biological processes
DESCRIPTION
Differential Gene Expression in Olympia Oyster ( Ostrea lurida ) Gonadal Tissue. Hannah Wear, Carolyn Friedman, and Steven Roberts. Biological Processes. School of Aquatic and Fishery Sciences, University of Washington. Cellular Components. Molecular Function. - PowerPoint PPT PresentationTRANSCRIPT
Biological Processes Cellular Components Molecular Function
Gene Ontology terms associated with UniProt/Swissprot annotations
O. lurida Transcriptome Annotation
Differential Gene Expression in Male compared to Female
The DESeq analysis figure shows the fold change of male expression levels, where positive fold change indicates a gene expressed higher in male gonad tissue, and vice versa. DESeq analysis indicates 1789 genes expressed significantly higher in female gonad tissue and 495 genes expressed significantly higher in male gonad tissue. Red dots represent differentially expressed genes with a significant p-value (<0.05).
Differential Gene Expression in Olympia Oyster (Ostrea lurida) Gonadal Tissue
Hannah Wear, Carolyn Friedman, and Steven Roberts
School of Aquatic and Fishery Sciences, University of Washington
Research Objectives: Expand existing annotated O. lurida transcriptome resources and determine which genes have the greatest difference in expression between O. lurida gonad tissue.
Transcriptomic data provides information which can aid in conservation of species with high vulnerability, such as the Olympia oyster.
Approach
Background
1. Transcriptome Annotation: BLAST O. lurida contigs to known gene sequences using multiple gene and protein databases and assess results with gene ontology (GO) terms.
2. Expression Analysis: Use DESeq analysis to determine differentially expressed contigs from O.lurida male and female gonad tissue.
Conclusions
These findings and tools expand the existing public genomic resources on O. lurida and provide baseline data for conservation of the Olympia oyster and related species.
Cellular Components Biological Processes Molecular Function
Biological Processes
Cellular Components
Molecular Function
Enrichment of Genes and Pathways
GO enrichment of significantly expressed genes
Genes with significant differential expression from DESeq analyses were subjected to enrichment analysis using DAVID analysis and categorized by GO terms into three categories: biological processes, cellular components, and molecular function. Results also showed significant differential expression in the N-glycan biosynthesis pathway.
Project funded in part by a NOAA Aquaculture Program Award (NA10OAR4170057) and SAFS.