Understanding transcriptional regulation by integrative analysis of transcription factor binding data.
C Cheng, R Alexander, R Min, J Leng, KY Yip, J Rozowsky, KK Yan, X Dong, S Djebali, Y Ruan, CA Davis, P Carninci, T Lassman, TR Gingeras, R Guigo, E Birney, Z Weng, M Snyder, M Gerstein (2012). Genome Res 22: 1658-67.

The GENCODE pseudogene resource.
B Pei, C Sisu, A Frankish, C Howald, L Habegger, XJ Mu, R Harte, S Balasubramanian, A Tanzer, M Diekhans, A Reymond, TJ Hubbard, J Harrow, MB Gerstein (2012). Genome Biol 13: R51.

Modeling the relative relationship of transcription factor binding and histone modifications to gene expression levels in mouse embryonic stem cells.
C Cheng, M Gerstein (2011). Nucleic Acids Res 40: 553-68.

CNVnator: an approach to discover, genotype, and characterize typical and atypical CNVs from family and population genome sequencing.
A Abyzov, AE Urban, M Snyder, M Gerstein (2011). Genome Res 21: 974-84.

Measuring the evolutionary rewiring of biological networks.
C Shou, N Bhardwaj, HY Lam, KK Yan, PM Kim, M Snyder, MB Gerstein (2011). PLoS Comput Biol 7: e1001050.

RSEQtools: a modular framework to analyze RNA-Seq data using compact, anonymized data summaries.
L Habegger, A Sboner, TA Gianoulis, J Rozowsky, A Agarwal, M Snyder, M Gerstein (2011). Bioinformatics 27: 281-3.

Pseudogenes in the ENCODE regions: consensus annotation, analysis of transcription, and evolution.
D Zheng, A Frankish, R Baertsch, P Kapranov, A Reymond, SW Choo, Y Lu, F Denoeud, SE Antonarakis, M Snyder, Y Ruan, CL Wei, TR Gingeras, R Guigo, J Harrow, MB Gerstein (2007). Genome Res 17: 839-51.

The tYNA platform for comparative interactomics: a web tool for managing, comparing and mining multiple networks.
KY Yip, H Yu, PM Kim, M Schultz, M Gerstein (2006). Bioinformatics 22: 2968-70.

Integrated pseudogene annotation for human chromosome 22: evidence for transcription.
D Zheng, Z Zhang, PM Harrison, J Karro, N Carriero, M Gerstein (2005). J Mol Biol 349: 27-45.

Global identification of human transcribed sequences with genome tiling arrays.
P Bertone, V Stolc, TE Royce, JS Rozowsky, AE Urban, X Zhu, JL Rinn, W Tongprasit, M Samanta, S Weissman, M Gerstein, M Snyder (2004). Science 306: 2242-6.

Computer security in academia-a potential roadblock to distributed annotation of the human genome
D Greenbaum, SM Douglas, A Smith, J Lim, M Fischer, M Schultz, M Gerstein (2004). Nat Biotechnol 22: 771-2.

Millions of years of evolution preserved: a comprehensive catalog of the processed pseudogenes in the human genome.
Z Zhang, PM Harrison, Y Liu, M Gerstein (2003). Genome Res 13: 2541-58.

A universal legal framework as a prerequisite for database interoperability.
D Greenbaum, M Gerstein (2003). Nat Biotechnol 21: 979-82.

ExpressYourself: A modular platform for processing and visualizing microarray data.
NM Luscombe, TE Royce, P Bertone, N Echols, CE Horak, JT Chang, M Snyder, M Gerstein (2003). Nucleic Acids Res 31: 3477-82.

Genomics. Defining genes in the genomics era
M Snyder, M Gerstein (2003). Science 300: 258-60.

A small reservoir of disabled ORFs in the yeast genome and its implications for the dynamics of proteome evolution.
P Harrison, A Kumar, N Lan, N Echols, M Snyder, M Gerstein (2002). J Mol Biol 316: 409-19.

Relating whole-genome expression data with protein-protein interactions.
R Jansen, D Greenbaum, M Gerstein (2002). Genome Res 12: 37-46.

Protein family and fold occurrence in genomes: power-law behaviour and evolutionary model.
J Qian, NM Luscombe, M Gerstein (2001). J Mol Biol 313: 673-81.

SPINE: an integrated tracking database and data mining approach for identifying feasible targets in high-throughput structural proteomics.
P Bertone, Y Kluger, N Lan, D Zheng, D Christendat, A Yee, AM Edwards, CH Arrowsmith, GT Montelione, M Gerstein (2001). Nucleic Acids Res 29: 2884-98.

Digging for dead genes: an analysis of the characteristics of the pseudogene population in the Caenorhabditis elegans genome.
PM Harrison, N Echols, MB Gerstein (2001). Nucleic Acids Res 29: 818-30.

PartsList: a web-based system for dynamically ranking protein folds based on disparate attributes, including whole-genome expression and interaction information.
J Qian, B Stenger, CA Wilson, J Lin, R Jansen, SA Teichmann, J Park, WG Krebs, H Yu, V Alexandrov, N Echols, M Gerstein (2001). Nucleic Acids Res 29: 1750-64.

A Bayesian system integrating expression data with sequence patterns for localizing proteins: comprehensive application to the yeast genome.
A Drawid, M Gerstein (2000). J Mol Biol 301: 1059-75.

Whole-genome trees based on the occurrence of folds and orthologs: implications for comparing genomes on different levels.
J Lin, M Gerstein (2000). Genome Res 10: 808-18.

Assessing annotation transfer for genomics: quantifying the relations between protein sequence, structure and function through traditional and probabilistic scores.
CA Wilson, J Kreychman, M Gerstein (2000). J Mol Biol 297: 233-49.

Perspectives: signal transduction. Proteins in motion.
M Gerstein, C Chothia (1999). Science 285: 1682-3.

The relationship between protein structure and function: a comprehensive survey with application to the yeast genome.
H Hegyi, M Gerstein (1999). J Mol Biol 288: 147-64.

A structural census of genomes: comparing bacterial, eukaryotic, and archaeal genomes in terms of protein structure.
M Gerstein (1997). J Mol Biol 274: 562-76.


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