Project description:Juvenile black rockfish

Project description:Hepatic transcriptome sequencing data of black rockfish exposed to fragment type microplastics

Project description:RNA-seq of black rockfish (Sebastes schlegelii) testis

Project description:Transcriptomic analysis of the response mechanisms of black rockfish (Sebastes schlegelii) under noise stress from offshore wind farms

Project description:Transcriptome Profiles in Macrophages of Black Rockfish (Sebastes schlegelii)

Project description:2b-RAD sequencing of the black rockfish Sebastes schlegelii

Project description:In pancreatic cancer clinical trials, Black patients are under-represented while having higher morbidity and mortality rates as compared to other racial groups. Multiple factors, including socioeconomic and lifestyle factors may contribute to this disparity, but genomic contributions remain unclear. In an exploratory project to identify genes that may contribute to differences in survival between Black and White patients with pancreatic cancer, transcriptomic sequencing of over 24,900 genes was performed in human pancreatic tumor and non-tumor tissue obtained from Black and White patients. Over 4,400 genes were differentially expressed in tumor and non-tumor tissue, irrespective of race. Of these 4,400 genes, four (AGR2, POSTN, TFF1, and CP) met the pre-defined statistical threshold for upregulation in pancreatic tumor tissue; these findings were confirmed by quantitative PCR. Transcriptomic analysis of pancreatic tumor tissue in Black and White patients revealed differential expression in 1,200 genes. Non-tumor and tumor gene expression differences within each race were assessed, revealing over 1,500 tumor-specific differentially expressed genes in pancreatic tumor and non-tumor tissue from Black patients. We identified TSPAN8 as a potential tumor-specific gene significantly overexpressed in pancreatic tumor tissue in Black patients as compared to White patients. Using Ingenuity Pathway Analysis software to compare the race-associated gene expression profiles, over 40 canonical pathways were identified to be potentially impacted by the gene expression differences between the races. Heightened expression of TSPAN8 was associated with poor overall survival, suggesting TSPAN8 as one potential genetic factor contributing to the differential outcomes in Black patients with pancreatic cancer, supporting the potential utility of larger genomic studies to further explore the role of TSPAN8 in pancreatic cancer.

Project description:We used a combined transcriptomic and proteomic approach to characterize the venom of a male and female of the black-back scorpion (Hadrurus spadix).

Project description:Uterine fibroids (leiomyomas) affect Black women disproportionately in terms of prevalence, incidence, and severity of symptoms. The causes of this racial disparity are essentially unknown. We hypothesized that myometria of Black women are more susceptible to developing fibroids and examined the transcriptomic and DNA methylation profiles of myometria and fibroids from Black and White women for comparison. Myometrial samples cluster by race in both their transcriptome and DNA methylation profiles, whereas fibroid samples only cluster by race in the latter. More differentially expressed genes (DEGs) were detected in the Black and White myometrial comparison than in the fibroid comparison. Leiomyoma gene set expression analysis showed four different clusters of DEGs, including a cluster with highest expression in Black myometrial samples and elevated in all fibroids. One of the DEGs in this group, VWF, was significantly hypomethylated at two CpG probes near a putative enhancer site in Black myometrial and in all fibroid samples compared with White myometrial samples, suggesting that VWF expression is responsive to DNA hypomethylation, a known stress response. These results suggest that the molecular basis for the disparity in fibroid disease between Black and White women could be found in the myometria before fibroid development and not in the fibroids themselves.

Project description:Genome wide DNA methylation profiling of normal myometrial and fibroid samples. Uterine fibroids (leiomyomas) affect Black women disproportionately in terms of prevalence, incidence, and severity of symptoms. The causes of this racial disparity are essentially unknown. We hypothesized that myometria of Black women are more susceptible to developing fibroids and examined the transcriptomic and DNA methylation profiles of myometria and fibroids from Black and White women for comparison. Myometrial samples cluster by race in both their transcriptome and DNA methylation profiles, whereas fibroid samples only cluster by race in the latter. More differentially expressed genes (DEGs) were detected in the Black and White myometrial comparison than in the fibroid comparison. Leiomyoma gene set expression analysis showed four different clusters of DEGs, including a cluster with highest expression in Black myometrial samples and elevated in all fibroids. One of the DEGs in this group, VWF, was significantly hypomethylated at two CpG probes near a putative enhancer site in Black myometrial and in all fibroid samples compared with White myometrial samples, suggesting that VWF expression is responsive to DNA hypomethylation, a known stress response. These results suggest that the molecular basis for the disparity in fibroid disease between Black and White women could be found in the myometria before fibroid development and not in the fibroids themselves.