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Marcel Turcotte
2010 – today
- 2012
[c9]Oksana Korol, Marcel Turcotte: Learning relationships between over-represented motifs in a set of DNA sequences. CIBCB 2012: 144-149- 2011
- [j10]Mikhail Jiline, Stan Matwin, Marcel Turcotte: Annotation concept synthesis and enrichment analysis: a logic-based approach to the interpretation of high-throughput experiments. Bioinformatics 27(17): 2391-2398 (2011)
- [c8]Ghada Badr, Marcel Turcotte: Component-Based Matching for Multiple Interacting RNA Sequences. ISBRA 2011: 73-86
- 2010
- [c7]Mikhail Jiline, Stan Matwin, Marcel Turcotte: Annotation Concept Synthesis and Enrichment Analysis. Canadian Conference on AI 2010: 304-308
2000 – 2009
- 2007
- [j9]Amelia B. Bellamy-Royds, Marcel Turcotte: Can Clustal-style progressive pairwise alignment of multiple sequences be used in RNA secondary structure prediction? BMC Bioinformatics 8 (2007)
- [j8]Victor X. Jin, Marcel Turcotte: Detecting Localized Interspersed Motifs in Genomic Sequences. IEEE T. Instrumentation and Measurement 56(5): 1770-1775 (2007)
- [c6]Étienne Ogoubi, David Pouliot, Marcel Turcotte, Abdelhakim Hafid: Parallel Multiprocessor Approaches to the RNA Folding Problem. PPAM 2007: 1230-1239
- 2006
- [j7]Mohammad Anwar, Truong Nguyen, Marcel Turcotte: Identification of consensus RNA secondary structures using suffix arrays. BMC Bioinformatics 7: 244 (2006)
- [c5]Mohammad Anwar, Marcel Turcotte: An Approach to Selecting Putative RNA Motifs Using MDL Principle. BIOCOMP 2006: 560-569
- [c4]Mohammad Anwar, Marcel Turcotte: Evaluation of RNA Secondary Structure Motifs using Regression Analysis. CCECE 2006: 1747-1752
- 2005
- [j6]Beeta Masoumi, Marcel Turcotte: Simultaneous alignment and structure prediction of three RNA sequences. IJBRA 1(2): 230-245 (2005)
- [c3]Beeta Masoumi, Marcel Turcotte: Simultaneous Alignment and Structure Prediction of RNAs. International Conference on Computational Science (2) 2005: 936-943
- 2002
- [j5]Marcel Turcotte, Stephen Muggleton, Michael J. E. Sternberg: Generating Protein Three-dimensional Fold Signatures using Inductive Logic Programming. Computers & Chemistry 26(1): 57-64 (2002)
- 2001
- [j4]Marcel Turcotte, Stephen Muggleton, Michael J. E. Sternberg: The Effect of Relational Background Knowledge on Learning of Protein Three-Dimensional Fold Signatures. Machine Learning 43(1/2): 81-95 (2001)
- 2000
- [j3]Marcel Turcotte, Stephen Muggleton, Michael J. E. Sternberg: Use of Inductive Logic Programming to Learn Principles of Protein Structure. Electron. Trans. Artif. Intell. 4(B): 119-124 (2000)
1990 – 1999
- 1998
- [c2]Marcel Turcotte, Stephen Muggleton, Michael J. E. Sternberg: Application of Inductive Logic Programming to Discover Rules Governing the Three-Dimensional Topology of Protein Structure. ILP 1998: 53-64
- 1995
- [j2]Marcel Turcotte, Guy Lapalme, François Major: Exploring the Conformations of Nucleic Acids. J. Funct. Program. 5(3): 443-460 (1995)
- 1994
- [j1]Marc Feeley, Marcel Turcotte, Guy Lapalme: Using Multilisp for Solving Constraint Satisfaction Problems: An Application to Nucleic Acid 3D Structure Determination. Lisp and Symbolic Computation 7(2-3): 231-247 (1994)
- 1993
- [c1]François Major, Marcel Turcotte, Guy Lapalme: Constraint Satisfaction in Functional Programming. PPCP 1993: 174-177
Coauthor Index
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last updated on 2012-12-02 20:57 CET by the dblp team