, 2004) Sequencing of a part of the 5′-UTR and the complete VP1

, 2004). Sequencing of a part of the 5′-UTR and the complete VP1 region was performed by a modification of previously described methods (el-Sageyer et al., 1998; Kilpatrick

et al., 1998; Liu et al., 2000; Szendrői et al., 2000). For sequencing of the 5′-UTR, cDNA was prepared by random hexamer-primed reverse transcription from virion RNA templates, followed by PCR amplification using primers ‘1’ (sense; position: 163–184 nt; 5′-CAAGCACTTCTGTTTCCCCGG-3′) and ‘3’ (antisense; position: 579–599 nt; 5′-ATTGTCACCATAAGCAGCCA-3′). VP1 sequences were amplified by PCR using primers Y7 (sense; position: 2395–2418 nt; 5′-GGGTTTGTGTCAGCCTGTAATGA-3′) and Q8 (antisense; position: 3475–3496 nt; 5′-AAGAGGTCTCTRTTCCACAT-3′), which also served as sequencing primers along

PCI-32765 purchase with panPV1A (sense; position: 2935–2916 nt; 5′-TTIAIIGCRTGICCRTTRTT-3′) and panPV2S (antisense; position: 2895–2876 nt; 5′-CITAITCIMGITTYGAYATGT-3′) (Kilpatrick et al., 2004). All primer positions are relative to Poliovirus P3/Leon 12 a1b, GenBank accession selleckchem number X00925 (Stanway et al., 1983). PCR products were purified using PCR-Clean up-M Kit (Viogene, Sunnyvale, CA). The 5′-UTR and VP1 sequences described in this study were submitted to the GenBank library under accession numbers EU918372EU918382 and EU918384EU918390. In Hungary, mOPV was used for immunization campaigns from December 1959 up to 1992, after which tOPV was used. In 1960, a total

of 36 cases of VAPP following administration of mOPV were reported in Hungary: five cases were associated with poliovirus type 1 (two OPV recipients and three OPV contacts), Sinomenine one with type 2 (recipient), and eight with type 3 (five recipients and three contacts), specimens from 19 patients were negative for poliovirus, and three specimens were not tested. From 1961 to 1990, an additional 54 VAPP cases were reported: three cases were associated with type 1, seven with type 2, and 44 with type 3. In the original investigations, the best available methods were used for intratypic serodifferentiation (distinguishing vaccine-related poliovirus isolates from wild type), which tested for antigenic and phenotypic properties such as reproductive capacity of growth at 40 °C (rct40 marker), sensitivity of plaque formation to sulfated polysaccharides (d marker), and elution properties from Al(OH)3. Of the 52 cases of VAPP in Hungary associated with poliovirus type 3, 18 type 3 isolates from 15 children with VAPP [eight typ3 mOPV (mOPV3) recipients, four OPV contacts, and three with unknown OPV histories] were recovered from archival storage (Table 1). The 15 VAPP patients were geographically and temporally dispersed without any epidemiological associations. Characterization of the type 3 isolates from the VAPP patients using diagnostic RT-PCR confirmed that all 18 type 3 isolates were derived from the Sabin type 3 OPV strain, Leon 12 a1b.

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