Metagenomic analysis of bat virome in several Chinese regions / 生物工程学报

Bats are important reservoir animals and more than 60 viruses have been identified in bats with many of them highly pathogenic to human. In order to understand the natural background, genetic diversity of bat viruses in China and discover potential viral pathogens, Solexa sequencing based viral metagenomics focusing on bats tissues was established and to analyze the virome of bats collected from Jilin, Yunnan and Hunan province. By Solexa sequencing, 116 442 324 useful reads were obtained and assembled into 4 872 contigs, of which 8.2% (4 002/4 4872) were annotated to 36 viral families, including 19 vertebrate virus families, 6 plant virus families, 4 insect virus families and 4 phages. Further contigs analyses showed that some adenovirus, bocavirus, picobirnavirus, parvovirus contigs sequences were similar with known viruses. However, part of them shared limited identities to these viruses implying the discovery of new viruses. Moreover, PCR validation of adenovirus and bocavirus confirmed the results obtained by viral metagenomics. This study aimed to understand bat virome in China by viral metagenomics and could be helpful to establish effective surveillance on wildlife-associate zoonoses.

Quantitative detection of anti-classical swine fever virus siRNA expression in cells by stem-loop RT-qPCR / 生物工程学报

RNA interference (RNAi) is a promising technology in development of specific antiviral therapy, but the quantitative detection of small interfering RNA (siRNA) expressed in vivo is the main challenge to assess its antiviral effect. In order to detect the siRNA molecules (siN1 and SiN2) particularly expressed in cells to inhibit the replication of classical swine fever virus (CSFV), serial specific stem-loop primers were designed and synthesized. Two of them (SLP-N1-6 and SLP-N2-8) were selected by screening in cross combination and successfully used in establishment of an optimal stem-loop RT-qPCR, which showed high specificity and sensitivity in detection of anti-CSFV siRNA expressed in PK-15 cells. The method was capable of detecting 10(2) to 10(8) copies of siRNA molecule with good parallel relationship (R(sq) = 0.999) and high amplification efficiency (Eff. = 98.2%). Therefore, the established stem-loop RT-qPCR can be used as an ideal tool in quantitative assessment of the anti-CSFV effects of RNAi in combination with detection of viral antigens using indirect immunofluorescent assay and TCID50, providing a novel technique for evaluating the antiviral effects of the siRNA expressed in anti-CSFV transgenic pigs to be established in future.