Search

Your search keyword '"Narayan, Rajiv"' showing total 129 results
Start Over Author "Narayan, Rajiv"
129 results on '"Narayan, Rajiv"'

1. A Next Generation Connectivity Map: L1000 Platform and the First 1,000,000 Profiles

Author

Subramanian, Aravind, Narayan, Rajiv, Corsello, Steven M, Peck, David D, Natoli, Ted E, Lu, Xiaodong, Gould, Joshua, Davis, John F, Tubelli, Andrew A, Asiedu, Jacob K, Lahr, David L, Hirschman, Jodi E, Liu, Zihan, Donahue, Melanie, Julian, Bina, Khan, Mariya, Wadden, David, Smith, Ian C, Lam, Daniel, Liberzon, Arthur, Toder, Courtney, Bagul, Mukta, Orzechowski, Marek, Enache, Oana M, Piccioni, Federica, Johnson, Sarah A, Lyons, Nicholas J, Berger, Alice H, Shamji, Alykhan F, Brooks, Angela N, Vrcic, Anita, Flynn, Corey, Rosains, Jacqueline, Takeda, David Y, Hu, Roger, Davison, Desiree, Lamb, Justin, Ardlie, Kristin, Hogstrom, Larson, Greenside, Peyton, Gray, Nathanael S, Clemons, Paul A, Silver, Serena, Wu, Xiaoyun, Zhao, Wen-Ning, Read-Button, Willis, Wu, Xiaohua, Haggarty, Stephen J, Ronco, Lucienne V, Boehm, Jesse S, Schreiber, Stuart L, Doench, John G, Bittker, Joshua A, Root, David E, Wong, Bang, and Golub, Todd R

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Aetiology, 2.1 Biological and endogenous factors, Cell Line, Tumor, Drug Resistance, Neoplasm, Gene Expression Profiling, Humans, Neoplasms, Organ Specificity, Pharmaceutical Preparations, Sequence Analysis, RNA, Small Molecule Libraries, Functional genomics, chemical biology, gene expression profiling, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

We previously piloted the concept of a Connectivity Map (CMap), whereby genes, drugs, and disease states are connected by virtue of common gene-expression signatures. Here, we report more than a 1,000-fold scale-up of the CMap as part of the NIH LINCS Consortium, made possible by a new, low-cost, high-throughput reduced representation expression profiling method that we term L1000. We show that L1000 is highly reproducible, comparable to RNA sequencing, and suitable for computational inference of the expression levels of 81% of non-measured transcripts. We further show that the expanded CMap can be used to discover mechanism of action of small molecules, functionally annotate genetic variants of disease genes, and inform clinical trials. The 1.3 million L1000 profiles described here, as well as tools for their analysis, are available at https://clue.io.

Published
2017

2. High-throughput Phenotyping of Lung Cancer Somatic Mutations

Author

Berger, Alice H, Brooks, Angela N, Wu, Xiaoyun, Shrestha, Yashaswi, Chouinard, Candace, Piccioni, Federica, Bagul, Mukta, Kamburov, Atanas, Imielinski, Marcin, Hogstrom, Larson, Zhu, Cong, Yang, Xiaoping, Pantel, Sasha, Sakai, Ryo, Watson, Jacqueline, Kaplan, Nathan, Campbell, Joshua D, Singh, Shantanu, Root, David E, Narayan, Rajiv, Natoli, Ted, Lahr, David L, Tirosh, Itay, Tamayo, Pablo, Getz, Gad, Wong, Bang, Doench, John, Subramanian, Aravind, Golub, Todd R, Meyerson, Matthew, and Boehm, Jesse S

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Bioinformatics and Computational Biology, Genetics, Clinical Sciences, Oncology and Carcinogenesis, Lung, Biotechnology, Lung Cancer, Human Genome, Cancer, Aetiology, 2.1 Biological and endogenous factors, Adenocarcinoma, Adenocarcinoma of Lung, Animals, Cell Line, Tumor, Gene Expression Profiling, Heterografts, High-Throughput Nucleotide Sequencing, Humans, Lung Neoplasms, Mice, Mutation, Oncogenes, Phenotype, Neurosciences, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

Recent genome sequencing efforts have identified millions of somatic mutations in cancer. However, the functional impact of most variants is poorly understood. Here we characterize 194 somatic mutations identified in primary lung adenocarcinomas. We present an expression-based variant-impact phenotyping (eVIP) method that uses gene expression changes to distinguish impactful from neutral somatic mutations. eVIP identified 69% of mutations analyzed as impactful and 31% as functionally neutral. A subset of the impactful mutations induces xenograft tumor formation in mice and/or confers resistance to cellular EGFR inhibition. Among these impactful variants are rare somatic, clinically actionable variants including EGFR S645C, ARAF S214C and S214F, ERBB2 S418T, and multiple BRAF variants, demonstrating that rare mutations can be functionally important in cancer.

Published
2016

3. Discovering the anticancer potential of non-oncology drugs by systematic viability profiling

Author

Corsello, Steven M., Nagari, Rohith T., Spangler, Ryan D., Rossen, Jordan, Kocak, Mustafa, Bryan, Jordan G., Humeidi, Ranad, Peck, David, Wu, Xiaoyun, Tang, Andrew A., Wang, Vickie M., Bender, Samantha A., Lemire, Evan, Narayan, Rajiv, Montgomery, Philip, Ben-David, Uri, Garvie, Colin W., Chen, Yejia, Rees, Matthew G., Lyons, Nicholas J., McFarland, James M., Wong, Bang T., Wang, Li, Dumont, Nancy, O’Hearn, Patrick J., Stefan, Eric, Doench, John G., Harrington, Caitlin N., Greulich, Heidi, Meyerson, Matthew, Vazquez, Francisca, Subramanian, Aravind, Roth, Jennifer A., Bittker, Joshua A., Boehm, Jesse S., Mader, Christopher C., Tsherniak, Aviad, and Golub, Todd R.

Published
2020
Full Text
View/download PDF

6. GeNets: a unified web platform for network-based genomic analyses

Author

Li, Taibo, Kim, April, Rosenbluh, Joseph, Horn, Heiko, Greenfeld, Liraz, An, David, Zimmer, Andrew, Liberzon, Arthur, Bistline, Jon, Natoli, Ted, Li, Yang, Tsherniak, Aviad, Narayan, Rajiv, Subramanian, Aravind, Liefeld, Ted, Wong, Bang, Thompson, Dawn, Calvo, Sarah, Carr, Steve, Boehm, Jesse, Jaffe, Jake, Mesirov, Jill, Hacohen, Nir, Regev, Aviv, and Lage, Kasper

Published
2018
Full Text
View/download PDF

7. Abstract 3449: Development of MRT-2359, an orally bioavailable GSPT1 molecular glue degrader, for the treatment of lung cancers with MYC-induced translational addiction

Author

Gavory, Gerald, primary, Ghandi, Mahmoud, additional, d’Alessandro, Anne-Cecile, additional, Bonenfant, Debora, additional, Cabanski, Maciej, additional, Cantagallo, Lisa, additional, Chicas, Agustin, additional, Chen, Qian, additional, Diesslin, Anna, additional, King, Christopher, additional, Massafra, Vittoria, additional, Narayan, Rajiv, additional, Osmont, Arnaud, additional, Peck, Dave, additional, Ortiz, Carolina Perdomo, additional, Schillo, Martin, additional, Singh, Ambika, additional, Tiedt, Ralph, additional, Tortoioli, Simone, additional, Buonamici, Silvia, additional, Janku, Filip, additional, Wallace, Owen, additional, and Fasching, Bernhard, additional

Published
2023
Full Text
View/download PDF

8. Toward performance-diverse small-molecule libraries for cell-based phenotypic screening using multiplexed high-dimensional profiling

Author

Wawer, Mathias J., Li, Kejie, Gustafsdottir, Sigrun M., Ljos, Vebjorn, Bodycombe, Nicole E., Marton, Melissa A., Sokolnicki, Katherine L., Bray, Mark-Anthony, Kemp, Melissa M., Winchester, Ellen, Taylor, Bradley, Grant, George B., Hon, C. Suk-Yee, Duvall, Jeremy R., Wilson, J. Anthony, Bittker, Joshua A., Dančík, Vlado, Narayan, Rajiv, Subramanian, Aravind, Winckler, Wendy, Golub, Todd R., Carpenter, Anne E., Shamji, Alykhan F., Schreiber, Stuart L., and Clemons, Paul A.

Published
2014

10. Abstract 3929: Identification of MRT-2359 a potent, selective and orally bioavailable GSPT1-directed molecular glue degrader (MGD) for the treatment of cancers with Myc-induced translational addiction

Author

Gavory, Gerald, primary, Ghandi, Mahmoud, additional, d’Alessandro, Anne-Cecile, additional, Bonenfant, Debora, additional, Chicas, Agustin, additional, Delobel, Frederic, additional, Demarco, Brad, additional, Flohr, Alexander, additional, King, Christopher, additional, Laine, Anne-Laure, additional, Massafra, Vittoria, additional, Narayan, Rajiv, additional, Osmont, Arnaud, additional, Ottaviani, Giorgio, additional, Peck, Dave, additional, Pessa, Sarah, additional, Rubin, Nooreen, additional, Ryckmans, Thomas, additional, Schillo, Martin, additional, Singh, Ambika, additional, Tortoioli, Simone, additional, Vigil, Dominico, additional, Zarayskiy, Vladislav, additional, Castle, John, additional, Janku, Filip, additional, Wallace, Owen, additional, Buonamici, Silvia, additional, and Fasching, Bernhard, additional

Published
2022
Full Text
View/download PDF

12. A melanocyte lineage program confers resistance to MAP kinase pathway inhibition

Author

Johannessen, Cory M., Johnson, Laura A., Piccioni, Federica, Townes, Aisha, Frederick, Dennie T., Donahue, Melanie K., Narayan, Rajiv, Flaherty, Keith T., Wargo, Jennifer A., Root, David E., and Garraway, Levi A.

Subjects
Cancer -- Genetic aspects, Genetic transcription -- Research, Melanoma -- Genetic aspects, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Malignant melanomas harbouring point mutations (Val600Glu) in the serine/threonine-protein kinase BRAF (BRAF(V600E)) depend on RAF-MEK-ERK signalling for tumour cell growth (1). RAF and MEK inhibitors show remarkable clinical efficacy in BRAF(V600E) melanoma (2,3); however, resistance to these agents remains a formidable challenge (2,4). Global characterization of resistance mechanisms may inform the development of more effective therapeutic combinations. Here we carried out systematic gain-of-function resistance studies by expressing more than 15,500 genes individually in a BRAF(V600E) melanoma cell line treated with RAF, MEK, ERK or combined RAF-MEK inhibitors. These studies revealed a cyclic-AMP-dependent melanocytic signalling network not previously associated with drug resistance, including G-protein-coupled receptors, adenyl cyclase, protein kinase A and cAMP response element binding protein (CREB). Preliminary analysis of biopsies from BRAF(V600E) melanoma patients revealed that phosphorylated (active) CREB was suppressed by RAF-MEK inhibition but restored in relapsing tumours. Expression of transcription factors activated downstream of MAP kinase and cAMP pathways also conferred resistance, including c-FOS, NR4A1, NR4A2 and MITF. Combined treatment with MAPK-pathway and histone-deacetylase inhibitors suppressed MITF expression and cAMP-mediated resistance. Collectively, these data suggest that oncogenic dysregulation of a melanocyte lineage dependency can cause resistance to RAF-MEK-ERK inhibition, which may be overcome by combining signalling- and chromatin-directed therapeutics., To identify genes whose upregulation confers resistance to MAPK pathway inhibition, we expressed 15,906 human open reading frames (ORFs) (5) (Extended Data Fig. 1) in a BRAF(V600E)-mutant, MAPK-pathway-dependent melanoma cell [...]

Published
2013

13. Niche-based screening identifies small-molecule inhibitors of leukemia stem cells

Author

Hartwell, Kimberly A, Miller, Peter G, Mukherjee, Siddhartha, Kahn, Alissa R, Stewart, Alison L, Logan, David J, Negri, Joseph M, Duvet, Mildred, Järås, Marcus, Puram, Rishi, Dancik, Vlado, Al-Shahrour, Fatima, Kindler, Thomas, Tothova, Zuzana, Chattopadhyay, Shrikanta, Hasaka, Thomas, Narayan, Rajiv, Dai, Mingji, Huang, Christina, Shterental, Sebastian, Chu, Lisa P, Haydu, J Erika, Shieh, Jae Hung, Steensma, David P, Munoz, Benito, Bittker, Joshua A, Shamji, Alykhan F, Clemons, Paul A, Tolliday, Nicola J, Carpenter, Anne E, Gilliland, D Gary, Stern, Andrew M, Moore, Malcolm A S, Scadden, David T, Schreiber, Stuart L, Ebert, Benjamin L, and Golub, Todd R

Published
2013
Full Text
View/download PDF

14. Spatial unmasking of birdsong in zebra finches (Taeniopygia guttata) and Budgerigars (Melopsittacus undulatus)

Author

Dent, Micheal L., McClaine, Elizabeth M., Best, Virginia, Ozmeral, Erol, Narayan, Rajiv, Gallun, Frederick J., Sen, Kamal, and Shinn-Cunningham, Barbara G.

Subjects
Zebra finch -- Psychological aspects, Attention -- Research, Budgerigars -- Psychological aspects, Operant conditioning -- Research, Psychology and mental health
Abstract

Budgerigars and zebra finches were tested, using operant conditioning techniques, on their ability to identify a zebra finch song in the presence of a background masker emitted from either the same or a different location as the signal. Identification thresholds were obtained for three masker types differing in their spectrotemporal characteristics (noise, modulated noise, and a song chorus). Both bird species exhibited similar amounts of spatial unmasking across the three masker types. The amount of unmasking was greater when the masker was played continuously compared to when the target and masker were presented simultaneously. These results suggest that spatial factors are important for birds in the identification of natural signals in noisy environments. Keywords: cocktail party effect, cocktail party problem, spatial unmasking, birds, binaural hearing DOI: 10.1037/a0016898

Published
2009

15. Improving deconvolution methods in biology through open innovation competitions: an application to the connectivity map

Author

Blasco, Andrea, primary, Natoli, Ted, additional, Endres, Michael G, additional, Sergeev, Rinat A, additional, Randazzo, Steven, additional, Paik, Jin H, additional, Macaluso, N J Maximilian, additional, Narayan, Rajiv, additional, Lu, Xiaodong, additional, Peck, David, additional, Lakhani, Karim R, additional, and Subramanian, Aravind, additional

Published
2021
Full Text
View/download PDF

17. Improving Deconvolution Methods in Biology through Open Innovation Competitions: An Application to the Connectivity Map

Author

Blasco, Andrea, primary, Natoli, Ted, additional, Endres, Michael G., additional, Sergeev, Rinat A., additional, Randazzo, Steven, additional, Paik, Jin H., additional, Maximilian Macaluso, N. J., additional, Narayan, Rajiv, additional, Lu, Xiaodong, additional, Peck, David, additional, Lakhani, Karim R., additional, and Subramanian, Aravind, additional

Published
2020
Full Text
View/download PDF

18. Assessment of network module identification across complex diseases

Author

Choobdar, Sarvenaz, Ahsen, Mehmet E, Crawford, Jake, Tomasoni, Mattia, Fang, Tao, Lamparter, David, Lin, Junyuan, Hescott, Benjamin, Hu, Xiaozhe, Mercer, Johnathan, Natoli, Ted, Narayan, Rajiv, von Mering, C, Subramanian, Aravind, Zhang, Jitao D, Stolovitzky, Gustavo, Kutalik, Zoltán, Lage, Kasper, Slonim, Donna K, Saez-Rodriguez, Julio, Cowen, Lenore J, Bergmann, Sven, Marbach, Daniel, University of Zurich, and Bergmann, Sven

Subjects
UFSP13-7 Evolution in Action: From Genomes to Ecosystems, 1307 Cell Biology, 1303 Biochemistry, 1305 Biotechnology, 1312 Molecular Biology, 570 Life sciences, biology, 10124 Institute of Molecular Life Sciences
Published
2019

20. Open Community Challenge Reveals Molecular Network Modules with Key Roles in Diseases

Author

Choobdar, Sarvenaz, Ahsen, Mehmet E., Crawford, Jake, Tomasoni, Mattia, Fang, Tao, Lamparter, David, Lin, Junyuan, Hescott, Benjamin, Hu, Xiaozhe, Mercer, Johnathan, Natoli, Ted, Narayan, Rajiv, Subramanian, Aravind, Zhang, Jitao D., Stolovitzky, Gustavo, Kutalik, Zoltán, Lage, Kasper, Slonim, Donna K., Saez-Rodriguez, Julio, Cowen, Lenore J., Bergmann, Sven, Marbach, Daniel, Aicheler, Fabian, Amoroso, Nicola, Arenas, Alex, Azhagesan, Karthik, Baker, Aaron, Banf, Michael, Batzoglou, Serafim, Baudot, Anaïs, Bellotti, Roberto, Boroevich, Keith A., Brun, Christine, Cai, Stanley, Caldera, Michael, Calderone, Alberto, Cesareni, Gianni, Chen, Weiqi, Chichester, Christine, Cowen, Lenore, Cui, Hongzhu, Dao, Phuong, Domenico, Manlio De, Dhroso, Andi, Didier, Gilles, Divine, Mathew, Sol, Antonio del, Feng, Xuyang, Flores-Canales, Jose C., Fortunato, Santo, Gitter, Anthony, Gorska, Anna, Guan, Yuanfang, Guénoche, Alain, Gómez, Sergio, Hamza, Hatem, Hartmann, András, He, Shan, Heijs, Anton, Heinrich, Julian, Hu, Ying, Huang, Xiaoqing, Hughitt, V. Keith, Jeon, Minji, Jeub, Lucas, Johnson, Nathan, Joo, Keehyoung, Joung, InSuk, Jung, Sascha, Kalko, Susana G., Kamola, Piotr J., Kang, Jaewoo, Kaveelerdpotjana, Benjapun, Kim, Minjun, Kim, Yoo-Ah, Kohlbacher, Oliver, Korkin, Dmitry, Krzysztof, Kiryluk, Kunji, Khalid, Kutalik, Zoltàn, Lang-Brown, Sean, Le, Thuc Duy, Lee, Jooyoung, Lee, Sunwon, Lee, Juyong, Li, Dong, Li, Jiuyong, Liu, Lin, Loizou, Antonis, Luo, Zhenhua, Lysenko, Artem, Ma, Tianle, Mall, Raghvendra, Mattia, Tomasoni, Medvedovic, Mario, Menche, Jörg, Micarelli, Elisa, Monaco, Alfonso, Müller, Felix, Narykov, Oleksandr, Norman, Thea, Park, Sungjoon, Perfetto, Livia, Perrin, Dimitri, Pirrò, Stefano, Przytycka, Teresa M., Qian, Xiaoning, Raman, Karthik, Ramazzotti, Daniele, Ramsahai, Emilie, Ravindran, Balaraman, Rennert, Philip, Schärfe, Charlotta, Sharan, Roded, Shi, Ning, Shin, Wonho, Shu, Hai, Sinha, Himanshu, Spinelli, Lionel, Srinivasan, Suhas, Suver, Christine, Szklarczyk, Damian, Tangaro, Sabina, Thiagarajan, Suresh, Tichit, Laurent, Tiede, Thorsten, Tripathi, Beethika, Tsherniak, Aviad, Tsunoda, Tatsuhiko, Türei, Dénes, Ullah, Ehsan, Vahedi, Golnaz, Valdeolivas, Alberto, Vivek, Jayaswal, Mering, Christian von, Waagmeester, Andra, Wang, Bo, Wang, Yijie, Weir, Barbara A., White, Shana, Winkler, Sebastian, Xu, Ke, Xu, Taosheng, Yan, Chunhua, Yang, Liuqing, Yu, Kaixian, Yu, Xiangtian, Zaffaroni, Gaia, Zaslavskiy, Mikhail, Zeng, Tao, Zhang, Lu, Zhang, Weijia, Zhang, Lixia, Zhang, Xinyu, Zhang, Junpeng, Zhou, Xin, Zhou, Jiarui, Zhu, Hongtu, Zhu, Junjie, and Zuccon, Guido

Subjects
Identification methods, Molecular network, Computer science, Association (object-oriented programming), Key (cryptography), Open community, Genome-wide association study, Identification (biology), Computational biology, Disease
Abstract

Identification of modules in molecular networks is at the core of many current analysis methods in biomedical research. However, how well different approaches identify disease-relevant modules in different types of gene and protein networks remains poorly understood. We launched the “Disease Module Identification DREAM Challenge”, an open competition to comprehensively assess module identification methods across diverse protein-protein interaction, signaling, gene co-expression, homology, and cancer-gene networks. Predicted network modules were tested for association with complex traits and diseases using a unique collection of 180 genome-wide association studies (GWAS). Our critical assessment of 75 contributed module identification methods reveals novel top-performing algorithms, which recover complementary trait-associated modules. We find that most of these modules correspond to core disease-relevant pathways, which often comprise therapeutic targets and correctly prioritize candidate disease genes. This community challenge establishes benchmarks, tools and guidelines for molecular network analysis to study human disease biology (https://synapse.org/modulechallenge).

Published
2018
Full Text
View/download PDF

21. Advancing computational biology and bioinformatics research through open innovation competitions

Author

Blasco, Andrea, primary, Endres, Michael G., additional, Sergeev, Rinat A., additional, Jonchhe, Anup, additional, Macaluso, N. J. Maximilian, additional, Narayan, Rajiv, additional, Natoli, Ted, additional, Paik, Jin H., additional, Briney, Bryan, additional, Wu, Chunlei, additional, Su, Andrew I., additional, Subramanian, Aravind, additional, and Lakhani, Karim R., additional

Published
2019
Full Text
View/download PDF

22. Non-oncology drugs are a source of previously unappreciated anti-cancer activity

Author

Corsello, Steven M., primary, Nagari, Rohith T., additional, Spangler, Ryan D., additional, Rossen, Jordan, additional, Kocak, Mustafa, additional, Bryan, Jordan G., additional, Humeidi, Ranad, additional, Peck, David, additional, Wu, Xiaoyun, additional, Tang, Andrew A., additional, Wang, Vickie M., additional, Bender, Samantha A., additional, Lemire, Evan, additional, Narayan, Rajiv, additional, Montgomery, Philip, additional, Ben-David, Uri, additional, Chen, Yejia, additional, Rees, Matthew G., additional, Lyons, Nicholas J., additional, McFarland, James M., additional, Wong, Bang T., additional, Wang, Li, additional, Dumont, Nancy, additional, O’Hearn, Patrick J., additional, Stefan, Eric, additional, Doench, John G., additional, Greulich, Heidi, additional, Meyerson, Matthew, additional, Vazquez, Francisca, additional, Subramanian, Aravind, additional, Roth, Jennifer A., additional, Bittker, Joshua A., additional, Boehm, Jesse S., additional, Mader, Christopher C., additional, Tsherniak, Aviad, additional, and Golub, Todd R., additional

Published
2019
Full Text
View/download PDF

23. GeNets: a unified web platform for network-based genomic analyses

Author

Massachusetts Institute of Technology. Department of Biology, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Li, Taibo, Regev, Aviv, Kim, April, Rosenbluh, Joseph, Horn, Heiko, Greenfeld, Liraz, An, David, Zimmer, Andrew, Liberzon, Arthur, Bistline, Jon, Natoli, Ted, Li, Yang, Tsherniak, Aviad, Narayan, Rajiv, Subramanian, Aravind, Liefeld, Ted, Wong, Bang, Thompson, Dawn, Calvo, Sarah, Carr, Steve, Boehm, Jesse, Jaffe, Jake, Mesirov, Jill, Hacohen, Nir, Lage, Kasper, Massachusetts Institute of Technology. Department of Biology, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Li, Taibo, Regev, Aviv, Kim, April, Rosenbluh, Joseph, Horn, Heiko, Greenfeld, Liraz, An, David, Zimmer, Andrew, Liberzon, Arthur, Bistline, Jon, Natoli, Ted, Li, Yang, Tsherniak, Aviad, Narayan, Rajiv, Subramanian, Aravind, Liefeld, Ted, Wong, Bang, Thompson, Dawn, Calvo, Sarah, Carr, Steve, Boehm, Jesse, Jaffe, Jake, Mesirov, Jill, Hacohen, Nir, and Lage, Kasper

Abstract

Functional genomics networks are widely used to identify unexpected pathway relationships in large genomic datasets. However, it is challenging to compare the signal-to-noise ratios of different networks and to identify the optimal network with which to interpret a particular genetic dataset. We present GeNets, a platform in which users can train a machine-learning model (Quack) to carry out these comparisons and execute, store, and share analyses of genetic and RNA-sequencing datasets.

Published
2018

25. GeNets: A unified web platform for network-based analyses of genomic data

Author

Li, Taibo, primary, Kim, April, additional, Rosenbluh, Joseph, additional, Horn, Heiko, additional, Greenfeld, Liraz, additional, An, David, additional, Zimmer, Andrew, additional, Liberzon, Arthur, additional, Bistline, Jon, additional, Natoli, Ted, additional, Li, Yang, additional, Tsherniak, Aviad, additional, Narayan, Rajiv, additional, Subramanian, Aravind, additional, Liefeld, Ted, additional, Wong, Bang, additional, Thompson, Dawn, additional, Calvo, Sarah, additional, Carr, Steve, additional, Boehm, Jesse, additional, Jaffe, Jake, additional, Mesirov, Jill, additional, Hacohen, Nir, additional, Regev, Aviv, additional, and Lage, Kasper, additional

Published
2018
Full Text
View/download PDF

26. Open Community Challenge Reveals Molecular Network Modules with Key Roles in Diseases

Author

Choobdar, Sarvenaz, primary, Ahsen, Mehmet, additional, Crawford, Jake, additional, Tomasoni, Mattia, additional, Lamparter, David, additional, Lin, Junyuan, additional, Hescott, Benjamin, additional, Hu, Xiaozhe, additional, Mercer, Jonathan, additional, Natoli, Ted, additional, Narayan, Rajiv, additional, Consortium, DREAM Module Identification Challen, additional, Subramanian, Aravind, additional, Stolovitzky, Gustavo, additional, Kutalik, Zolttn, additional, Lage, Kasper, additional, Slonim, Donna, additional, Saez-Rodriguez, Julio, additional, Cowen, Lenore J., additional, Bergmann, Sven, additional, and Marbach, Daniel, additional

Published
2018
Full Text
View/download PDF

27. High-throughput Phenotyping of Lung Cancer Somatic Mutations

Author

Berger, Alice H., primary, Brooks, Angela N., additional, Wu, Xiaoyun, additional, Shrestha, Yashaswi, additional, Chouinard, Candace, additional, Piccioni, Federica, additional, Bagul, Mukta, additional, Kamburov, Atanas, additional, Imielinski, Marcin, additional, Hogstrom, Larson, additional, Zhu, Cong, additional, Yang, Xiaoping, additional, Pantel, Sasha, additional, Sakai, Ryo, additional, Watson, Jacqueline, additional, Kaplan, Nathan, additional, Campbell, Joshua D., additional, Singh, Shantanu, additional, Root, David E., additional, Narayan, Rajiv, additional, Natoli, Ted, additional, Lahr, David L., additional, Tirosh, Itay, additional, Tamayo, Pablo, additional, Getz, Gad, additional, Wong, Bang, additional, Doench, John, additional, Subramanian, Aravind, additional, Golub, Todd R., additional, Meyerson, Matthew, additional, and Boehm, Jesse S., additional

Published
2017
Full Text
View/download PDF

30. A Next Generation Connectivity Map: L1000 Platform And The First 1,000,000 Profiles

Author

Subramanian, Aravind, primary, Narayan, Rajiv, additional, Corsello, Steven M., additional, Peck, David D., additional, Natoli, Ted E., additional, Lu, Xiaodong, additional, Gould, Joshua, additional, Davis, John F., additional, Tubelli, Andrew A., additional, Asiedu, Jacob K., additional, Lahr, David L., additional, Hirschman, Jodi E., additional, Liu, Zihan, additional, Donahue, Melanie, additional, Julian, Bina, additional, Khan, Mariya, additional, Wadden, David, additional, Smith, Ian, additional, Lam, Daniel, additional, Liberzon, Arthur, additional, Toder, Courtney, additional, Bagul, Mukta, additional, Orzechowski, Marek, additional, Enache, Oana M., additional, Piccioni, Federica, additional, Berger, Alice H., additional, Shamji, Alykhan, additional, Brooks, Angela N., additional, Vrcic, Anita, additional, Flynn, Corey, additional, Rosains, Jacqueline, additional, Takeda, David, additional, Davison, Desiree, additional, Lamb, Justin, additional, Ardlie, Kristin, additional, Hogstrom, Larson, additional, Gray, Nathanael S., additional, Clemons, Paul A., additional, Silver, Serena, additional, Wu, Xiaoyun, additional, Zhao, Wen-Ning, additional, Read-Button, Willis, additional, Wu, Xiaohua, additional, Haggarty, Stephen J., additional, Ronco, Lucienne V., additional, Boehm, Jesse S., additional, Schreiber, Stuart L., additional, Doench, John G., additional, Bittker, Joshua A., additional, Root, David E., additional, Wong, Bang, additional, and Golub, Todd R., additional

Published
2017
Full Text
View/download PDF

31. The Drug Repurposing Hub: a next-generation drug library and information resource

Author

Corsello, Steven M, primary, Bittker, Joshua A, additional, Liu, Zihan, additional, Gould, Joshua, additional, McCarren, Patrick, additional, Hirschman, Jodi E, additional, Johnston, Stephen E, additional, Vrcic, Anita, additional, Wong, Bang, additional, Khan, Mariya, additional, Asiedu, Jacob, additional, Narayan, Rajiv, additional, Mader, Christopher C, additional, Subramanian, Aravind, additional, and Golub, Todd R, additional

Published
2017
Full Text
View/download PDF

33. Abstract 4368: High-throughput phenotyping of lung cancer somatic mutations

Author

Berger, Alice H., primary, Brooks, Angela N., additional, Wu, Xiaoyun, additional, Shrestha, Yashaswi, additional, Chouinard, Candace, additional, Piccioni, Federica, additional, Bagul, Mukta, additional, Kamburov, Atanas, additional, Imielinski, Marcin, additional, Hogstrom, Larson, additional, Zhu, Cong, additional, Yang, Xiaoping, additional, Pantel, Sasha, additional, Sakai, Ryo, additional, Kaplan, Nathan, additional, Root, David, additional, Narayan, Rajiv, additional, Natoli, Ted, additional, Lahr, David, additional, Tirosh, Itay, additional, Tamayo, Pablo, additional, Getz, Gad, additional, Wong, Bang, additional, Doench, John, additional, Subramanian, Aravind, additional, Golub, Todd R., additional, Meyerson, Matthew, additional, and Boehm, Jesse S., additional

Published
2016
Full Text
View/download PDF

35. Tight Coordination of Protein Translation and Heat Shock Factor 1 Activation Supports the Anabolic Malignant State

Author

Massachusetts Institute of Technology. Department of Biological Engineering, Massachusetts Institute of Technology. Department of Biology, Koch Institute for Integrative Cancer Research at MIT, Tang, Yun-chi, Koeva, Martina I., Amon, Angelika B., Lindquist, Susan, Santagata, S., Mendillo, Marc L., Subramanian, A., Perley, C. C., Roche, S. P., Wong, B., Narayan, Rajiv, Kwon, H., Golub, Todd R., Porco, J. A., Whitesell, L., Tang, Yun-Chi, Koeva, Martina I, Amon, Angelika B, Massachusetts Institute of Technology. Department of Biological Engineering, Massachusetts Institute of Technology. Department of Biology, Koch Institute for Integrative Cancer Research at MIT, Tang, Yun-chi, Koeva, Martina I., Amon, Angelika B., Lindquist, Susan, Santagata, S., Mendillo, Marc L., Subramanian, A., Perley, C. C., Roche, S. P., Wong, B., Narayan, Rajiv, Kwon, H., Golub, Todd R., Porco, J. A., Whitesell, L., Tang, Yun-Chi, Koeva, Martina I, and Amon, Angelika B

Abstract

The ribosome is centrally situated to sense metabolic states, but whether its activity, in turn, coherently rewires transcriptional responses is unknown. Here, through integrated chemical-genetic analyses, we found that a dominant transcriptional effect of blocking protein translation in cancer cells was inactivation of heat shock factor 1 (HSF1), a multifaceted transcriptional regulator of the heat-shock response and many other cellular processes essential for anabolic metabolism, cellular proliferation, and tumorigenesis. These analyses linked translational flux to the regulation of HSF1 transcriptional activity and to the modulation of energy metabolism. Targeting this link with translation initiation inhibitors such as rocaglates deprived cancer cells of their energy and chaperone armamentarium and selectively impaired the proliferation of both malignant and premalignant cells with early-stage oncogenic lesions., Kathy and Curt Marble Cancer Research Fund

Published
2015

37. Tight Coordination of Protein Translation and HSF1 Activation Supports the Anabolic Malignant State

Author

Santagata, S., Mendillo, Marc L., Subramanian, A., Perley, C. C., Roche, S. P., Wong, B., Narayan, Rajiv, Kwon, H., Golub, Todd R., Porco, J. A., Whitesell, L., Lindquist, Susan, Tang, Yun-Chi, Koeva, Martina I, Amon, Angelika B, Massachusetts Institute of Technology. Department of Biological Engineering, Massachusetts Institute of Technology. Department of Biology, Koch Institute for Integrative Cancer Research at MIT, Tang, Yun-chi, Koeva, Martina I., Amon, Angelika B., and Lindquist, Susan

Abstract

The ribosome is centrally situated to sense metabolic states, but whether its activity, in turn, coherently rewires transcriptional responses is unknown. Here, through integrated chemical-genetic analyses, we found that a dominant transcriptional effect of blocking protein translation in cancer cells was inactivation of heat shock factor 1 (HSF1), a multifaceted transcriptional regulator of the heat-shock response and many other cellular processes essential for anabolic metabolism, cellular proliferation, and tumorigenesis. These analyses linked translational flux to the regulation of HSF1 transcriptional activity and to the modulation of energy metabolism. Targeting this link with translation initiation inhibitors such as rocaglates deprived cancer cells of their energy and chaperone armamentarium and selectively impaired the proliferation of both malignant and premalignant cells with early-stage oncogenic lesions., Kathy and Curt Marble Cancer Research Fund

Published
2013

40. The GCTx format and cmap{Py, R, M, J} packages: resources for optimized storage and integrated traversal of annotated dense matrices.

Author

Enache, Oana M, Lahr, David L, Natoli, Ted E, Litichevskiy, Lev, Wadden, David, Flynn, Corey, Gould, Joshua, Asiedu, Jacob K, Narayan, Rajiv, and Subramanian, Aravind

Subjects
GENETIC databases, GENERALIZABILITY theory, METADATA, SOFTWARE libraries (Computer programming), ALGORITHMS
Abstract

Motivation Facilitated by technological improvements, pharmacologic and genetic perturbational datasets have grown in recent years to include millions of experiments. Sharing and publicly distributing these diverse data creates many opportunities for discovery, but in recent years the unprecedented size of data generated and its complex associated metadata have also created data storage and integration challenges. Results We present the GCTx file format and a suite of open-source packages for the efficient storage, serialization and analysis of dense two-dimensional matrices. We have extensively used the format in the Connectivity Map to assemble and share massive datasets currently comprising 1.3 million experiments, and we anticipate that the format's generalizability, paired with code libraries that we provide, will lower barriers for integrated cross-assay analysis and algorithm development. Availability and implementation Software packages (available in Python, R, Matlab and Java) are freely available at https://github.com/cmap. Additional instructions, tutorials and datasets are available at clue.io/code. Supplementary information Supplementary data are available at Bioinformatics online. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

42. Gene expression inference with deep learning.

Author

Yifei Chen, Yi Li, Narayan, Rajiv, Subramanian, Aravind, and Xiaohui Xie

Subjects
GENE expression, REGRESSION analysis, GENES, MOLECULAR genetics, GENE expression profiling
Abstract

Motivation: Large-scale gene expression profiling has been widely used to characterize cellular states in response to various disease conditions, genetic perturbations, etc. Although the cost of whole-genome expression profiles has been dropping steadily, generating a compendium of expression profiling over thousands of samples is still very expensive. Recognizing that gene expressions are often highly correlated, researchers from the NIH LINCS program have developed a cost-effective strategy of profiling only ~1000 carefully selected landmark genes and relying on computational methods to infer the expression of remaining target genes. However, the computational approach adopted by the LINCS program is currently based on linear regression (LR), limiting its accuracy since it does not capture complex nonlinear relationship between expressions of genes. Results: We present a deep learning method (abbreviated as D-GEX) to infer the expression of target genes from the expression of landmark genes. We used the microarray-based Gene Expression Omnibus dataset, consisting of 111K expression profiles, to train our model and compare its performance to those from other methods. In terms of mean absolute error averaged across all genes, deep learning significantly outperforms LR with 15.33% relative improvement. A gene-wise comparative analysis shows that deep learning achieves lower error than LR in 99.97% of the target genes. We also tested the performance of our learned model on an independent RNA-Seq-based GTEx dataset, which consists of 2921 expression profiles. Deep learning still outperforms LR with 6.57% relative improvement, and achieves lower error in 81.31% of the target genes. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

43. Niche-Based Screening Reveals Leukemia Stem Cell Specific Therapeutics

Author

Hartwell, Kimberly A., primary, Miller, Peter G., additional, Stewart, Alison L., additional, Kahn, Alissa R., additional, Logan, David J., additional, Negri, Joseph, additional, Duvet, Mildred, additional, Chattopadhyay, Shrikanta, additional, Shterental, Sebastian, additional, Chu, Lisa P, additional, Shieh, Jae Hung, additional, Jaeraas, Marcus, additional, Dancik, Vladimir, additional, Narayan, Rajiv, additional, Huang, Christina, additional, Haydu, J Erika, additional, Mukherjee, Siddhartha, additional, Shamji, Alykhan F, additional, Tolliday, Nicola J, additional, Carpenter, Anne E., additional, Schreiber, Stuart L., additional, Stern, Andrew M., additional, Moore, Malcolm AS, additional, Scadden, David T., additional, Ebert, Benjamin L., additional, and Golub, Todd R., additional

Published
2011
Full Text
View/download PDF

48. Evaluation of RNAi and CRISPR technologies by large-scale gene expression profiling in the Connectivity Map

Author

Smith, Ian, Greenside, Peyton G., Natoli, Ted, Lahr, David L., Wadden, David, Tirosh, Itay, Narayan, Rajiv, Root, David E., Golub, Todd R., Subramanian, Aravind, and Doench, John G.

Subjects
Biology and life sciences, Genetics, Epigenetics, RNA interference, Gene expression, Genetic interference, Biochemistry, Nucleic acids, RNA, Biology and Life Sciences, Biotechnology, Bioengineering, Synthetic Bioengineering, Genome Engineering, Synthetic Genome Editing, Crispr, Engineering and Technology, Synthetic Biology, Synthetic Genomics, Gene Expression, Gene regulation, Small interfering RNAs, Non-coding RNA, Earth Sciences, Geology, Sedimentary Geology, Perturbation (Geology), Physical Sciences, Mathematics, Discrete Mathematics, Combinatorics, Permutation, Molecular biology, Macromolecular structure analysis, RNA structure, RNA stem-loop structure, MicroRNAs
Abstract

The application of RNA interference (RNAi) to mammalian cells has provided the means to perform phenotypic screens to determine the functions of genes. Although RNAi has revolutionized loss-of-function genetic experiments, it has been difficult to systematically assess the prevalence and consequences of off-target effects. The Connectivity Map (CMAP) represents an unprecedented resource to study the gene expression consequences of expressing short hairpin RNAs (shRNAs). Analysis of signatures for over 13,000 shRNAs applied in 9 cell lines revealed that microRNA (miRNA)-like off-target effects of RNAi are far stronger and more pervasive than generally appreciated. We show that mitigating off-target effects is feasible in these datasets via computational methodologies to produce a consensus gene signature (CGS). In addition, we compared RNAi technology to clustered regularly interspaced short palindromic repeat (CRISPR)-based knockout by analysis of 373 single guide RNAs (sgRNAs) in 6 cells lines and show that the on-target efficacies are comparable, but CRISPR technology is far less susceptible to systematic off-target effects. These results will help guide the proper use and analysis of loss-of-function reagents for the determination of gene function.

Published
2017
Full Text
View/download PDF

49. Behavioral and Neural Identification of Birdsong under Several Masking Conditions.

Author

Kollmeier, Birger, Klump, Georg, Hohmann, Volker, Langemann, Ulrike, Mauermann, Manfred, Uppenkamp, Stefan, Verhey, Jesko, Shinn-Cunningham, Barbara G., Best, Virginia, Dent, Micheal L., Gallun, Frederick J., Mcclaine, Elizabeth M., Narayan, Rajiv, OzmeraL, Erol, and Sen, Kamal

Abstract

Many animals are adept at identifying communication calls in the presence of competing sounds, from human listeners communicating in a cocktail party to penguins locating their kin amongst the thousands of conspecifics in their colony. [ABSTRACT FROM AUTHOR]

Published
2007
Full Text
View/download PDF

50. Invariance and Sensitivity to Intensity in Neural Discrimination of Natural Sounds.

Author

Billimoria, Cyrus P., Kraus, Benjamin J., Narayan, Rajiv, Maddox, Ross K., and Sen, Kamal

Subjects
NEURONS, STIMULUS intensity, CELLS, NERVOUS system, NEUROSCIENCES
Abstract

Intensity variation poses a fundamental problem for sensory discrimination because changes in the response of sensory neurons as a result of stimulus identity, e.g., a change in the identity of the speaker uttering a word, can potentially be confused with changes resulting from stimulus intensity, for example, the loudness of the utterance. Here we report on the responses of neurons in field L, the primary auditory cortex homolog in songbirds, which allow for accurate discrimination of birdsongs that is invariant to intensity changes over a large range. Such neurons comprise a subset of a population that is highly diverse, in terms of both discrimination accuracy and intensity sensitivity. We find that the neurons with a high degree of invariance also display a high discrimination performance, and that the degree of invariance is significantly correlated with the reproducibility of spike timing on a short time scale and the temporal sparseness of spiking activity. Our results indicate that a temporally sparse spike timing-based code at a primary cortical stage can provide a substrate for intensity-invariant discrimination of natural sounds. [ABSTRACT FROM AUTHOR]

Published
2008
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results