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Michael Schroeder 0001
Person information
- affiliation: Dresden University of Technology, BIOTEC, Germany
- affiliation: City University London, Department of Computing, UK
- affiliation: University of Hannover, Institute for Knowledge-Based Systems
Other persons with the same name
- Michael Schroeder — disambiguation page
- Michael D. Schroeder (aka: Michael Schroeder 0002) — Microsoft Research Silicon Valley (and 1 more)
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2020 – today
- 2023
- [j69]Ali Al-Fatlawi, Eka Rusadze, Alexander Shmelkin, Negin Malekian, Cigdem Ozen, Christian Pilarsky, Michael Schroeder:
Netrank: network-based approach for biomarker discovery. BMC Bioinform. 24(1): 304 (2023) - 2022
- [j68]Aldo Acevedo, Claudio Durán, Ming-Ju Kuo, Sara Ciucci, Michael Schroeder, Carlo Vittorio Cannistraci:
Measuring Group Separability in Geometrical Space for Evaluation of Pattern Recognition and Dimension Reduction Algorithms. IEEE Access 10: 22441-22471 (2022) - [j67]Özge Kart, Alexandre Mestiashvili, Kurt Lachmann, Richard Kwasnicki, Michael Schroeder:
Emati: a recommender system for biomedical literature based on supervised learning. Database J. Biol. Databases Curation 2022(2022) (2022) - [j66]Ali Al-Fatlawi, Nazia Afrin, Cigdem Ozen, Negin Malekian, Michael Schroeder:
NetRank Recovers Known Cancer Hallmark Genes as Universal Biomarker Signature for Cancer Outcome Prediction. Frontiers Bioinform. 2 (2022) - [j65]Melissa F. Adasme, Sarah Naomi Bolz, Ali Al-Fatlawi, Michael Schroeder:
Decomposing compounds enables reconstruction of interaction fingerprints for structure-based drug screening. J. Cheminformatics 14(1): 17 (2022) - 2021
- [j64]Sarah Naomi Bolz, Melissa F. Adasme, Michael Schroeder:
Toward an Understanding of Pan-Assay Interference Compounds and Promiscuity: A Structural Perspective on Binding Modes. J. Chem. Inf. Model. 61(5): 2248-2262 (2021) - [j63]Melissa F. Adasme, Katja L. Linnemann, Sarah Naomi Bolz, Florian Kaiser, Sebastian Salentin, V. Joachim Haupt, Michael Schroeder:
PLIP 2021: expanding the scope of the protein-ligand interaction profiler to DNA and RNA. Nucleic Acids Res. 49(Webserver-Issue): 530-534 (2021)
2010 – 2019
- 2019
- [j62]François Bonnardel, Julien Mariethoz, Sebastian Salentin, Xavier Robin, Michael Schroeder, Serge Pérez, Frédérique Lisacek, Anne Imberty:
UniLectin3D, a database of carbohydrate binding proteins with curated information on 3D structures and interacting ligands. Nucleic Acids Res. 47(Database-Issue): D1236-D1244 (2019) - 2018
- [j61]Claudio Durán, Simone Daminelli, Josephine Maria Thomas, V. Joachim Haupt, Michael Schroeder, Carlo Vittorio Cannistraci:
Pioneering topological methods for network-based drug-target prediction by exploiting a brain-network self-organization theory. Briefings Bioinform. 19(6): 1183-1202 (2018) - [j60]Florian Kaiser, Sebastian Bittrich, Sebastian Salentin, Christoph Leberecht, V. Joachim Haupt, Sarah Krautwurst, Michael Schroeder, Dirk Labudde:
Backbone Brackets and Arginine Tweezers delineate Class I and Class II aminoacyl tRNA synthetases. PLoS Comput. Biol. 14(4) (2018) - 2017
- [j59]Christoph Baldow, Sebastian Salentin, Michael Schroeder, Ingo Roeder, Ingmar Glauche:
MAGPIE: Simplifying access and execution of computational models in the life sciences. PLoS Comput. Biol. 13(12) (2017) - 2015
- [j58]Alina Petrova, Yue Ma, George Tsatsaronis, Maria Kissa, Felix Distel, Franz Baader, Michael Schroeder:
Formalizing biomedical concepts from textual definitions. J. Biomed. Semant. 6: 22 (2015) - [j57]Dirk Weissenborn, Michael Schroeder, George Tsatsaronis:
Discovering relations between indirectly connected biomedical concepts. J. Biomed. Semant. 6: 28 (2015) - [j56]George Tsatsaronis, Georgios Balikas, Prodromos Malakasiotis, Ioannis Partalas, Matthias Zschunke, Michael R. Alvers, Dirk Weissenborn, Anastasia Krithara, Sergios Petridis, Dimitris Polychronopoulos, Yannis Almirantis, John Pavlopoulos, Nicolas Baskiotis, Patrick Gallinari, Thierry Artières, Axel-Cyrille Ngonga Ngomo, Norman Heino, Éric Gaussier, Liliana Barrio-Alvers, Michael Schroeder, Ion Androutsopoulos, Georgios Paliouras:
An overview of the BIOASQ large-scale biomedical semantic indexing and question answering competition. BMC Bioinform. 16: 138:1-138:28 (2015) - [j55]Sebastian Salentin, Sven Schreiber, V. Joachim Haupt, Melissa F. Adasme, Michael Schroeder:
PLIP: fully automated protein-ligand interaction profiler. Nucleic Acids Res. 43(Webserver-Issue): W443-W447 (2015) - 2014
- [j54]Janine Roy, Christof Winter, Zerrin Isik, Michael Schroeder:
Network information improves cancer outcome prediction. Briefings Bioinform. 15(4): 612-625 (2014) - [c66]Dirk Weissenborn, Michael Schroeder, George Tsatsaronis:
Discovering Relations between Indirectly Connected Biomedical Concepts. DILS 2014: 112-119 - [c65]Daniel Eisinger, Jan Mönnich, Michael Schroeder:
Developing Semantic Search for the Patent Domain. IPaMin@KONVENS 2014 - [p5]Martin Beck, V. Joachim Haupt, Janine Roy, Jan Mönnich, René Jäkel, Michael Schroeder, Zerrin Isik:
GeneCloud: Secure Cloud Computing for Biomedical Research. Trusted Cloud Computing 2014: 3-14 - [p4]Martin Beck, V. Joachim Haupt, Janine Roy, Jan Mönnich, René Jäkel, Michael Schroeder, Zerrin Isik:
Privacy-Preserving Cloud Computing for Biomedical Research. Trusted Cloud Computing 2014: 259-282 - 2013
- [j53]Daniel Eisinger, George Tsatsaronis, Markus Bundschus, Ulrich Wieneke, Michael Schroeder:
Automated Patent Categorization and Guided Patent Search using IPC as Inspired by MeSH and PubMed. J. Biomed. Semant. 4(S-1): S3 (2013) - [c64]Dirk Weissenborn, George Tsatsaronis, Michael Schroeder:
Answering Factoid Questions in the Biomedical Domain. BioASQ@CLEF 2013 - [c63]George Tsatsaronis, Alina Petrova, Maria Kissa, Yue Ma, Felix Distel, Franz Baader, Michael Schroeder:
Learning Formal Definitions for Biomedical Concepts. OWLED 2013 - 2012
- [j52]Götz Fabian, Thomas Wächter, Michael Schroeder:
Extending ontologies by finding siblings using set expansion techniques. Bioinform. 28(12): 292-300 (2012) - [j51]George Tsatsaronis, Natalia Macari, Sunna Torge, Heiko Dietze, Michael Schroeder:
A Maximum-Entropy approach for accurate document annotation in the biomedical domain. J. Biomed. Semant. 3(S-1): S2 (2012) - [j50]Christof Winter, Glen Kristiansen, Stephan Kersting, Janine Roy, Daniela Aust, Thomas Knösel, Petra Rümmele, Beatrix Jahnke, Vera Hentrich, Felix Rückert, Marco Niedergethmann, Wilko Weichert, Marcus Bahra, Hans J. Schlitt, Utz Settmacher, Helmut Friess, Markus W. Büchler, Hans-Detlev Saeger, Michael Schroeder, Christian Pilarsky, Robert Grützmann:
Google Goes Cancer: Improving Outcome Prediction for Cancer Patients by Network-Based Ranking of Marker Genes. PLoS Comput. Biol. 8(5) (2012) - [c62]George Tsatsaronis, Michael Schroeder, Georgios Paliouras, Yannis Almirantis, Ion Androutsopoulos, Éric Gaussier, Patrick Gallinari, Thierry Artières, Michael R. Alvers, Matthias Zschunke, Axel-Cyrille Ngonga Ngomo:
BioASQ: A Challenge on Large-Scale Biomedical Semantic Indexing and Question Answering. AAAI Fall Symposium: Information Retrieval and Knowledge Discovery in Biomedical Text 2012 - [c61]Anastasios Tagaris, Efthymios Chondrogiannis, Vassiliki Andronikou, George Tsatsaronis, Konstantinos Mourtzoukos, Joseph Roumier, Nikolaos Matskanis, Michael Schroeder, Philippe Massonet, Dimitrios D. Koutsouris, Theodora A. Varvarigou:
Semantic Interoperability Between Clinical Research and Healthcare: The PONTE Approach. ESWC (Satellite Events) 2012: 191-203 - 2011
- [j49]V. Joachim Haupt, Michael Schroeder:
Old friends in new guise: repositioning of known drugs with structural bioinformatics. Briefings Bioinform. 12(4): 312-326 (2011) - [j48]Zengming Zhang, Yu Li, Biaoyang Lin, Michael Schroeder, Bingding Huang:
Identification of cavities on protein surface using multiple computational approaches for drug binding site prediction. Bioinform. 27(15): 2083-2088 (2011) - [j47]Jörg Hakenberg, Martin Gerner, Maximilian Haeussler, Illés Solt, Conrad Plake, Michael Schroeder, Graciela Gonzalez, Goran Nenadic, Casey M. Bergman:
The GNAT library for local and remote gene mention normalization. Bioinform. 27(19): 2769-2771 (2011) - [j46]Jing-Na Si, Zengming Zhang, Biaoyang Lin, Michael Schroeder, Bingding Huang:
MetaDBSite: a meta approach to improve protein DNA-binding sites prediction. BMC Syst. Biol. 5(S-1): S7 (2011) - [c60]George Tsatsaronis, Iraklis Varlamis, Sunna Torge, Matthias Reimann, Kjetil Nørvåg, Michael Schroeder, Matthias Zschunke:
How to Become a Group Leader? or Modeling Author Types Based on Graph Mining. TPDL 2011: 15-26 - [c59]Michael Schroeder:
Semantic search for the life sciences. ISI 2011: 22 - [c58]Thomas Wächter, Götz Fabian, Michael Schroeder:
DOG4DAG: semi-automated ontology generation in OBO-Edit and Protégé. SWAT4LS 2011: 119-120 - 2010
- [j45]Thomas Wächter, Michael Schroeder:
Semi-automated ontology generation within OBO-Edit. Bioinform. 26(12): 88-96 (2010) - [j44]Annalisa Marsico, Andreas Henschel, Christof Winter, Anne Tuukkanen, Boris Vassilev, Kerstin Scheubert, Michael Schroeder:
Structural fragment clustering reveals novel structural and functional motifs in alpha-helical transmembrane proteins. BMC Bioinform. 11: 204 (2010) - [j43]Annalisa Marsico, Kerstin Scheubert, Anne Tuukkanen, Andreas Henschel, Christof Winter, Rainer Winnenburg, Michael Schroeder:
MeMotif: a database of linear motifs in α-helical transmembrane proteins. Nucleic Acids Res. 38(Database-Issue): 181-189 (2010) - [j42]Saskia Preissner, Katharina Kroll, Mathias Dunkel, Christian Senger, Gady Goldsobel, Daniel Kuzman, Stefan Günther, Rainer Winnenburg, Michael Schroeder, Robert Preissner:
SuperCYP: a comprehensive database on Cytochrome P450 enzymes including a tool for analysis of CYP-drug interactions. Nucleic Acids Res. 38(Database-Issue): 237-243 (2010)
2000 – 2009
- 2009
- [j41]Bill Andreopoulos, Aijun An, Xiaogang Wang, Michael Schroeder:
A roadmap of clustering algorithms: finding a match for a biomedical application. Briefings Bioinform. 10(3): 297-314 (2009) - [j40]Dimitra Alexopoulou, Bill Andreopoulos, Heiko Dietze, Andreas Doms, Fabien Gandon, Jörg Hakenberg, Khaled Khelif, Michael Schroeder, Thomas Wächter:
Biomedical word sense disambiguation with ontologies and metadata: automation meets accuracy. BMC Bioinform. 10 (2009) - [j39]Bill Andreopoulos, Christof Winter, Dirk Labudde, Michael Schroeder:
Triangle network motifs predict complexes by complementing high-error interactomes with structural information. BMC Bioinform. 10 (2009) - [j38]Heiko Dietze, Michael Schroeder:
GoWeb: a semantic search engine for the life science web. BMC Bioinform. 10(S-10): 7 (2009) - [j37]Helen Oliver, Gayo Diallo, Ed de Quincey, Dimitra Alexopoulou, Bianca Habermann, Patty Kostkova, Michael Schroeder, Simon Jupp, Khaled Khelif, Robert Stevens, Gawesh Jawaheer, Gemma Madle:
A user-centred evaluation framework for the Sealife semantic web browsers. BMC Bioinform. 10(S-10): 14 (2009) - [j36]Rainer Winnenburg, Conrad Plake, Michael Schroeder:
Improved mutation tagging with gene identifiers applied to membrane protein stability prediction. BMC Bioinform. 10(S-8): 3 (2009) - [j35]Conrad Plake, Loïc Royer, Rainer Winnenburg, Jörg Hakenberg, Michael Schroeder:
GoGene: gene annotation in the fast lane. Nucleic Acids Res. 37(Web-Server-Issue): 300-304 (2009) - [c57]Loïc Royer, Conrad Plake, Michael Schroeder:
Identifying Hot Cancer and Novel Novel Cell-cycle Genes from Literature. GCB 2009: 81-92 - [c56]Ed de Quincey, Helen Oliver, Patty Kostkova, Gawesh Jawaheer, Gemma Madle, Gayo Diallo, Dimitra Alexopoulou, Michael Schroeder, Bianca Habermann, Khaled Khelif, Simon Jupp, Robert Stevens:
Mining for Patterns of Semantic Link Usage: Do Domain Users Actually Like Semantic Browsing? Web Intelligence/IAT Workshops 2009: 50-53 - [p3]Andreas Doms, Michael Schroeder:
Semantic Search with GoPubMed. REWERSE 2009: 309-342 - 2008
- [j34]Rainer Winnenburg, Thomas Wächter, Conrad Plake, Andreas Doms, Michael Schroeder:
Facts from text: can text mining help to scale-up high-quality manual curation of gene products with ontologies? Briefings Bioinform. 9(6): 466-478 (2008) - [j33]Dimitra Alexopoulou, Thomas Wächter, Laura Pickersgill, Cecilia Eyre, Michael Schroeder:
Terminologies for text-mining; an experiment in the lipoprotein metabolism domain. BMC Bioinform. 9(S-4) (2008) - [j32]Nicola Cannata, Michael Schroeder, Roberto Marangoni, Paolo Romano:
A Semantic Web for bioinformatics: goals, tools, systems, applications. BMC Bioinform. 9(S-4) (2008) - [j31]Bill Andreopoulos, Dimitra Alexopoulou, Michael Schroeder:
Word Sense Disambiguation in biomedical ontologies with term co-occurrence analysis and document clustering. Int. J. Data Min. Bioinform. 2(3): 193-215 (2008) - [j30]Loïc Royer, Matthias Reimann, Bill Andreopoulos, Michael Schroeder:
Unraveling Protein Networks with Power Graph Analysis. PLoS Comput. Biol. 4(7) (2008) - [c55]Jörg Hakenberg, Conrad Plake, Robert Leaman, Michael Schroeder, Graciela Gonzalez:
Inter-species normalization of gene mentions with GNAT. ECCB 2008: 126-132 - [c54]Rainer Winnenburg, Conrad Plake, Michael Schroeder:
Mutation tagging with gene identifiers applied to membrane protein stability prediction. AIMM 2008 - [c53]Heiko Dietze, Michael Schroeder:
GoWeb: A Semantic Search Engine for the Life Science Web. SWAT4LS 2008 - [p2]Thomas Wächter, Dimitra Alexopoulou, Heiko Dietze, Jörg Hakenberg, Michael Schroeder:
Searching Biomedical Literature with Anatomy Ontologies. Anatomy Ontologies for Bioinformatics 2008: 177-194 - [e5]Andreas Beyer, Michael Schroeder:
Proceedings of the German Conference on Bioinformatics, GCB 2008, September 9-12, 2008, Dresden, Germany. LNI P-136, GI 2008, ISBN 978-3-88579-226-0 [contents] - [i5]Dimitra Alexopoulou, Thomas Wächter, Laura Pickersgill, Cecilia Eyre, Michael Schroeder:
Ontology learning with text mining: Two use cases in lipoprotein metabolism and toxicology. Ontologies and Text Mining for Life Sciences 2008 - [i4]Heiko Dietze, Dimitra Alexopoulou, Michael R. Alvers, Bill Barrio-Alvers, Andreas Doms, Jörg Hakenberg, Jan Mönnich, Conrad Plake, Andreas Reischuck, Loïc Royer, Thomas Wächter, Matthias Zschunke, Michael Schroeder:
GoPubMed: Exploring Pubmed with Ontological Background Knowledge. Ontologies and Text Mining for Life Sciences 2008 - 2007
- [j29]Emanuela Merelli, Giuliano Armano, Nicola Cannata, Flavio Corradini, Mark d'Inverno, Andreas Doms, Phillip W. Lord, Andrew C. R. Martin, Luciano Milanesi, Steffen Möller, Michael Schroeder, Michael Luck:
Agents in bioinformatics, computational and systems biology. Briefings Bioinform. 8(1): 45-59 (2007) - [j28]Annalisa Marsico, Dirk Labudde, K. Tanuj Sapra, Daniel J. Muller, Michael Schroeder:
A novel pattern recognition algorithm to classify membrane protein unfolding pathways with high-throughput single-molecule force spectroscopy. Bioinform. 23(2): 231-236 (2007) - [j27]Bill Andreopoulos, Aijun An, Xiaogang Wang, Michalis Faloutsos, Michael Schroeder:
Clustering by common friends finds locally significant proteins mediating modules. Bioinform. 23(9): 1124-1131 (2007) - [j26]Andreas Henschel, Christof Winter, Wan Kyu Kim, Michael Schroeder:
Using structural motif descriptors for sequence-based binding site prediction. BMC Bioinform. 8(S-4) (2007) - [j25]Loïc Royer, Matthias Reimann, Bill Andreopoulos, Michael Schroeder:
Visualising protein interaction networks with power graphs. BMC Syst. Biol. 1(S-1): P51 (2007) - [c52]Dirk Labudde, Annalisa Marsico, K. Tanuj Sapra, Michael Schroeder:
Pattern Recognition of Single-Molecule Force Spectroscopy Data. ER Workshops 2007: 3-13 - [c51]Frank Dressel, Annalisa Marsico, Anne Tuukkanen, Michael Schroeder, Dirk Labudde:
Understanding of SMFS Barriers by Means of Energy Profiles. German Conference on Bioinformatics 2007: 90-99 - [c50]Gihan Dawelbait, Christof Winter, Yanju Zhang, Christian Pilarsky, Robert Grützmann, Jörg-Christian Heinrich, Michael Schroeder:
Structural templates predict novel protein interactions and targets from pancreas tumour gene expression data. ISMB/ECCB (Supplement of Bioinformatics) 2007: 115-124 - [e4]Mark A. Musen, Michael Schroeder, Barry Smith:
Towards Interoperability of Biomedical Ontologies, 27.03. - 30.03.2007. Dagstuhl Seminar Proceedings 07132, Internationales Begegnungs- und Forschungszentrum für Informatik (IBFI), Schloss Dagstuhl, Germany 2007 [contents] - [e3]Werner Dubitzky, Assaf Schuster, Peter M. A. Sloot, Michael Schroeder, Mathilde Romberg:
Distributed, High-Performance and Grid Computing in Computational Biology , International Workshop, GCCB 2006, Eilat, Israel, January 21, 2007, Proceeding. Lecture Notes in Computer Science 4360, Springer 2007, ISBN 3-540-69841-8 [contents] - [i3]Mark A. Musen, Michael Schroeder, Barry Smith:
07132 Report - Towards Interoperability of Biomedical Ontologies. Towards Interoperability of Biomedical Ontologies 2007 - 2006
- [j24]Andreas Henschel, Wan Kyu Kim, Michael Schroeder:
Equivalent binding sites reveal convergently evolved interaction motifs. Bioinform. 22(5): 550-555 (2006) - [j23]Joan Teyra, Andreas Doms, Michael Schroeder, M. Teresa Pisabarro:
SCOWLP: a web-based database for detailed characterization and visualization of protein interfaces. BMC Bioinform. 7: 104 (2006) - [j22]Christof Winter, Andreas Henschel, Wan Kyu Kim, Michael Schroeder:
SCOPPI: a structural classification of protein-protein interfaces. Nucleic Acids Res. 34(Database-Issue): 310-314 (2006) - [j21]Wan Kyu Kim, Andreas Henschel, Christof Winter, Michael Schroeder:
The Many Faces of Protein-Protein Interactions: A Compendium of Interface Geometry. PLoS Comput. Biol. 2(9) (2006) - [j20]Michael Schroeder, Eric Neumann:
Editorial - Semantic Web for Life Sciences. J. Web Semant. 4(3): 167 (2006) - [c49]Annalisa Marsico, K. Tanuj Sapra, Daniel J. Muller, Michael Schroeder, Dirk Labudde:
A Structure-Based Analysis of Single Molecule Force Spectroscopy (SMFS) Data for Bacteriorhodopsin and Four Mutants. CompLife 2006: 162-172 - [c48]Tobias Kuhn, Loïc Royer, Norbert E. Fuchs, Michael Schroeder:
Improving Text Mining with Controlled Natural Language: A Case Study for Protein Interactions. DILS 2006: 66-81 - [c47]Alexander Kozlenkov, Rafael Peñaloza, Vivek Nigam, Loïc Royer, Gihan Dawelbait, Michael Schroeder:
Prova: Rule-Based Java Scripting for Distributed Web Applications: A Case Study in Bioinformatics. EDBT Workshops 2006: 899-908 - [c46]Craig A. Stewart, Michael Schroeder, Concettina Guerra, Akihiko Konagaya:
Topic 17: High-Performance Bioinformatics. Euro-Par 2006: 1125-1126 - [c45]Samatha Kottha, Michael Schroeder:
Classifying Permanent and Transient Protein Interactions. German Conference on Bioinformatics 2006: 54-63 - [c44]Christof Winter, Thorsten Baust, Bernard Hoflack, Michael Schroeder:
A Novel, Comprehensive Method to Detect and Predict Proteinprotein Interactions Applied to the Study of Vesicular Trafficking. German Conference on Bioinformatics 2006: 129-140 - [c43]Michael Schroeder, Albert Burger, Patty Kostkova, Robert Stevens, Bianca Habermann, Rose Dieng-Kuntz:
Sealife: A Semantic Grid Browser for the Life Sciences Applied to the Study of Infectious Diseases. HealthGrid 2006: 167-178 - [c42]Andreas Doms, Vaida Jakoniene, Patrick Lambrix, Michael Schroeder, Thomas Wächter:
Ontologies and Text Mining as a Basis for a Semantic Web for the Life Sciences. Reasoning Web 2006: 164-183 - [c41]Thomas Wächter, André Wobst, Michael Schroeder, He Tan, Patrick Lambrix:
A corpus-driven approach for design, evolution and alignment of ontologies. WSC 2006: 1595-1602 - 2005
- [j19]Sungsam Gong, Giseok Yoon, Insoo Jang, Dan M. Bolser, Panos Dafas, Michael Schroeder, Hansol Choi, Yoobok Cho, Kyungsook Han, Sunghoon Lee, Hwanho Choi, Michael Lappe, Liisa Holm, Sangsoo Kim, Donghoon Oh, Jonghwa Bhak:
PSIbase: a database of Protein Structural Interactome map (PSIMAP). Bioinform. 21(10): 2541-2543 (2005) - [j18]Daeui Park, Semin Lee, Dan M. Bolser, Michael Schroeder, Michael Lappe, Donghoon Oh, Jong Bhak:
Comparative interactomics analysis of protein family interaction networks using PSIMAP (protein structural interactome map). Bioinform. 21(15): 3234-3240 (2005) - [j17]Andreas Doms, Michael Schroeder:
GoPubMed: exploring PubMed with the Gene Ontology. Nucleic Acids Res. 33(Web-Server-Issue): 783-786 (2005) - [j16]Ralf Schweimeier, Michael Schroeder:
A Parameterised Hierarchy of Argumentation Semantics for Extended Logic Programming and its Application to the Well-founded Semantics. Theory Pract. Log. Program. 5(1-2): 207-242 (2005) - [c40]Gihan Dawelbait, Christian Pilarsky, Yanju Zhang, Robert Grützmann, Michael Schroeder:
Structural Protein Interactions Predict Kinase-Inhibitor Interactions in Upregulated Pancreas Tumour Genes Expression Data. CompLife 2005: 1-11 - [c39]Bingding Huang, Michael Schroeder:
Using residue propensities and tightness of fit to improve rigid-body protein-docking. German Conference on Bioinformatics 2005: 159-173 - 2004
- [j15]Panos Dafas, Dan M. Bolser, Jacek Gomoluch, Jong-Chan Park, Michael Schroeder:
Using convex hulls to extract interaction interfaces from known structures. Bioinform. 20(10): 1486-1490 (2004) - [j14]Jacek Gomoluch, Michael Schroeder:
Performance evaluation of market-based resource allocation for Grid computing. Concurr. Pract. Exp. 16(5): 469-475 (2004) - [j13]François Bry, Wolfgang E. Nagel, Michael Schroeder:
Grid-Computing. Inform. Spektrum 27(6): 542-545 (2004) - [c38]Alexander Kozlenkov, Michael Schroeder:
PROVA: Rule-Based Java-Scripting for a Bioinformatics Semantic Web. DILS 2004: 17-30 - [c37]Ralph Delfs, Andreas Doms, Alexander Kozlenkov, Michael Schroeder:
GoPubMed: ontology-based literature search applied to Gene Ontology and PubMed. German Conference on Bioinformatics 2004: 169-178 - [c36]Ralf Schweimeier, Michael Schroeder:
Fuzzy Unification and Argumentation for Well-Founded Semantics. SOFSEM 2004: 102-121 - [p1]Panos Dafas, Alexander Kozlenkov, Alan Robinson, Michael Schroeder:
Integrating Gene Expression Data, Protein Interaction Data, and Ontology-Based Literature Searches. Artificial Intelligence Methods And Tools For Systems Biology 2004: 107-127 - 2003
- [j12]Dan M. Bolser, Panos Dafas, Richard Harrington, Jong-Chan Park, Michael Schroeder:
Visualisation and graph-theoretic analysis of a large-scale protein structural interactome. BMC Bioinform. 4: 45 (2003) - [j11]Jens Dietrich, Alexander Kozlenkov, Michael Schroeder, Gerd Wagner:
Rule-based agents for the semantic web. Electron. Commer. Res. Appl. 2(4): 323-338 (2003) - [c35]Tshiamo Motshegwa, Michael Schroeder:
Interaction Monitoring and Termination Detection for Agent Societies: Preliminary Results. ESAW 2003: 136-154 - [c34]Penny Noy, Michael Schroeder:
Advancing Profile Use in Agent Societies. ESAW 2003: 360-375 - [c33]Panos Dafas, Dan M. Bolser, Jacek Gomoluch, Jong-Chan Park, Michael Schroeder:
Fast and efficient computation of domain-domaininteractions from known protein structures in the PDB. German Conference on Bioinformatics 2003: 27-32 - [c32]Jacek Gomoluch, Michael Schroeder:
Market-based Resource Allocation for Grid Computing: A Model and Simulation. Middleware Workshops 2003: 211-218 - [c31]Panos Dafas, Jacek Gomoluch, Alexander Kozlenkov, Michael Schroeder:
Structural Protein Interactions: From Months to Minutes. PARCO 2003: 677-684 - [e2]Michael Schroeder, Gerd Wagner:
Rules and Rule Markup Languages for the Semantic Web, Second International Workshop, RuleML 2003, Sanibel Island, FL, USA, October 20, 2003, Proceedings. Lecture Notes in Computer Science 2876, Springer 2003, ISBN 3-540-20361-3 [contents] - [i2]Ralf Schweimeier, Michael Schroeder:
A Parameterised Hierarchy of Argumentation Semantics for Extended Logic Programming and its Application to the Well-founded Semantics. CoRR cs.LO/0311008 (2003) - 2002
- [j10]