Project description:Adenovirus type 2 RNA splicing sites were mapped by using deep cDNA sequencing. The majority of the previously identified splice sites were detected. In addition, novel splicing sites were identified Total RNA obtained from four time stages of human primary lung fibroblast cells IMR-90 infected by adenovirus type 2 compared to the control mock-infected by adenovirus type 2.

Project description:To identify novel genes especially lncRNAs linked to vascular smooth muscle cell (VSMC) differentiation, we performed RNA sequencing of adenovirus–MYOCD transduced human coronary artery smooth muscle cells (HCASMs). Simiilar amount of empty Adenovirus was used as control.

Project description:Adenovirus type 2 RNA splicing sites were mapped by using deep cDNA sequencing. The majority of the previously identified splice sites were detected. In addition, novel splicing sites were identified

Project description:Human adenovirus sequencing

Project description:Human Adenovirus type 41 detected in wastewater

Project description:Adenovirus is a common human pathogen that relies on host cell processes for transcription and processing of viral RNA and protein production. Although adenoviral promoters, splice junctions, and cleavage and polyadenylation sites have been characterized using low-throughput biochemical techniques or short read cDNA-based sequencing, these technologies do not fully capture the complexity of the adenoviral transcriptome. By combining Illumina short-read and nanopore long-read direct RNA sequencing approaches, we mapped transcription start sites and cleavage and polyadenylation sites across the adenovirus genome. In addition to confirming the known canonical viral early and late RNA cassettes, our analysis of splice junctions within long RNA reads revealed an additional 35 novel viral transcripts. These RNAs include fourteen new splice junctions which lead to expression of canonical open reading frames (ORF), six novel ORF-containing transcripts, and fifteen transcripts encoding for messages that potentially alter protein functions through truncations or fusion of canonical ORFs. In addition, we also detect RNAs that bypass canonical cleavage sites and generate potential chimeric proteins by linking separate gene transcription units. Of these, an evolutionary conserved protein was detected containing the N-terminus of E4orf6 fused to the downstream DBP/E2A ORF. Loss of this novel protein, E4orf6/DBP, was associated with aberrant viral replication center morphology and poor viral spread. Our work highlights how long-read sequencing technologies can reveal further complexity within viral transcriptomes.

Project description:Identification of novel cellular binding partners of human Arglu1 and human adenovirus B7 E1A.

Project description:Adenovirus type 2 transcriptome

Project description:Genome Sequence analyzes of the novel human Adenovirus Species D type112

Project description:Human adenovirus A overview