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Mark B. Gerstein
List of publications from the DBLP Bibliography Server - FAQ
| * | 2009 | |
|---|---|---|
| 44 | EE | Kevin Y. Yip, Philip M. Kim, Drew McDermott, Mark Gerstein: Multi-level learning: improving the prediction of protein, domain and residue interactions by allowing information flow between levels. BMC Bioinformatics 10: (2009) |
| 43 | EE | Kevin Y. Yip, Mark Gerstein: Training set expansion: an approach to improving the reconstruction of biological networks from limited and uneven reliable interactions. Bioinformatics 25(2): 243-250 (2009) |
| 42 | EE | Hugo Y. K. Lam, Ekta Khurana, Gang Fang, Philip Cayting, Nicholas Carriero, Kei-Hoi Cheung, Mark B. Gerstein: Pseudofam: the pseudogene families database. Nucleic Acids Research 37(Database-Issue): 738-743 (2009) |
| 2008 | ||
| 41 | EE | Kevin Y. Yip, Prianka Patel, Philip M. Kim, Donald M. Engelman, Drew McDermott, Mark Gerstein: An integrated system for studying residue coevolution in proteins. Bioinformatics 24(2): 290-292 (2008) |
| 2007 | ||
| 40 | EE | Thomas E. Royce, Nicholas Carriero, Mark B. Gerstein: An efficient pseudomedian filter for tiling microrrays. BMC Bioinformatics 8: (2007) |
| 39 | EE | Samuel Flores, Mark Gerstein: FlexOracle: predicting flexible hinges by identification of stable domains. BMC Bioinformatics 8: (2007) |
| 38 | EE | Samuel Flores, Long J. Lu, Julie Yang, Nicholas Carriero, Mark Gerstein: Hinge Atlas: relating protein sequence to sites of structural flexibility. BMC Bioinformatics 8: (2007) |
| 37 | EE | Andrew K. Smith, Kei-Hoi Cheung, Kevin Y. Yip, Martin H. Schultz, Mark Gerstein: LinkHub: a Semantic Web system that facilitates cross-database queries and information retrieval in proteomics. BMC Bioinformatics 8(S-3): (2007) |
| 36 | EE | Eric Z. Yu, Anne E. Counterman Burba, Mark Gerstein: PARE: A tool for comparing protein abundance and mRNA expression data. BMC Bioinformatics 8: (2007) |
| 35 | EE | Michael R. Seringhaus, Mark B. Gerstein: Publishing perishing? Towards tomorrow's information architecture. BMC Bioinformatics 8: (2007) |
| 34 | EE | Haiyuan Yu, Ronald Jansen, Gustavo Stolovitzky, Mark Gerstein: Total ancestry measure: quantifying the similarity in tree-like classification, with genomic applications. Bioinformatics 23(16): 2163-2173 (2007) |
| 33 | EE | Andrew K. Smith, Kei Cheung, Michael Krauthammer, Martin H. Schultz, Mark Gerstein: Leveraging the structure of the Semantic Web to enhance information retrieval for proteomics. Bioinformatics 23(22): 3073-3079 (2007) |
| 32 | EE | Kevin Y. Yip, Haiyuan Yu, Philip M. Kim, Martin H. Schultz, Mark Gerstein: The tYNA platform for comparative interactomics: a web tool for managing, comparing and mining multiple networks. Bioinformatics 23(8): 1048 (2007) |
| 31 | EE | Thomas E. Royce, Joel S. Rozowsky, Mark Gerstein: Assessing the need for sequence-based normalization in tiling microarray experiments. Bioinformatics 23(8): 988-997 (2007) |
| 30 | EE | Mark Gerstein, Dov Greenbaum, Kei Cheung, Perry L. Miller: An interdepartmental Ph.D. program in computational biology and bioinformatics: The Yale perspective. Journal of Biomedical Informatics 40(1): 73-79 (2007) |
| 29 | EE | John E. Karro, Yangpan Yan, Deyou Zheng, Zhaolei Zhang, Nicholas Carriero, Philip Cayting, Paul M. Harrison, Mark Gerstein: Pseudogene.org: a comprehensive database and comparison platform for pseudogene annotation. Nucleic Acids Research 35(Database-Issue): 55-60 (2007) |
| 2006 | ||
| 28 | EE | Zhaolei Zhang, Nicholas Carriero, Deyou Zheng, John E. Karro, Paul M. Harrison, Mark Gerstein: PseudoPipe: an automated pseudogene identification pipeline. Bioinformatics 22(12): 1437-1439 (2006) |
| 27 | EE | Anne E. Counterman Burba, Ursula Lehnert, Eric Z. Yu, Mark Gerstein: Helix Interaction Tool (HIT): a web-based tool for analysis of helix-helix interactions in proteins. Bioinformatics 22(22): 2735-2738 (2006) |
| 26 | EE | Kevin Y. Yip, Haiyuan Yu, Philip M. Kim, Martin H. Schultz, Mark Gerstein: The tYNA platform for comparative interactomics: a web tool for managing, comparing and mining multiple networks. Bioinformatics 22(23): 2968-2970 (2006) |
| 25 | EE | Jiang Du, Joel S. Rozowsky, Jan O. Korbel, Zhengdong D. Zhang, Thomas E. Royce, Martin H. Schultz, Michael Snyder, Mark Gerstein: A supervised hidden markov model framework for efficiently segmenting tiling array data in transcriptional and chIP-chip experiments: systematically incorporating validated biological knowledge. Bioinformatics 22(24): 3016-3024 (2006) |
| 24 | EE | Haiyuan Yu, Alberto Paccanaro, Valery Trifonov, Mark Gerstein: Predicting interactions in protein networks by completing defective cliques. Bioinformatics 22(7): 823-829 (2006) |
| 23 | EE | Samuel Flores, Nathaniel Echols, Duncan Milburn, Brandon Hespenheide, Kevin Keating, Jason Lu, Stephen Wells, Eric Z. Yu, Michael Thorpe, Mark Gerstein: The Database of Macromolecular Motions: new features added at the decade mark. Nucleic Acids Research 34(Database-Issue): 296-301 (2006) |
| 2005 | ||
| 22 | EE | Joel S. Rozowsky, Paul Bertone, Thomas E. Royce, Sherman Weissman, Michael Snyder, Mark Gerstein: Analysis of Genomic Tiling Microarrays for Transcript Mapping and the Identification of Transcription Factor Binding Sites. BSB 2005: 28-29 |
| 21 | EE | Kei-Hoi Cheung, Kevin Y. Yip, Andrew K. Smith, Remko de Knikker, Andy Masiar, Mark Gerstein: YeastHub: a semantic web use case for integrating data in the life sciences domain. ISMB (Supplement of Bioinformatics) 2005: 85-96 |
| 20 | EE | Dov Greenbaum, Andrew K. Smith, Mark Gerstein: Editorial. Nucleic Acids Research 33(Database-Issue): 3-4 (2005) |
| 2004 | ||
| 19 | Kei-Hoi Cheung, Deyun Pan, Andrew K. Smith, Michael B. Seringhaus, Shawn M. Douglas, Mark Gerstein: A XML-Based Approach to Integrating Heterogeneous Yeast Genome Data. METMBS 2004: 236-242 | |
| 18 | EE | Nan Lin, Baolin Wu, Ronald Jansen, Mark Gerstein, Hongyu Zhao: Information assessment on predicting protein-protein interactions. BMC Bioinformatics 5: 154 (2004) |
| 17 | EE | Vadim Alexandrov, Mark Gerstein: Using 3D Hidden Markov Models that explicitly represent spatial coordinates to model and compare protein structures. BMC Bioinformatics 5: 2 (2004) |
| 16 | EE | Piotr Berman, Paul Bertone, Bhaskar DasGupta, Mark Gerstein, Ming-Yang Kao, Michael Snyder: Fast Optimal Genome Tiling with Applications to Microarray Design and Homology Search. Journal of Computational Biology 11(4): 766-785 (2004) |
| 2003 | ||
| 15 | Mark Gerstein: Computational Proteomics: Genome-scale Analysis of Protein Structure, Function, & Evolution(Invited Talk). German Conference on Bioinformatics 2003: 53 | |
| 14 | Jiang Qian, Jimmy J. Lin, Nicholas M. Luscombe, Haiyuan Yu, Mark Gerstein: Prediction of regulatory networks: genome-wide identification of transcription factor targets from gene expression data. Bioinformatics 19(15): 1917-1926 (2003) | |
| 13 | Nathaniel Echols, Duncan Milburn, Mark Gerstein: MolMovDB: analysis and visualization of conformational change and structural flexibility. Nucleic Acids Research 31(1): 478-482 (2003) | |
| 12 | Nicholas M. Luscombe, Thomas E. Royce, Paul Bertone, Nathaniel Echols, Christine E. Horak, Joseph T. Chang, Michael Snyder, Mark Gerstein: ExpressYourself: a modular platform for processing and visualizing microarray data Nucleic Acids Research 31(13): 3477-3482 (2003) | |
| 2002 | ||
| 11 | EE | Piotr Berman, Paul Bertone, Bhaskar DasGupta, Mark Gerstein, Ming-Yang Kao, Michael Snyder: Fast Optimal Genome Tiling with Applications to Microarray Design and Homology Search. WABI 2002: 419-433 |
| 10 | Dov Greenbaum, Ronald Jansen, Mark Gerstein: Analysis of mRNA expression and protein abundance data: an approach for the comparison of the enrichment of features in the cellular population of proteins and transcripts. Bioinformatics 18(4): 585-596 (2002) | |
| 9 | Jerry Tsai, Mark Gerstein: Calculations of protein volumes: sensitivity analysis and parameter database. Bioinformatics 18(7): 985-995 (2002) | |
| 2001 | ||
| 8 | Kei-Hoi Cheung, Yang Liu, Anuj Kumar, Michael Snyder, Mark Gerstein, Perry L. Miller: An XML Application For Genomic Data Interoperation. BIBE 2001: 97-103 | |
| 7 | Jerry Tsai, Neil Voss, Mark Gerstein: Determining the minimum number of types necessary to represent the sizes of protein atoms. Bioinformatics 17(10): 949-956 (2001) | |
| 6 | Paul Bertone, Yuval Kluger, Ning Lan, Deyou Zheng, Dinesh Christendat, Adelinda Yee, Aled M. Edwards, Cheryl H. Arrowsmith, Gaetano T. Montelione, Mark Gerstein: SPINE: an integrated tracking database and data mining approach for identifying feasible targets in high-throughput structural proteomics. Nucleic Acids Research 29(13): 2884-2898 (2001) | |
| 1998 | ||
| 5 | Mark Gerstein: [Invited Lecture] A Structural Census of Genomes: Comparing Bacterial, Eukaryotic, and Archaea Genomes in Terms of Protein Structure. German Conference on Bioinformatics 1998 | |
| 4 | Mark Gerstein: Measurement of the effectiveness of transitive sequence comparison, through a third 'intermediate' sequence. Bioinformatics 14(8): 707-714 (1998) | |
| 1996 | ||
| 3 | Mark Gerstein, Michael Levitt: Using Iterative Dynamic Programming to Obtain Accurate Pairwise and Multiple Alignments of Protein Structures. ISMB 1996: 59-67 | |
| 1995 | ||
| 2 | Mark Gerstein, Russ B. Altman: Using a measure of structural variation to define a core for the globins. Computer Applications in the Biosciences 11(6): 633-644 (1995) | |
| 1994 | ||
| 1 | Russ B. Altman, Mark Gerstein: Finding an Average Core Structure: Application to the Globins. ISMB 1994: 19-27 | |