Project description:Microarray analysis of the gill tissues of WSSV infected shrimp (P. monodon) at different time intervals 6 hrs, 24 hrs, 48 hrs and moribund stage of post WSSV infection was carried out to identify differentially expressed genes in response to WSSV infection. The shrimps in WSSV challenege experiment were challenged through intra muscular route with known concentration of virus. The important immune genes identified would be further characterized by sequence analysis and gene expression profile would be validated by real time PCR
2015-01-02 | GSE52895 | GEO
Project description:Genome skimming for nuclear markers across decapod crustacean data sets
| PRJNA485382 | ENA
Project description:Molecular identification of decapod crustacean larvae of the Mediterranean Sea
Project description:In this study, the viral miRNAs from white spot syndrome virus (WSSV) were characterized in shrimp in vivo. On the basis of our previous study and small RNA sequencing in this study, a total of 89 putative WSSV miRNAs were identified. As revealed by miRNA microarray analysis, the expressions of viral miRNAs were tissue-specific in vivo.
Project description:Microarray analysis of the gill tissues of WSSV infected shrimp (P. monodon) at different time intervals 6 hrs, 24 hrs, 48 hrs and moribund stage of post WSSV infection was carried out to identify differentially expressed genes in response to WSSV infection. The shrimps in WSSV challenege experiment were challenged through intra muscular route with known concentration of virus. The important immune genes identified would be further characterized by sequence analysis and gene expression profile would be validated by real time PCR One-color experiment,Organism: Penaeus monodon, Custom Penaeus monodon (Black Tiger Shrimp) 8x60k designed by Genotypic Technology Private Limited (AMADID: 041733), Labeling kit: Agilent Quick-Amp labeling Kit (p/n5190-0442)
Project description:In this study, the viral miRNAs from white spot syndrome virus (WSSV) were characterized in shrimp in vivo. On the basis of our previous study and small RNA sequencing in this study, a total of 89 putative WSSV miRNAs were identified. As revealed by miRNA microarray analysis, the expressions of viral miRNAs were tissue-specific in vivo. In this study, the viral miRNAs from white spot syndrome virus (WSSV) were characterized in shrimp in vivo. On the basis of our previous study and small RNA sequencing in this study, a total of 89 putative WSSV miRNAs were identified. As revealed by miRNA microarray analysis and Northern blots, the expressions of viral miRNAs were tissue-specific in vivo. Therefore, our study presented the first report on the in vivo molecular events of viral miRNA in the antiviral apoptosis.
Project description:Here, we present new functional genomic resources for the amphipod crustacean Parhyale hawaiensis, facilitating the exploration of gene regulatory evolution using this emerging research organism. We use Omni-ATAC-Seq, an improved form of the Assay for Transposase-Accessible Chromatin coupled with next-generation sequencing (ATAC-Seq), to identify accessible chromatin genome-wide across a broad time course of Parhyale embryonic development. This time course encompasses many major morphological events, including segmentation, body regionalization, gut morphogenesis, and limb development. In addition, we use short- and long-read RNA-Seq to generate an improved Parhyale genome annotation, enabling deeper classification of identified regulatory elements. We leverage a variety of bioinformatic tools to discover differential accessibility, predict nucleosome positioning, infer transcription factor binding, cluster peaks based on accessibility dynamics, classify biological functions, and correlate gene expression with accessibility.