Standout Papers

The cBio Cancer Genomics Portal: An Ope... 1993 2026 2004 2015 11.7k
  1. The cBio Cancer Genomics Portal: An Open Platform for Exploring Multidimensional Cancer Genomics Data (2012)
    Ethan Cerami, Jianjiong Gao et al. Cancer Discovery
  2. Integrative Analysis of Complex Cancer Genomics and Clinical Profiles Using the cBioPortal (2013)
    Jianjiong Gao, Bülent Arman Aksoy et al. Science Signaling
  3. The Cancer Genome Atlas Pan-Cancer analysis project (2013)
    John N. Weinstein, Jun Li et al. Nature Genetics
  4. Protein Structure Comparison by Alignment of Distance Matrices (1993)
    Liisa Holm, Chris Sander Journal of Molecular Biology
  5. Human MicroRNA Targets (2004)
    Bino John, Anton J. Enright et al. PLoS Biology
  6. MicroRNA targets in Drosophila (2003)
    Anton J. Enright, Bino John et al. Genome biology
  7. Prediction of Protein Secondary Structure at Better than 70% Accuracy (1993)
    Burkhard Rost, Chris Sander Journal of Molecular Biology
  8. The microRNA.org resource: targets and expression (2007)
    Doron Betel, Michael T. Wilson et al. Nucleic Acids Research
  9. Predicting the functional impact of protein mutations: application to cancer genomics (2011)
    Boris Reva, Yevgeniy Antipin et al. Nucleic Acids Research
  10. Precision microbiome reconstitution restores bile acid mediated resistance to Clostridium difficile (2014)
    Charlie G. Buffie, Vanni Bucci et al. Nature
  11. Comprehensive modeling of microRNA targets predicts functional non-conserved and non-canonical sites (2010)
    Doron Betel, Phaedra Agius et al. Genome biology
  12. Identification of Virus-Encoded MicroRNAs (2004)
    Sébastien Pfeffer, Mihaela Zavolan et al. Science
  13. Combining evolutionary information and neural networks to predict protein secondary structure (1994)
    Burkhard Rost, Chris Sander Proteins Structure Function and Bioinformatics
  14. Dali: a network tool for protein structure comparison (1995)
    Liisa Holm, Chris Sander Trends in Biochemical Sciences
  15. Mapping the Protein Universe (1996)
    Liisa Holm, Chris Sander Science
  16. Evaluating cell lines as tumour models by comparison of genomic profiles (2013)
    Silvia Domcke, Rileen Sinha et al. Nature Communications
  17. Direct-coupling analysis of residue coevolution captures native contacts across many protein families (2011)
    Faruck Morcos, Andrea Pagnani et al. Proceedings of the National Academy of Sciences
  18. Emerging landscape of oncogenic signatures across human cancers (2013)
    Giovanni Ciriello, Martin L. Miller et al. Nature Genetics
  19. Identification of microRNAs of the herpesvirus family (2005)
    Sébastien Pfeffer, Alain Sewer et al. Nature Methods
  20. Genomic and transcriptomic hallmarks of poorly differentiated and anaplastic thyroid cancers (2016)
    Iñigo Landa, Tihana Ibrahimpašić et al. Journal of Clinical Investigation
  21. The double cubic lattice method: Efficient approaches to numerical integration of surface area and volume and to dot surface contouring of molecular assemblies (1995)
    Frank Eisenhaber, Philip Lijnzaad et al. Journal of Computational Chemistry
  22. Protein 3D Structure Computed from Evolutionary Sequence Variation (2011)
    Debora S. Marks, Lucy J. Colwell et al. PLoS ONE
  23. Pathway Commons, a web resource for biological pathway data (2010)
    Ethan Cerami, Benjamin Groß et al. Nucleic Acids Research
  24. miR-122, a Mammalian Liver-Specific microRNA, is Processed from hcr mRNA and MayDownregulate the High Affinity Cationic Amino Acid Transporter CAT-1 (2004)
    Jinhong Chang, Émmanuelle Nicolas et al. RNA Biology
  25. An ATPase domain common to prokaryotic cell cycle proteins, sugar kinases, actin, and hsp70 heat shock proteins. (1992)
    Peer Bork, Chris Sander et al. Proceedings of the National Academy of Sciences
  26. Correlated mutations and residue contacts in proteins (1994)
    Ulrike Göbel, Chris Sander et al. Proteins Structure Function and Bioinformatics
  27. Enlarged representative set of protein structures (1994)
    Uwe Hobohm, Chris Sander Protein Science
  28. The Immunoglobulin Fold (1994)
    Peer Bork, Liisa Holm et al. Journal of Molecular Biology
  29. Transmembrane helices predicted at 95% accuracy (1995)
    Burkhard Rost, Chris Sander et al. Protein Science
  30. An Integrated Metabolic Atlas of Clear Cell Renal Cell Carcinoma (2016)
    A. Ari Hakimi, Ed Reznik et al. Cancer Cell
  31. The nuclear deubiquitinase BAP1 is commonly inactivated by somatic mutations and 3p21.1 losses in malignant pleural mesothelioma (2011)
    Matthew J. Bott, Marie Brevet et al. Nature Genetics
  32. Genome Sequencing Identifies a Basis for Everolimus Sensitivity (2012)
    Gopa Iyer, Aphrothiti J. Hanrahan et al. Science
  33. PredictProtein—an open resource for online prediction of protein structural and functional features (2014)
    Guy Yachdav, Edda Kloppmann et al. Nucleic Acids Research
  34. Mutual exclusivity analysis identifies oncogenic network modules (2011)
    Giovanni Ciriello, Ethan Cerami et al. Genome Research
  35. Cellular cofactors affecting hepatitis C virus infection and replication (2007)
    Glenn Randall, Maryline Panis et al. Proceedings of the National Academy of Sciences
  36. Mutation effects predicted from sequence co-variation (2017)
    Thomas A. Hopf, John Ingraham et al. Nature Biotechnology
  37. Ecological Modeling from Time-Series Inference: Insight into Dynamics and Stability of Intestinal Microbiota (2013)
    Richard R. Stein, Vanni Bucci et al. PLoS Computational Biology
  38. Protein design and variant prediction using autoregressive generative models (2021)
    Jung-Eun Shin, Adam J. Riesselman et al. Nature Communications
  39. Dictionary of immune responses to cytokines at single-cell resolution (2023)
    Ang Cui, Teddy Huang et al. Nature
  40. Machine learning for functional protein design (2024)
    Pascal Notin, Nathan Rollins et al. Nature Biotechnology

Immediate Impact

39 by Nobel laureates 50 from Science/Nature 128 standout
Sub-graph 1 of 19

Citing Papers

Accurate proteome-wide missense variant effect prediction with AlphaMissense
2023 StandoutScienceNobel
Peptide-binding specificity prediction using fine-tuned protein structure prediction networks
2023 StandoutNobel
20 intermediate papers

Works of Chris Sander being referenced

Pan-Cancer Analysis of Mutation Hotspots in Protein Domains
2015
A Specificity Map for the PDZ Domain Family
2008
and 10 more

Author Peers

Author Last Decade Papers Cites
Chris Sander 67938 25841 7310 13143 304 90.9k
Rakesh K. Jain 56025 27248 9882 34052 849 131.8k
Minoru Kanehisa 73697 11792 1805 5206 253 109.5k
Peer Bork 93864 9279 3468 6837 510 140.1k
Stuart L. Schreiber 65808 9195 2253 11126 589 90.4k
David Botstein 106977 22439 1949 20132 413 156.4k
Todd R. Golub 73850 27046 837 18530 227 109.1k
Patrick O. Brown 82551 24176 790 19771 266 117.1k
Douglas Hanahan 78402 35907 1994 43041 224 134.4k
Lewis C. Cantley 103801 29279 1965 27070 702 148.2k
Judah Folkman 62209 29198 686 24238 391 103.7k

All Works

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2026