Structural bioinformatics tools for drug design : extraction of biologically relevant information from structural databases /: extraction of biologically relevant information from structural databases. ([2016])

Record Type:: Book
Title:: Structural bioinformatics tools for drug design : extraction of biologically relevant information from structural databases /: extraction of biologically relevant information from structural databases. ([2016])
Main Title:: Structural bioinformatics tools for drug design : extraction of biologically relevant information from structural databases
Further Information:: Note: Jaroslav Koča [and six more].
Authors:: Koča, Jaroslav
Vařeková, Radka Svobodová
Pravda, Lukáš
Berka, Karel
Geidl, Stanislav
Sehnal, David
Otyepka, Michal
Contents:: Acknowledgement; Contents; Contributors; 1 Introduction; References; Part I Patterns, Fragments and Data Sources; 2 Biomacromolecular Fragments and Patterns; 2.1 Pattern Examples; 2.1.1 Active Site and Their Inhibition -- Cyclooxygenase Inhibitors; 2.1.2 Allosteric Site -- Structural Flexibility of HIV Protease; 2.1.3 Transcription Factor -- Zinc Finger Motif; 2.2 Pattern Prediction; 2.2.1 Ubiquitin-Binding Domain Prediction; 2.2.2 Pattern Detection; 2.2.3 Phosphorylation of Drug Binding Pockets; References; 3 Structural Bioinformatics Databases of General Use. 3.1 How a Biomacromolecule Looks Codes What It Does3.2 Worldwide Protein Data Bank (PDB) -- Essential Structure Repository; 3.2.1 Protein Data Bank in Europe (PDBe); 3.2.2 RCSB PDB; 3.3 Other Notable Databases; 3.3.1 PDBsum -- Pictorial View on PDB Database; 3.3.2 PDB_REDO and WHY_NOT Databases for Curated Structures; 3.3.3 CATH and Pfam Databases for Classification of Protein Folds and Sequences; 3.3.4 PDB Flex, Pocketome and PED3 Databases to Analyze Protein Flexibility and Disorder; 3.3.5 OPM and MemProtMD Databases for Membrane Protein. 3.3.6 NDB and GFDB Databases for Other Macromolecules 3.3.7 UniProt and ChEMBL Databases -- Power of Connection; 3.4 Conclusion; 3.5 Exercises; 3.5.1 Use of PDBe; 3.5.2 Use of RCSB and ChEMBL; 3.5.3 Use of PDBsum; 3.5.4 Use of CATH; References; 4 Validation; 4.1 Introduction and Motivation; 4.2 Nipah G Attachment Glycoprotein Validation Example; 4.3 Objects of Validation; 4.4 … (more)
Publisher Details:: Cham, Switzerland : Springer
Publication Date:: 2016
Extent:: 1 online resource
Subjects:: 572/.330285
Medicine
Structural bioinformatics
Drugs -- Design
SCIENCE -- Life Sciences -- Biochemistry
Drugs -- Design
Structural bioinformatics
Biomedicine
Biomedical Engineering/Biotechnology
Bioinformatics
Computational Biology/Bioinformatics
Science -- Life Sciences -- Anatomy & Physiology
Computers -- Computer Science
Molecular biology
Life sciences: general issues
Biomedical engineering
Bioinformatics
Medical -- Allied Health Services -- Medical Technology
Biomedical engineering
Electronic books
Languages:: English
ISBNs:: 9783319473888
3319473883
Related ISBNs:: 9783319473871
3319473875
Notes:: Note: Includes bibliographical references and index.
Note: Online resource; title from PDF title page (SpringerLink, viewed February 3, 2017).
Access Rights:: Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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Ingest File:: 02_353.xml