猪圆环病毒2型、3型和4型检测的三重荧光定量PCR建立及Cap基因变异分析

doi:10.11843/j.issn.0366-6964.2025.11.036

摘要/Abstract

摘要：

旨在建立一种快速简便、可同时检测猪圆环病毒(porcine circovirus, PCV)2型、3型和4型三种病原的三重荧光定量PCR检测方法，并应用建立的方法对临床疑似感染PCV的样本进行PCV2、PCV3及PCV4的检测和分子流行病学分析。根据PCV2及PCV3的Rep蛋白(replicase protein, Rep)基因序列、PCV4的Cap蛋白(capsid protein, Cap)基因序列，设计合成3对特异性引物和3种不同荧光基团标记的TaqMan探针，进行反应体系和反应条件的优化，构建阳性质粒及标准曲线，评价方法的特异性、敏感性和重复性。结果表明，建立的PCV三重荧光定量PCR检测方法特异性强，不同亚型PCV和常见猪病原体均无交叉反应；检测下限均为1.0×10² copies·μL^-1，批内和批间变异系数均小于2.0%，重复性良好。对检测为阳性的样品进行Cap蛋白基因序列扩增、克隆和测序，获得41条序列，其中11条PCV2a，8条PCV2b，15条PCV2d及7条PCV3a。34条PCV2 Cap蛋白相似性为96.7%~99.7%，7条PCV3 Cap蛋白相似性为97.2%~99.9%。本试验成功建立了一种PCV三重荧光定量PCR，且可检测出不同基因型的猪圆环病毒的混合感染，PCV2d、PCV3a当前依然为国内优势基因型，为临床PCV的准确诊断提供了更快速更精准的检测方法。

关键词: 猪圆环病毒, 荧光定量PCR, Cap基因, 遗传进化分析

Abstract:

This study aimed to establish a rapid and convenient triplex fluorescent quantitative PCR assay for simultaneous detection of porcine circovirus (PCV) types 2, 3, and 4, and to apply this method for the detection and molecular epidemiological analysis of PCV2, PCV3, and PCV4 in clinically suspected PCV-infected samples. Three pairs of specific primers and three TaqMan probes labeled with distinct fluorescent groups were designed and synthesized based on the Rep gene sequences of PCV2 and PCV3 and the Cap gene sequence of PCV4. The reaction system and conditions were optimized, and recombinant plasmids were constructed as positive controls to generate standard curves. The specificity, sensitivity, and reproducibility of the assay were systematically evaluated. The developed triplex fluorescent quantitative PCR assay demonstrated high specificity with no cross-reactivity among different PCV genotypes or common swine pathogens. The lower detection limit was 1.0×10² copies·μL^-1 for all targets, with intra-and inter-assay coefficients of variation both below 2.0%, indicating excellent reproducibility. Cap gene amplification, cloning, and sequencing of positive samples yielded 41 sequences, including 11 PCV2a, 8 PCV2b, 15 PCV2d, and 7 PCV3a strains. Sequence analysis revealed 96.7%-99.7% homology among 34 PCV2 Cap proteins, 97.2%-99.9% homology among 7 PCV3 Cap proteins. This study successfully established a triplex fluorescent quantitative PCR assay capable of detecting co-infections with different PCV genotypes. The results confirmed PCV2d and PCV3a as the predominant circulating genotypes in China. The assay provides a rapid and accurate diagnostic tool for clinical detection of PCV infections.

Key words: porcine circovirus, fluorescence quantitative PCR, Cap gene, Genetic evolutionary analysis

中图分类号:

S852.659.2

王鑫雨, 李佳妮, 薄惠文, 马琛琛, 武文娟, 于永乐, 杨海燕, 马清霞, 张传美. 猪圆环病毒2型、3型和4型检测的三重荧光定量PCR建立及Cap基因变异分析[J]. 畜牧兽医学报, 2025, 56(11): 5789-5800.

WANG Xinyu, LI Jiani, BO Huiwen, MA Chenchen, WU Wenjuan, YU Yongle, YANG Haiyan, MA Qingxia, ZHANG Chuanmei. Establishment of a Triple Fluorescence Quantitative PCR Method for Porcine Circovirus Types 2, 3 and 4 and Analysis of Genetic Evolution of the Cap Gene[J]. Acta Veterinaria et Zootechnica Sinica, 2025, 56(11): 5789-5800.

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病原 Pathogen	基因 Gene	引物及探针序列(5′→3′) Primer and probe	片段长度/bp Length
PCV2	Rep	F: CCCGCAGTATTCTGATTACC	87
		R: TCCGATAGAGAGCTTCTACA
		P: GCAATCAGACCCCGTTGGAATGG
PCV3	Rep	F: AATCTGACTGAAGTTGCG	133
		R: TCAGTTTTAAAATCACGC
		P: CTATGGGCGGGGTTTGCG
PCV4	Cap	F: TCCACACCTGCACAAAGTT	119
		R: CCTCCACTTCCAGCCTAA
		P: GTCCTGGTCCGCCATGCT

病原 Pathogen	引物(5′→3′) Primer	片段长度/bp Length	基因 Gene	引物用途 Primer usage
PCV2	F: CAGACCCCGTTGGAATGG	949	Cap	检测
	R: AATACTTACAGCGCACTTCTTTCG
PCV3	F: CTTGTGTACAATTATTGCGTTGG	883	Cap	检测
	R: AATACTAGCCCGGCACCA
PCV4	F: CGCACTTGCAAGGGTTTGTG	428	Rep	检测
	R: GCCACGTGGTTTCCAGAAGAGGT

登录号 Accession No.	毒株来源 Source of virus Strain	宿主 Host	提交年份 Year	长度/nt Length/nt	亚基因型 Sub-genotype
OP113847.1	中国山东	猪	2022	1 768	PCV2a
OR533473.1	中国江苏	猪	2023	1 768	PCV2a
MZ615677.1	中国吉林	猪	2019	1 768	PCV2a
HQ202970.1	中国台湾	猪	2012	1 767	PCV2b
FJ870969.1	中国江西	猪	2021	1 770	PCV2b
HQ831525.1	葡萄牙	猪	2007	1 767	PCV2b
EU148505.1	丹麦	猪	2008	1 767	PCV2b
EU148203.1	丹麦	猪	2008	1 767	PCV2c
EU148504.1	丹麦	猪	2008	1 767	PCV2c
OR533470.1	中国	猪	2015	1 767	PCV2d
KC515022.1	中国河南	猪	2021	1 767	PCV2d
MK504417.1	美国	猪	2018	1 767	PCV2d
MK347372.1	中国	猪	2015	1 767	PCV2d
MK405699.1	中国	猪	2018	1 767	PCV2d
KF742551.1	中国	猪	2012	1 767	PCV2d
KT795290.1	美国	猪	2015	1 767	PCV2e
KT795287.1	墨西哥	猪	2014	1 777	PCV2e

登录号 Accession No.	毒株来源 Source of virus Strain	宿主 Host	提交年份 Year	长度/nt Length/nt	亚基因型 Sub-genotype
OP948026.1	中国重庆	猪	2023	2 000	PCV3a
MW715784.1	中国山东	猪	2021	2 000	PCV3a
MT075524.1	巴西	猪	2021	2 000	PCV3a
MK746104.1	中国新疆	猪	2019	1 999	PCV3a
OL422143.1	中国山东	猪	2021	2 000	PCV3a
ON376262.1	波兰	猪	2023	2 000	PCV3a
MK058529.1	美国	猪	2018	2 000	PCV3a
MN848609.1	中国甘肃	猪	2019	2 000	PCV3a
MN848598.1	中国甘肃	猪	2019	2 000	PCV3b
MZ449245.1	中国新疆	猪	2020	2 000	PCV3b
MZ449242.1	中国内蒙古	猪	2020	2 000	PCV3b
OQ117227.1	中国四川	猪	2023	2 000	PCV3b
KY753912.1	中国福建	猪	2018	2 000	PCV3b
MT461294.1	哥伦比亚	猪	2020	2 000	PCV3c
MG778698.1	中国北京	猪	2018	2 000	PCV3c
OP616730.1	加勒比地区	猪	2023	2 000	PCV3c
MG870097.1	中国吉林	猪	2018	2 000	PCV3c
MG253679.1	中国广东	猪	2017	2 000	PCV3c

登录号 Accession No.	毒株来源 Source of virus Strain	宿主 Host	提交年份 Year	长度/nt Length/nt
MN162710.1	中国湖南	猪	2019	1 770
NC_055580.1	中国湖南	猪	2019	1 770
ON470196.1	中国河南	猪	2019	1 770
MT015686.1	中国河南	猪	2019	1 770
MT193105.1	中国河南	猪	2019	1 770
MW759027.1	中国河南	猪	2019	1 770
ON419542.1	中国河南	猪	2019	1 770
MW439192.1	中国河北	猪	2019	1 770
MT995847.1	中国河北	猪	2019	1 770
MT193106.1	中国河南	猪	2020	1 770
MW538943.1	中国河南	猪	2020	1 770