 | 2009 |
|---|
| 8 |       | Daniel Ramsköld,
Eric T. Wang,
Christopher B. Burge,
Rickard Sandberg:
An Abundance of Ubiquitously Expressed Genes Revealed by Tissue Transcriptome Sequence Data.
PLoS Computational Biology 5(12): (2009) |
| 2006 |
|---|
| 7 | | Dirk Holste,
George Huo,
Vivian Tung,
Christopher B. Burge:
HOLLYWOOD: a comparative relational database of alternative splicing.
Nucleic Acids Research 34(Database-Issue): 56-62 (2006) |
| 2005 |
|---|
| 6 | | Uwe Ohler,
Noam Shomron,
Christopher B. Burge:
Recognition of Unknown Conserved Alternatively Spliced Exons.
PLoS Computational Biology 1(2): (2005) |
| 2004 |
|---|
| 5 | | Gene W. Yeo,
Christopher B. Burge:
Maximum Entropy Modeling of Short Sequence Motifs with Applications to RNA Splicing Signals.
Journal of Computational Biology 11(2/3): 377-394 (2004) |
| 4 | | William G. Fairbrother,
Gene W. Yeo,
Rufang Yeh,
Paul Goldstein,
Matthew Mawson,
Phillip A. Sharp,
Christopher B. Burge:
RESCUE-ESE identifies candidate exonic splicing enhancers in vertebrate exons.
Nucleic Acids Research 32(Web-Server-Issue): 187-190 (2004) |
| 2003 |
|---|
| 3 | | Gene W. Yeo,
Christopher B. Burge:
Maximum entropy modeling of short sequence motifs with applications to RNA splicing signals.
RECOMB 2003: 322-331 |
| 2 | | Peter F. Arndt,
Christopher B. Burge,
Terence Hwa:
DNA Sequence Evolution with Neighbor-Dependent Mutation.
Journal of Computational Biology 10(3/4): 313-322 (2003) |
| 2002 |
|---|
| 1 | | Peter F. Arndt,
Christopher B. Burge,
Terence Hwa:
DNA sequence evolution with neighbor-dependent mutation.
RECOMB 2002: 32-38 |
Data released under the ODC-BY 1.0 license — See also our legal information page