The Faculty of Arts and Sciences Informatics department at Harvard University, in collaboration with the Dulac lab in the Department of Molecular and Cellular Biology, is looking for a bioinformatician for genomics analysis, with a focus on single cell RNA-seq analysis. This position will be 100% dedicated to ongoing, NIH-funded projects in the Dulac lab to catalog and understand the diversity and function of cell types in the mouse brain using single-cell RNA-seq and other cutting edge techniques. This is an exciting opportunity to be a key member of an interdisciplinary team that will revolutionize our understanding of the way brains function.

Based within the Informatics group at Harvard, the successful candidate will:

  • Work closely with Dulac lab graduate students, postdocs, and collaborators to derive novel biological insights from large scale RNA-seq data
  • Lead bioinformatics efforts to analyze novel single-cell RNA-seq datasets
  • Use statistical methods to uncover neural circuits underlying survival functions in the mouse brain

The successful candidate will be someone with a strong background in RNA-seq analysis, bioinformatics, and statistics, but no background in neuroscience is required or expected. Candidates who are curious and willing to learn will have numerous opportunities to do so.

Basic Qualifications

Masters degree or higher in bioinformatics, computer science, genomics, or a related field, with at least 5 years hands-on experience with bioinformatics methods Expertise in programming languages commonly used in bioinformatics (such as Python or R)

Additional Qualifications

PhD in a relevant field is strongly preferred Expertise in the analysis of RNA-seq data, prior experience with single-cell RNA-seq data preferred Fluency with Linux shell scripting and high performance computing

Additional Information

This is a five-year term position contingent upon continued grant funding and satisfactory performance.

We are committed to diversity and especially encourage members of underrepresented communities to apply.