Identification of Ligand Binding Site and Protein-Protein Interaction Area
This volume presents a review of the latest numerical techniques used to identify ligand binding and protein complexation sites. It should be noted that there are many other theoretical studies devoted to predicting the activity of specific proteins and that useful protein data can be found in numer...
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Language: | English |
Published: |
Dordrecht :
Springer Netherlands : Imprint: Springer,
2013.
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Edition: | 1st ed. 2013. |
Series: | Focus on Structural Biology,
8 |
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Online Access: | https://doi.org/10.1007/978-94-007-5285-6 |
Table of Contents:
- Contributors
- Foreword
- Chapter 1 SuMo, J-A. Chemelle, E. Bettler, CH. Combet, R. Terreux, CH. Geourjon, G. Deleage
- Chapter 2 Identification of pockets on protein surface to predict protein–ligand binding sites, Binding Huang
- Chapter 3 Can the structure of the hydrophobic core determine the complexation site?, M. Banach, L. Konieczny, I. Roterman
- Chapter 4 Comparative analysis of techniques oriented on the recognition of ligand binding area in proteins, P. Alejster, M. Banach, W. Jurkowski, D. Marchewka, I. Roterman
- Chapter 5 Docking predictions of protein-protein interactions and their assessment, Joel Janin
- Chapter 6 Prediction of protein-protein binding interfaces, D. Marchewka, W. Jurkowski, M. Banach, I. Roterman
- Chapter 7 Support for Cooperative Experiments in e-Science: From Scientific Workflows to Knowledge Sharing, A. Belloum, R. Cushing, S. Koulouzis, V. Korkhov, D. Vasunin, V. Guevara-Masis, Z. Zhao, M. Bubak
- Index.