We are looking for an enthusiastic and energetic individual to join our research effort investigating genetic and molecular variation in the context of human aging, with a focus on brain tissue. This position will work with the Suh, Nuriel and Menon labs to incorporate existing and new experimental data on the trajectory of human aging and neurological disease.
The candidate will develop, execute, and maintain bioinformatics pipelines to process and analyze genetic, transcriptomic (bulk and single-nucleus RNA-seq), epigenetic, and proteomic data from mouse and human brains. In addition, the candidate will incorporate analysis results into a parse-able format for non-bioinformatics experts.
The ideal candidate should have a quantitative background (Computer Science, Statistics, Biostatistics, Computational Biology, Applied Mathematics, Computational Neuroscience, Genomics, or Bioinformatics), and extensive experience in standard workflows for analysis of large-scale molecular data, specifically to answer questions about aging-associated changes in human and model system data. In-depth knowledge of at least one flavor of data (genetics, transcriptomics, epigenetics, or proteomics) is required, and successful applicants will receive on-the-job training for other data modalities in the Menon and Suh labs. The candidate should have good knowledge of programming languages for implementing computational algorithms on large-scale data (R, Python, Perl), as well as experience working in Linux/Unix on high-performance computing/cluster platforms.
The successful candidate will be part of an integrated team of neurologists, data scientists, and cell biologists who come together to perform team-based projects. The position therefore offers a stimulating and multi-disciplinary environment and the opportunity to work with a variety of researchers at Columbia University. There will be many opportunities to contribute to multiple ongoing national and international collaborative projects.
Responsible for assembling, executing, and developing the latest bioinformatics pipelines for primary analysis of 'omics data in the context of aging.
Contribute to QA/QC of published and newly generated data sets.
Develop analysis workflows to answer targeted questions about changes in molecular profiles in healthy aging or disease in human.
Display initiative and independence in providing rapid results to various investigators generating experimental data.
Communicate results to non-bioinformatics experts and develop novel analysis approaches in response to new questions or insight.
Prepare summary reports of data and results for dissemination to colleagues and collaborators.
Directly respond to inquiries regarding projects being managed. Produce subsets of data for distribution to collaborators as approved by the principal investigators.
Requires bachelor's degree or equivalent in education and experience, plus four years of related experience.
Master's Degree or PhD in bioinformatics, computational biology, applied mathematics, computational neuroscience, computer science, statistics, biostatistics, physics, or related area.
Demonstrated programming skills
Demonstrated experience with building pipelines for at least one "omics" data modality (genetics, transcriptomics, epigenetics, proteomics).
Strong organizational skills in managing and analyzing large datasets
Programming experience in R, Python, Perl, or C/C++
Ability to work independently, display initiative within a team environment, and respond rapidly to requests
Equal Opportunity Employer / Disability / Veteran
Columbia University is committed to the hiring of qualified local residents.
Internal Number: 512926
About Columbia University
Columbia University is one of the world's most important centers of research and at the same time a distinctive and distinguished learning environment for undergraduates and graduate students in many scholarly and professional fields. The University recognizes the importance of its location in New York City and seeks to link its research and teaching to the vast resources of a great metropolis. It seeks to attract a diverse and international faculty and student body, to support research and teaching on global issues, and to create academic relationships with many countries and regions. It expects all areas of the university to advance knowledge and learning at the highest level and to convey the products of its efforts to the world.