01782     2200277   4500001002100000005001500021035002000036007000300056008003900059100002500098245009100123260000900214650034100223700002100564700003100585700002900616700002800645700002200673700002000695700002900715700002000744700002200764700002300786520064800809856004701457INLIS00000000001804020220209101957  a0010-0222000014ta220209                |          | |  1 aG. Dundon1,6 William1 aEvidence of coinfection of pigs with African swine fever virus /cG. Dundon1,6 William  c2021 4aNeighbour-joining phylogenetic tree constructed based  on a subset of representative  ORF2 sequences. Strains for  which sequences were obtained  in the present study are indicated by a red circle. A more  comprehensive tree, including  several genetically and geographically related sequences,  is provided as Supplementary  Fig. S11 aFranzo2 Giovanno1 aSettypalli1 Tirumala B. K.1 aDharmayanti3 N.L.P. Indi1 aAnkhanbaatar4 Ulaankhuu1 aSendow3 Indrawati1 aRatnawati3 Atik1 aSainnokhoi4 Tserenchimed1 aMolini5 Umberto1 aCattoli1 Giovanni1 aE. Lamien1 Charles  aArchival swine DNA samples from Indonesia and Mongolia, some of which were previously shown to be positive for African 
swine fever virus, were screened for the presence of porcine circovirus 2 (PCV-2) and porcine circovirus 3 (PCV-3) by PCR. 
Samples from both countries were positive for PCV-2 (three from Mongolia and two from Indonesia), while none were positive for PCV-3. The PCV-2 amplicons were sequenced, and phylogenetic analysis revealed that the PCV-2 strains belonged to 
four diferent genotypes: PCV-2a (Mongolia), PCV-2b (Mongolia and Indonesia), PCV-2d (Indonesia), and PCV-2g (Mongolia). This is the frst report of ASFV/P  ahttps://doi.org/10.1007/s00705-021-05312-7