Supplementary data – Hungarian swine CoVs – Máté, 2026https://hdl.handle.net/21.15109/ARP/GH1AYKMáté, DóraVarga-Kugler, RenátaKaszab, EszterKárolyi, Henrik FülöpGörföl, TamásKemenesi, GáborIgriczi, BarbaraBalka, GyulaDomán, MariannaBálint, ÁdámZádori, ZoltánFehér, EnikőARP2026-02-232026-02-24T13:22:02ZThe rapid evolution of coronaviruses (CoVs) requires researchers to develop specific yet broad-spectrum detection methods to monitor their constant genomic changes. The goal of the present study was to establish a current pan-coronavirus RT-PCR system capable of detecting a wide variety of CoVs and useful for the investigation of virus diversity and host spectrum. For optimization, one-step and two-step nested RT-PCRs with three RT enzymes were examined, amplifying a ~600 bp long product of the RNA-dependent RNA polymerase. As templates, the in vitro transcribed RNA of ten pathogenic CoVs (SARS-CoV, SARS-CoV-2, NL-63, OC43, feline CoV, porcine epidemic diarrhea virus or PEDV, transmissible gastroenteritis virus or TGEV, canine CoV, bat CoV, and infectious bronchitis virus) were applied instead of the often-used DNA standards. A limit of detection of 5–50 copies/reaction was achieved with a random hexamer-primed two-step RT-PCR and a touchdown cycling profile, representing a lower detection limit and higher specificity compared to previously published primer sets. Swine origin pooled samples (n = 121), collected from apparently healthy herds in Hungary, were tested with the novel RT-PCR system. Sequences of porcine respiratory CoV/TGEV and porcine hemagglutinating encephalomyelitis virus were identified in 24 oral fluid and nasal swab pools, demonstrating the circulation of these viruses in this country, as well as the suitability of the new PCR for their detection. The results highlighted the importance of adequate RT enzyme selection and the use of RNase inhibitors in sample preparation and conservation.Agricultural Sciencespan-coronavirusPCRmammalianavianhumanswineEnglishMáté, D., Varga-Kugler, R., Kaszab, E., Károlyi, H. F., Görföl, T., Kemenesi, G., Igriczi, B., Balka, G., Domán, M., Bálint, Á., Zádori, Z., & Fehér, E. (2026). Surveillance of Swine Coronaviruses in Hungarian Herds with a Newly Established Pan-Coronavirus RT-PCR System. Animals, 16(3), 358., doi, 10.3390/ani16030358, https://www.mdpi.com/2076-2615/16/3/3582026-02-23Kaján, Győző László2026-02-2320202022The partial swine coronavirus genome sequences have been deposited in the GenBank database with accession numbers PV988443-PV988453 and PX677392-PX677399.HungaryCC BY-NC 4.0