Fig. 1.
Fig. 1. Analysis of the genotype distribution in the serum and PBMC of a HCV patient harboring a dual infection. Nested RT-PCR was performed using Cap derived primers for the amplification of genotype specific products either from the positive or the negative strand viral RNA. Control human sera included positive strand RNA amplified from patients infected with genotypes 1a, 1b, 2(a/c), 3 and 4 (lanes 1, 2, 3, 4, and 5, respectively). Serum (S, lanes 6 and 8) and total PBMC (PB, lanes 7 and 9) from a patient infected with a genotype 1a and a genotype 2 were used for amplification of both the positive (+) and the negative (−) strand RNA. PCR products were fractionated on a 3% agarose gel and stained by ethidium bromide. Markers are shown on the left hand side (base pair, bp) while expected sizes of amplified products specific for the different genotypes are shown on the right hand side (bp).

Analysis of the genotype distribution in the serum and PBMC of a HCV patient harboring a dual infection. Nested RT-PCR was performed using Cap derived primers for the amplification of genotype specific products either from the positive or the negative strand viral RNA. Control human sera included positive strand RNA amplified from patients infected with genotypes 1a, 1b, 2(a/c), 3 and 4 (lanes 1, 2, 3, 4, and 5, respectively). Serum (S, lanes 6 and 8) and total PBMC (PB, lanes 7 and 9) from a patient infected with a genotype 1a and a genotype 2 were used for amplification of both the positive (+) and the negative (−) strand RNA. PCR products were fractionated on a 3% agarose gel and stained by ethidium bromide. Markers are shown on the left hand side (base pair, bp) while expected sizes of amplified products specific for the different genotypes are shown on the right hand side (bp).

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