Project description:Complete sequence of the 3 segments of Fermo virus

Project description:The purpose is to obtain samples for transcriptional analysis in triplicate wells using wild type West Nile virus (WNV NY99 clone 382; WNVWT) and mutant virus (WNVE218A) in mouse granule cell neurons. This data set comprises two complete biological replicate experiments conducted in the same conditions and with data processed independently.

Project description:Grapevine line pattern virus (GLPV) was described 30 years ago from Hungary, and in the lack of its sequence until now no additional information about its presence was reported. However High-Throughput Sequencing (HTS) applied on dsRNAs extracts recovered from a grapevine plant (accession Baco22A) infected with GLPV Grapevine line pattern virus (GLPV) allowed us to sequence it with different High-Throughput Sequencing (HTS) methods andthe assembleing of the full genome sequence of this virus. The availability of the sequence allowed us to validate the presence of the virus bot with RT-PCR and with Northern blot hybridization. These methods were also used to test its graft and seed transmission. In accordance as it was originally suggested its genome was found to comprise three RNA segments.Its RNA1 (3.160 bp), RNA2 (2.493 bp) and RNA3 (2.529 bp), encode four proteins, denoted 1a (Methyltransferase, helicase), 2a (RNA-dependent RNA Polymerase), 3a (Movement protein, MP) and 3b (Coat protein, CP). GLPV showed the highest amino acid identity (92%–99%) with all domains of Hop yellow virus (HYV), which is a tentative member of the genus Anulavirus of the family Bromoviridae. The phylogenetic trees constructed based on the amino acid sequences of 2a and 3b also confirmed the belongingness of GLPV to the genus Anulavirus, allocating it in one cluster together with the anulaviruses, and close to HYV. The very high sequence identity found between GLPV and HYV leaves no doubt that both are two isolates of the same viral species.

Project description:The purpose is to obtain samples for transcriptional analysis in triplicate wells using wild type West Nile virus (WNV NY99 clone 382; WNVWT) and mutant virus (WNVE218A) in mouse cortical neurons. This data set comprises two complete biological replicate experiments conducted in the same conditions and with data processed independently.

Project description:Brome mosaic virus complete genome sequencing

Project description:Small RNA libraries were constructed from total RNA from Jasminum sambac plants exhibiting virus-like symptoms. After sequencing, small RNAs were assembled into contigs with MetaVelvet and assembled contigs were aligned against the NR database of NCBI using BLASTx. Top hits that reported a virus as subject were considered putative viral sequences. Based on such alignments, the whole genome of a virus, we tentatively name Jasmine Virus H was recovered and cloned. Two more small RNA libraries were made in a confirmatory experiment. One from Jasminum sambac and another one from Nicotiana benthamiana plants infected with the newly-cloned virus. The small RNA libraries were aligned against the full-length sequence of Jasmine Virus H to determine the spacial distribution of virus-derived small RNAs along the virus genome.

Project description:local strain P3009 segment B complete sequence of Infectious bursal disease virus

Project description:The purpose is to obtain samples for transcriptional analysis in triplicate wells using wild type West Nile virus (WNV NY99 clone 382; WNVWT) and mutant virus (WNVE218A) in mouse cortical neurons. This data set comprises two complete biological replicate experiments conducted in the same conditions and with data processed independently.

Project description:The purpose is to obtain samples for transcriptional analysis in triplicate wells using wild type West Nile virus (WNV NY99 clone 382; WNVWT) and mutant virus (WNVE218A) in mouse granule cell neurons. This data set comprises two complete biological replicate experiments conducted in the same conditions and with data processed independently.

Project description:Vaccinia virus raw sequence reads