BBS Faculty Member - Chris Sander

Chris Sander

Department of Cell Biology

CompBio Collaboratory at Harvard Medical School
210 Longwood Ave.
Armenise Building, Room 625B
Boston, MA 02115


Tel: 617-582-9717
Visit my lab page here.

The overall goal of our work is to solve biological problems using quantitative methods from bioinformatics, statistical physics, data sciences, statistics, computer science, and mathematics. We apply these computational methods to build predictive network models of molecular and cell-cell interactions, to support cancer precision medicine, and to make discoveries in structural and evolutionary biology.

Predictive network models: We are modeling intracellular signaling events (e.g., between proteins, nucleic acids, and metabolites) and cell-cell interactions to better understand what functionally changes in cancer and how to exploit vulnerabilities. In wet and dry laboratories, and with collaborators, we are gathering data from systematic perturbation experiments with rich observational readouts to derive quantitative and predictive models. We have a particular interest in identifying promising combination therapies for cancer to circumvent drug resistance.

Cancer precision medicine: We have played a key role in national and international cancer genome atlas projects by providing open-source bioinformatics tools for analysis. We collaborate closely with clinicians (primarily at the Dana-Farber Cancer Institute (DFCI) and Memorial Sloan Kettering) to apply bioinformatics analysis to cancer genomics. For example, by analyzing pan-cancer oncogenic signatures from around 10,000 patients, we are developing a tool to match patients to appropriate clinical trials based on shared occurrence of genomic alterations. We anticipate working with clinicians to design basket or match trials in the near future.

Structural and evolutionary biology: In collaboration with the Marks group in the Department of Systems Biology at Harvard Medical School (HMS), we are applying statistical physics methods to problems of evolutionary biology, structural biology, and cell biology. Since our first attempts at residue contact prediction by the analysis of correlated mutations in protein families in 1994, we have solved the problem of 3D fold prediction using information from next-generation sequencing. We are now generating evolutionarily constrained sequences in the laboratory, and further developing a quantitative theory relating biopolymer sequences to phenotypic consequences.

Outlook on goals, style of science, and collaborations: We generally focus on projects that could soon impact the real world. Working within our group and with collaborators, decisions are guided by the common goals of scientific progress, building supportive and constructive human relations, and helping individuals advance their careers. Within the community, we aim to promote creative ways of communicating scientific results and help reform the counterproductive journal publication system. There are many exciting collaborative opportunities that we look forward to exploring with laboratories in various departments at HMS. We plan to promote translational work bridging basic quantitative science and problems of human health, especially cancer, and build more collaborations between HMS and DFCI.

Last Update: 7/11/2017


For a complete listing of publications click here.



Ciriello G, Miller ML, Aksoy BA, Senbabaoglu Y, Schultz N, Sander C. Emerging landscape of oncogenic signatures across human cancers. Nat Genet. 2013 Sep 26;45(10):1127-1133. PMC4320046. 

Korkut A, Wang W, Demir E, Aksoy BA, Jing X, Molinelli EJ, Babur Ö, Bemis DL, Onur Sumer S, Solit DB, Pratilas CA, Sander C. Perturbation biology nominates upstream-downstream drug combinations in RAF inhibitor resistant melanoma cells. Elife. 2015 Aug 18;4.PMC4539601.

Marks DS, Colwell L, Sheridan R, Hopf T, Pagnani A, Zecchina R, Sander C. Protein 3D structure computed from evolutionary sequence variation. PLoS One. 2011;6(12):e28766. PMC3233603. 

Weinreb C, Riesselman AJ, Ingraham JB, Gross T, Sander C, Marks DS. 3D RNA and Functional Interactions from Evolutionary Couplings. Cell. 2016 May 5;165(4):963-75. PMC5024353.

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