory made kit	IDV.et试剂盒IDV.et kit
实验室自制试剂盒 Laboratory made kit	阳性Positive	阴性Negative	合计Total
阳性Positive	70	11	81
阴性Negative	3	231	234
合计Total	73	242	315
符合率 Rate of conformity	95.89%	95.55%	95.56%

实验室自制试剂盒 Laboratory made kit	省份Provinces
实验室自制试剂盒 Laboratory made kit	黑龙江 Heilongjiang	内蒙古 Inner Mongolia	合计 Total
阳Positive	82	60	142
阴Negative	597	569	1166
合计Total	679	629	1308
阳性率Positive rate	12.08%	9.54%	10.87%

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