Tulane University School of Medicine
Post Doctoral Fellow >>>
Tulane University School of Medicine, New Orleans, Louisiana, United States, 70123
Description
Postdoc positions are available to work in a highly interactive and energetic lab investigating non-canonical transcriptome regulatory mechanisms driving virus replication, oncogenesis and inflammatory responses in the human oncogenic virus, Epstein Barr virus. Approaches include a wide array of RNA and DNA sequencing methods (e.g. RNA‑seq, CAGE‑seq, GRO‑Seq, eCLIP, Cut‑n‑Run, HiC, single molecule sequencing, single cell sequencing), molecular biology assays, cell and animal manipulation, and the use of extensive publicly available, in-house developed, and new high‑throughput data analysis methods. Responsibilities
Investigate non-canonical transcriptome regulatory mechanisms driving virus replication, oncogenesis and inflammatory responses in the human oncogenic virus, Epstein Barr virus. Employ a wide array of RNA and DNA sequencing methods, molecular biology assays, cell and animal manipulation, and develop new high‑throughput data analysis methods.
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Postdoc positions are available to work in a highly interactive and energetic lab investigating non-canonical transcriptome regulatory mechanisms driving virus replication, oncogenesis and inflammatory responses in the human oncogenic virus, Epstein Barr virus. Approaches include a wide array of RNA and DNA sequencing methods (e.g. RNA‑seq, CAGE‑seq, GRO‑Seq, eCLIP, Cut‑n‑Run, HiC, single molecule sequencing, single cell sequencing), molecular biology assays, cell and animal manipulation, and the use of extensive publicly available, in-house developed, and new high‑throughput data analysis methods. Responsibilities
Investigate non-canonical transcriptome regulatory mechanisms driving virus replication, oncogenesis and inflammatory responses in the human oncogenic virus, Epstein Barr virus. Employ a wide array of RNA and DNA sequencing methods, molecular biology assays, cell and animal manipulation, and develop new high‑throughput data analysis methods.
#J-18808-Ljbffr