A ‘one-pot’ assay of or rapid portable identification of genotypes I and II African swine fever viruses
Published 03 December, 2026
African swine fever (ASF), caused by the African swine fever virus (ASFV) represents a major threat to the global pig industry and has since brought major economic loss. ASFVs are divided into 24 genotypes based on their B646L gene, with only genotypes I and II circulating globally. A rapid ASFV genotyping method is not only a powerful tool for ASF diagnosis and epidemiological investigation but also a critical supporting technology for the future application of live attenuated vaccines
To that end, a team of researchers from China developed an isothermal ‘one-pot’ CRISPR-Cas12i3/Cas13d-based assay, designated OBServe.v2, to detect two amplified targets from multiplex recombinase polymerase amplification (RPA) in a single tube. They reported their results in the Journal of Integrative Agriculture.
“Using a serially diluted synthetic plasmid, OBServe.v2 exhibits sensitivity comparable to that of a commercially available Real-time PCR Kit (Lijian, Qingdao, China), with the capability to detect either genotype I or II ASFVs at concentrations as low as 8 copies μL-1,” shares corresponding author Gaiping Zhang, an academician and professor at Peking University. “For clinical samples, it achieved 100% diagnostic sensitivity and specificity, with no cross-reactivity against other common swine viruses.”
“When compared with real-time PCR, OBServe.v2 successfully identified all ASFV-positive samples with Ct values ranging from 14.6 to 36.57, achieving 100% sensitivity and specificity,” adds co-corresponding author Jianguo Zhao, a professor at Chinese Academy of Sciences.
Additionally, the assay eliminates the high contamination risk associated with conventional two-step CRISPR-Cas based diagnostics and demonstrates complete concordance with the classic PCR-sequencing genotyping method.
“OBServe.v2 provides a visual, accurate and rapid alternative to existing ASFV genotyping methods, with 100% sensitivity and specificity, while requiring minimal equipment,” adds co-corresponding author Yanfang Wang, a professor at Chinese Academy of Agricultural Sciences. “It will be particularly valuable for rapid on-site ASFV surveillance and LAV strains selection.”
Contact Authors:
Zhe Wang, E-mail: wangzh47@mail3.sysu.edu.cn;
Correspondence
Yanfang Wang, E-mail: wangyanfang@caas.cn;
Gaiping Zhang, E-mail: zhanggaip@126.com;
Jianguo Zhao, E-mail: zhaojg@ioz.ac.cn
Funder:
This work was supported by the National Natural Science Fund for Distinguished Young Scholars of China (31925036 and 32025034), the Shandong Provincial Key R&D Program, China (2021LZGC001), the Biological Breeding-Major Projects, Institute of Zoology, Chinese Academy of Sciences and Institute of Animal Science, Chinese Academy of Agricultural Sciences (2023ZD04074 and 2023ZD0404604), the Special Project of Longhu Laboratory, China (LHLab_ZD20230012), the National Natural Science Foundation of China (32230100, 32330099 and 32201257), the National Key Research and Development Program of China (2020YFA0509503, 2022YFF0710703, 2021YFA0805902 and 2022XAGG0121, 2022YFF1002803).
Conflict of Interest:
The authors declare that they have no conflict of interest.
See the Article:
Wang Z et al. 2025. A one-pot Cas12i3/Cas13d-based assay for rapid portable identification of genotypes I and II African swine fever viruses. Journal of Integrative Agriculture, 24(11): 4456-4459.