| Christopher Burge Laboratory | ||||||||
| Research | News | Papers | Software | People | Links | Contact | ||
Burge Lab Software A repository of bioinformatics software and databases developed in the Chris Burge lab at MIT All software produced by our lab is available (by download or by request from the author) free of charge by academic and other non-profit researchers. For those who prefer not to install the software on their own computer, most software is also available through web servers. Commercial use of the Genscan and GenomeScan gene identification programs requires a license from Stanford University. For information about how to obtain a license, please contact Imelda Oropeza (imelda.oropeza at stanford dot edu). This site is under development, so please check back regularly for updates. |
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| Software | Version |
Description | Author(s) | Reference(s) | Web Server(s) | How to Obtain Source Code/Binaries/Data Files |
|---|---|---|---|---|---|---|
| ACEScan | 1.0 |
Algorithm for prediction of conserved alternatively spliced exons from pairs of conserved mouse/human exons | Gene Yeo, Chris Burge | Yeo, G., Van Nostrand, E., Holste, D., Poggio, T. and Burge, C. B. (2005). Identification and analysis of alternative splicing events conserved in human and mouse. Proc. Natl. Acad. Sci. USA 102, 2850-2855. |
MIT ACEScan Server | Contact Gene Yeo (geneyeo at salk dot edu) |
DiCodonShuffle, CodonShuffle, DiShuffle |
1.0 |
Algorithms for generating random control mRNAs that preserve dinucleotide content and/or synonymous codon usage of a native mRNA sequence | Luba Katz, Chris Burge | Katz, L. and Burge, C. B. (2003). Widespread selection for local RNA structure in coding regions of bacterial genes. Genome Res. 13, 2042-2051. | N/A | Anonymous ftp to hollywood.mit.edu cd pub get mrnashuffle.tar.gz (gzipped tar file - read README file for further instructions) |
| ExonScan | 1.0 |
Algorithm for simulating the RNA splicing pattern of a primary transcript sequence | Michael Rolish, Chris Burge |
Wang, Z., Rolish, M. E., Yeo, G., Tung, V., Mawson, M. and Burge, C. B. (2004). Systematic identification and analysis of exonic splicing silencers. Cell 119, 831-845. | MIT ExonScan Web Server | Contact Chris Burge (cburge at mit dot edu) |
| GENSCAN | 1.0 |
Algorithm for ab initio prediction of complete gene structures in vertebrate, Drosophila and plant genomic sequences | Chris Burge | Burge, C. and Karlin, S. (1997) Prediction of complete gene structures in human genomic DNA. J. Mol. Biol. 268, 78 - 94. | MIT GENSCAN server | License/Download Instructions |
| GenomeScan | 1.0 |
Algorithm for prediction of complete gene structures in vertebrate genomic sequences integrating primary sequence and protein sequence similarity information | Ru-Fang Yeh, Chris Burge | Yeh, R.-F., Lim, L. P. and Burge, C. B. (2001). Computational inference of homologous gene structures in the human genome. Genome Res. 11, 803-816. | MIT GenomeScan Server | Contact Chris Burge (cburge at mit dot edu) |
| Hollywood | 1.0 |
Comparative genomic relational database of mammalian alternative splicing | Dirk Holste, George Huo, Vivian Tung, Chris Burge | Holste, D., Huo, G., Tung, V. and Burge, C. B. (2006). HOLLYWOOD: a comparative relational database of alternative splicing. Nucl. Acids Res. 34, D56-62. | MIT Hollywood Server | Anonymous ftp to hollywood.mit.edu cd pub/hollywood.freeze.20060101 get and read the README file for further instructions |
| IntronScan | 1.0 |
Algorithm for simulating splicing of short introns in various organisms | Lee Lim, |
Lim, L. P. and Burge, C. B. (2001). A computational analysis of sequence features involved in recognition of short introns. Proc. Natl. Acad. Sci. USA 98, 11193 11198. | N/A | Anonymous ftp to hollywood.mit.edu cd pub get intronscan.tar.gz (gzipped tar file - read README file for further instructions) |
| MaxEnt | 1.0 |
Algorithms for derivation and scoring of constrained-marginal maximum entropy distributions, with applications to 5' and 3' splice sites | Gene Yeo, Chris Burge | Yeo, G. and Burge, C. B. (2004). Maximum entropy modeling of short sequence motifs with applications to RNA splicing signals. J. Comp. Biol. 11, 377-394. | Contact Gene Yeo (geneyeo at salk dot edu) |
|
| MiRScan | 1.0 |
Algorithm for predicting microRNA genes from pairs of conserved sequences with potential to form RNA foldbacks | Lee Lim, |
Lim, L. P., Glasner, M. E., Yekta, S., Burge, C. B. and Bartel, D. P. (2003). Vertebrate microRNA genes. Science 299, 1540. Lim, L. P., Lau, N. C., Weinstein, E. G., Abdelhakim, A., Yekta, S., Rhoades, M. W., Burge, C. B. and Bartel, D. P. (2003). The microRNAs of Caenorhabditis elegans. Genes & Dev. 17, 977-990. |
MIT MiRScan Server | Anonymous ftp to hollywood.mit.edu cd pub get miRscan.tar.gz (gzipped tar file - read README file for further instructions) |
| MISO | 1.0 |
Computational method for quantitating isoform expression and detecting differentially expressed isoforms. | Yarden Katz, |
Katz Y, Wang ET, Airoldi EM, Burge CB. (2010). Analysis and design of RNA sequencing experiments for identifying isoform regulation. Nature Methods (in press). | MISO website | Download MISO |
| Pictogram | 1.0 |
Tool for displaying a sequence motif based on a set of aligned DNA or RNA sequences. | Chris Burge | Burge, C. B., Tuschl, T. H. and Sharp, P. A. (1999). Splicing of precursors to mRNAs by the spliceosomes. In Gesteland, R. F., Cech, T. and Atkins, J. F., eds. The RNA World, 2nd Ed., Cold Spring Harbor Laboratory Press, Plainview, NY, pp. 525-560. | MIT Pictogram Server | Anonymous ftp to hollywood.mit.edu cd pub get pictogram.tar.gz (gzipped tar file - read README file for further instructions) |
| PLATA | 1.0 |
Software for probe level alternative transcript analysis of Affymetrix all-exon array data | Rickard Sandberg | Sandberg, R., Neilson, J. R., Sarma, A., Sharp, P. A. and Burge, C. B. (2008). Proliferating cells express mRNAs with shortened 3' untranslated regions and fewer microRNA target sites. Science 320, 1643-1646. | N/A | PLATA software download site |
| PVSA | 1.0 |
Software package for identification of coevolutionary networks. | Xinshu (Grace) Xiao, Chris Burge | Xiao, X., Wang, Z., Jang, M. and Burge, C. B. (2007). Coevolutionary networks of splicing cis-regulatory elements. PNAS 47, 18583-18588. |
N/A | Anonymous ftp to hollywood.mit.edu cd pub get pvsa.tar.gz (gzipped tar file - read readme.txt file for further instructions) |
| TargetRank | 1.0 |
Algorithm for ranking conserved and non-conserved microRNA targets and siRNA off-targets. | Cydney Nielsen, Chris Burge | Nielsen, C.B., Shomron, N., Sandberg, R., Hornstein, E., Kitzman, J. and Burge, C.G. (2007). Determinants of targeting by endogeno us and exogenous microRNAs and siRNAs. RNA 13, 1894-1910. |
MIT TargetRank Server | Contact Cydney Nielsen (cydney at mit dot edu) |
TargetScan(S) |
1.0 |
Algorithm for prediction of microRNA targets based on mRNA sequence conservation in multiple species | Ben Lewis, Chris Burge, David Bartel |
Lewis, B. P., Shih, I-h., Jones-Rhoades, M. W., Bartel, D. P. and Burge, C. B. (2003). Prediction of mammalian microRNA targets. Cell 115, 787-798. (TargetScan) Lewis, B. P., Burge, C. B. and Bartel, D. P. (2005). Conserved seed pairing, often flanked by adenosines, indicates that thousands of human genes are microRNA targets. Cell 120, 15-20. (TargetScanS) |
targetscan.org | Contact Ben Lewis (benlewis at mit dot edu) or wibr-bioinformatics at wi dot mit dot edu |
| UNCOVER | 1.0 | Algorithm for predicting conserved alternatively spliced exons (and retained introns) in orthologous intron pairs | Uwe Ohler, Chris Burge | Ohler, U., Shomron, N. and Burge, C. B. (2005). Recognition of unknown conserved alternatively spliced exons. PLoS Comput. Biol. 1, 113-122. | N/A | Contact Uwe Ohler (uwe dot ohler at duke dot edu) |
Feedback: Please send comments or questions about this site to Chris Burge (cburge at mit dot edu)