- IEEE SIGNAL PROCESSING MAGAZINE Mike P. Liang, Olga G. Troyanskaya,
- Homology Modeling of a Human Glycine Alpha 1 Receptor Reveals a Plausible Anesthetic Binding Site
- Nucleotide Channel of RNA-dependent RNA Polymerase used for Intermolecular Uridylylation of Protein Primer
- Genotypic predictors of human immunodeficiency virus type 1 drug resistance Soo-Yon Rhee, Jonathan Taylor, Gauhar Wadhera, Asa Ben-Hur, Douglas L. Brutlag, and Robert
- Vol. 22 no. 9 2006, pages 10801087 doi:10.1093/bioinformatics/btl046BIOINFORMATICS ORIGINAL PAPER
- Sequence motifs: highly predictive features of protein function
- BIOINFORMATICS Vol. 19 Suppl. 1 2003, pages i26i33 DOI: 10.1093/bioinformatics/btg1002
- BIOINFORMATICS APPLICATIONS NOTE Vol. 19 no. 4 2003, pages 541543 DOI: 10.1093/bioinformatics/btf862
- BIOINFORMATICS Vol. 18 Suppl. 2 2002
- BIOINFORMATICS Vol. 1 no. 1 2002
- Capturing Molecular Energy Landscapes with Probabilistic Conformational Roadmaps
- A Motion Planning Approach to Flexible Ligand Binding Amit P. Singh1
- Genomics and computational molecular biology Douglas L Brutlag
- ENUMERATING AND RANKING DISCRETE MOTIFS Craig G. Nevill-Manning, Komal S. Sethi, Thomas D. Wu and Douglas L. Brutlag
- Understanding the Human Genome 1 Brutlag, D. L. (1994). Understanding the Human Genome. In Leder, P., Clayton, D. A. and
- Knowledge-Based Simulation of DNA Metabolism: Prediction of Enzyme Action1
- A Motion Planning Approach to Flexible Ligand Binding
- Stochastic Roadmap Simulation: Efficient Representation and Algorithms for
- Discovering Transcription FactorDiscovering Transcription Factor Binding Sites in Co-Regulated GenesBinding Sites in Co-Regulated Genes
- Doug Brutlag, 2001Doug Brutlag, 2001 Genomics, Bioinformatics & MedicineGenomics, Bioinformatics & Medicine
- Doug Brutlag 2003 The Brutlag Bioinformatics GroupThe Brutlag Bioinformatics Group
- Genomics & Medicine Doug Brutlag
- Doug Brutlag 2004 From Genotype to Phenotype
- Doug Brutlag 2002 Using Robotics to
- Automatic Discovery of Protein Motifs Ninth International ACS Biotechnology Symposium
- A suite of web-based programs to search for transcriptional regulatory motifs
- AUTOMATED CONSTRUCTION OF STRUCTURAL MOTIFS FOR PREDICTING FUNCTIONAL SITES ON PROTEIN STRUCTURES
- Detection of Correlations in tRNA Sequences with Structural Implications Tod M. Klingler and Douglas L. Brutlag
- 3MATRIX and 3MOTIF: A Protein Structure Visualization System for Conserved Sequence Bennett, Steven P.
- Stochastic Roadmap Simulation: An Efficient Representation and Algorithm for Analyzing Molecular Motion
- WebFEATURE: An interactive web tool for identifying and visualizing functional sites on macromolecular structures
- eBLOCKs: enumerating conserved protein blocks to achieve maximal sensitivity and specificity
- CHARGE TO THE COMMITTEE ON ACADEMIC COMPUTING AND INFORMATION (As approved by the Senate, 12/1/83 and amended 5/29/86 6/15/89, and 4/17/97)
- Discovering Side-Chain Correlation in -Helices Tod M. Klingler and Dougles L. Brutlag
- Identification of Protein Motifs Using Conserved Amino Acid Properties and Partitioning Techniques
- Douglas L. Brutlag, 2003 Functional Genomics & Proteomics
- A genome-wide analysis of CpG dinucleotides in the human genome distinguishes two
- Sequence motifs: highly predictive features of protein function
- JOURNAL OF COMPUTATIONAL BIOLOGY Volume 7, Numbers 1/2, 2000
- Hierarchical Protein Structure Superposition using both Secondary Structure and Atomic Representations
- On Suboptimal Alignments of Biological Dalit Naor ? and Douglas Brutlag
- FoldMiner and LOCK 2: protein structure comparison and motif discovery on the web
- BIOPROSPECTOR: DISCOVERING CONSERVED MOTIFS I N UPSTREAM REGULATORY REGIONS
- FoldMiner: Structural motif discovery using an improved superposition algorithm
