Computational approaches to nuclear receptors /

"Nuclear receptors (NR) are ligand-induced activated transcription factors that are involved in numerous biological processes. Since the 1990's when the first structures were determined by means of X ray diffraction, the number of NR structures has increased considerably. Moreover several...

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Bibliographic Details
Other Authors:	Cozzini, Pietro, Kellogg, Glen E.
Format:	eBook
Language:	English
Published:	Cambridge, U.K. : Royal Society of Chemistry, 2012.
Series:	RSC drug discovery series ; 30.
Subjects:	Nuclear receptors (Biochemistry) Nuclear receptors (Biochemistry) > Data processing. Amino Acids, Peptides, and Proteins. Computer Systems. Computers, Molecular. Computers. Computing Methodologies. DNA-Binding Proteins. Information Science. Investigative Techniques. Models, Biological. Models, Theoretical. Proteins. Receptors, Cytoplasmic and Nuclear. Transcription Factors. Biochemistry. SCIENCE > Life Sciences > Molecular Biology. Electronic books.
Online Access:	Connect to the full text of this electronic book

Table of Contents:

Chapter 1 Nuclear Receptors: Connecting Human Health to the Environment; 1.1 Introducing Nuclear Receptors; 1.2 Linking the Environment to the Human Organism:Nuclear Receptors as Mediators of the Action ofEndocrine-active Compounds (EACs); 1.3 How Nuclear Receptors Work; 1.4 Environmental Chemicals and Adverse Effects onHuman Health; 1.5 Reproductive Diseases and Fertility; 1.6 Obesity and Obesogens; 1.7 Conclusion; References; Chapter 2 The Experimental 3D Structure of Nuclear Receptors. AStarting Point for Computational Investigations?; 2.1 Introduction; 2.2 Flexible Proteins.
2.3 Nuclear Receptors2.4 Issues for Structure-based Drug Design in NuclearReceptors; References; Chapter 3 Protein Structure Analysis with Constraint Programming; 3.1 Introduction; 3.2 A Constraint Programming Primer; 3.3 Constraint Programming-based Applications; 3.4 Conclusion and Future Directions; Acknowledgements; References; Chapter 4 Molecular Dynamics: a Tool to Understand Nuclear Receptors; 4.1 Nuclear Receptors: Overview of the Ligand BindingDomain; 4.2 Molecular Dynamics and Protein Flexibility; 4.3 Ligand Binding to Nuclear Receptors; 4.4 Final Remarks; Acknowledgements.
8.4 Spatio-temporal Assessment of the Estrogenic Effectsof Natural and Synthetic Compounds8.5 Conclusion; Acknowledgements; References; Chapter 9 From Computational Simulations on Nuclear Receptors toChemosensors for Food Safety; 9.1 Cyclodextrins: an Overview; 9.2 Cyclodextrins as Chemosensors: Recognition Based onSpectral Changes; 9.3 Cyclodextrin Derivatives: Strategies for ChemicalModification; 9.4 Cyclodextrins as Chemosensors for Food Diagnostics; 9.5 Cyclodextrin-Mycotoxin Complexation: a Case Studyin the Food Safety Field.
Chapter 7 A Nuclear G Protein-coupled Estrogen Receptor, GPER. Homology Modeling Studies Toward Its Ligand-binding ModeCharacterization7.1 G Protein Estrogen Receptor; 7.2 Homology Modeling; 7.3 G Protein Estrogen Receptor 3D Model and LigandbindingMode Study; 7.4 Discussion; References; Chapter 8 Reporter Bioluminescent Mice to Test Computational Studies; 8.1 Introduction; 8.2 Screening of Compounds Active Through the ERUsing the ERE-Luc Mouse; 8.3 Study of the Effects of Estrogenic Compounds onBrain ER Activity.