Verfügbarkeit: Protein degradation with new chemical modalities :

Protein degradation with new chemical modalities :: successful strategies in drug discovery and chemical biology /

This book provides a comprehensive overview from the leading academic and industrial experts on recent developments, scope and limitations in this dynamically growing research area; an ideal reference work for researchers in drug discovery and chemical biology as well as advanced students.

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Bibliographische Detailangaben
Weitere Verfasser:	Weinmann, Hilmar (HerausgeberIn), Crews, Craig (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Cambridge : Royal Society of Chemistry, 2020.
Schriftenreihe:	RSC drug discovery series ; 74.
Schlagworte:	Drugs > Design. Proteolysis. Drug Design Proteolysis Médicaments > Conception. Protéolyse. Drugs > Design
Online-Zugang:	Volltext
Zusammenfassung:	This book provides a comprehensive overview from the leading academic and industrial experts on recent developments, scope and limitations in this dynamically growing research area; an ideal reference work for researchers in drug discovery and chemical biology as well as advanced students.
Beschreibung:	1 online resource
ISBN:	9781839160691 1839160691 1839160772 9781839160776

Internformat

MARC


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505	0		\|a Cover -- Half Title -- Series Information -- Title Page -- Copyright Page -- Preface -- Contents -- Chapter 1 PROTAC-mediated Target Degradation: A Paradigm Changer in Drug Discovery? -- References -- Chapter 2 Structural and Biophysical Principles of Degrader Ternary Complexes -- 2.1 Introduction -- 2.1.1 Mechanistic Advantages of Targeted Protein Degradation -- 2.1.1.1 Immediate Advantages of Degradation Versus Inhibition -- 2.1.1.2 Differentiation of Degraders due to Their Mode of Action -- 2.1.2 History of PROTACs (2001-2010) -- 2.1.3 Small-molecule VHL- and CRBN-based PROTACs (2010-2015)
505	8		\|a 2.2 Structural Features of Ternary Complexes -- 2.2.1 Ternary Complex Equilibria and Definitions -- 2.2.2 Structural Elucidation of PROTAC Ternary Complexes -- 2.2.2.1 The First PROTAC Ternary Complex Crystal Structure: VHL:MZ1:Brd4BD2 -- 2.2.2.2 Structure-guided design of SMARCA2/4 PROTACs -- 2.2.2.3 Ternary Structures of CRBN-based PROTACs -- 2.2.3 Degraders as Monovalent Molecular Glues -- 2.2.3.1 Cereblon-targeting Immunomodulatory Drugs -- 2.2.3.2 DCAF15-targeting Sulfonamide Drugs -- 2.2.4 Surface Areas Buried by PROTACs and Monovalent Glues -- 2.3 Ternary Assays
505	8		\|a 2.3.1 Can My PROTAC Form a Ternary Complex? -- 2.3.1.1 Pull-down Assays -- 2.3.1.2 Proximity-based Ternary Assays: AlphaScreen/LISA and TR-FRET -- 2.3.1.3 Surface Plasmon Resonance -- 2.3.2 How Tightly Does My Ternary Complex Bind? -- 2.3.2.1 Competition Assays -- 2.3.2.2 Direct Binding Assays -- 2.3.3 To What Extent Is My Ternary Complex Cooperative? -- 2.3.4 How Long Does My Ternary Complex Last? -- 2.3.5 Does the PROTAC Induce Ternary Complex Formation in Cells? -- 2.3.5.1 Separation of Phases-based Protein Interaction Reporter Assay (SPPIER)
505	8		\|a 2.3.5.2 Bioluminescence Resonance Energy Transfer (BRET) -- 2.4 Concluding Remarks -- 2.5 Acknowledgments -- 2.5.1 Funding -- 2.5.2 Conflict of Interest Statement -- References -- Chapter 3 Immediate and Selective Control of Protein Abundance Using the dTAG System -- 3.1 The Potential and Limitations of Targeted Protein Degradation -- 3.2 Chemical-Genetic Degradation Approaches -- 3.3 Development of the dTAG Platform -- 3.4 Genetic Methods to Express FKBP12F36V-fusions -- 3.4.1 Ectopic Expression of FKBP12F36V-fusions -- 3.4.2 Knock-in Strategies to Express FKBP12F36V-fusions
505	8		\|a 3.5 Strategies Towards Identification of a Lead dTAG Molecule -- 3.5.1 Biochemical Assays for FKBP12F36V and E3 Ligase Binding -- 3.5.2 Determining FKBP12F36V-specific Degradation in Cells -- 3.5.3 Requirement of E3 Ligase and Proteasome -- 3.5.4 Assessment of dTAG Molecule Selectivity -- 3.5.5 In Vivo Assessment of dTAG Molecule Activity -- 3.6 Case Studies Employing the dTAG Platform -- 3.6.1 Target Validation Using dTAG -- 3.6.2 Targeting Recalcitrant Oncoproteins Using dTAG -- 3.6.3 Targeting Essential Transcriptional Regulators Using dTAG
520			\|a This book provides a comprehensive overview from the leading academic and industrial experts on recent developments, scope and limitations in this dynamically growing research area; an ideal reference work for researchers in drug discovery and chemical biology as well as advanced students.
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contents	Cover -- Half Title -- Series Information -- Title Page -- Copyright Page -- Preface -- Contents -- Chapter 1 PROTAC-mediated Target Degradation: A Paradigm Changer in Drug Discovery? -- References -- Chapter 2 Structural and Biophysical Principles of Degrader Ternary Complexes -- 2.1 Introduction -- 2.1.1 Mechanistic Advantages of Targeted Protein Degradation -- 2.1.1.1 Immediate Advantages of Degradation Versus Inhibition -- 2.1.1.2 Differentiation of Degraders due to Their Mode of Action -- 2.1.2 History of PROTACs (2001-2010) -- 2.1.3 Small-molecule VHL- and CRBN-based PROTACs (2010-2015) 2.2 Structural Features of Ternary Complexes -- 2.2.1 Ternary Complex Equilibria and Definitions -- 2.2.2 Structural Elucidation of PROTAC Ternary Complexes -- 2.2.2.1 The First PROTAC Ternary Complex Crystal Structure: VHL:MZ1:Brd4BD2 -- 2.2.2.2 Structure-guided design of SMARCA2/4 PROTACs -- 2.2.2.3 Ternary Structures of CRBN-based PROTACs -- 2.2.3 Degraders as Monovalent Molecular Glues -- 2.2.3.1 Cereblon-targeting Immunomodulatory Drugs -- 2.2.3.2 DCAF15-targeting Sulfonamide Drugs -- 2.2.4 Surface Areas Buried by PROTACs and Monovalent Glues -- 2.3 Ternary Assays 2.3.1 Can My PROTAC Form a Ternary Complex? -- 2.3.1.1 Pull-down Assays -- 2.3.1.2 Proximity-based Ternary Assays: AlphaScreen/LISA and TR-FRET -- 2.3.1.3 Surface Plasmon Resonance -- 2.3.2 How Tightly Does My Ternary Complex Bind? -- 2.3.2.1 Competition Assays -- 2.3.2.2 Direct Binding Assays -- 2.3.3 To What Extent Is My Ternary Complex Cooperative? -- 2.3.4 How Long Does My Ternary Complex Last? -- 2.3.5 Does the PROTAC Induce Ternary Complex Formation in Cells? -- 2.3.5.1 Separation of Phases-based Protein Interaction Reporter Assay (SPPIER) 2.3.5.2 Bioluminescence Resonance Energy Transfer (BRET) -- 2.4 Concluding Remarks -- 2.5 Acknowledgments -- 2.5.1 Funding -- 2.5.2 Conflict of Interest Statement -- References -- Chapter 3 Immediate and Selective Control of Protein Abundance Using the dTAG System -- 3.1 The Potential and Limitations of Targeted Protein Degradation -- 3.2 Chemical-Genetic Degradation Approaches -- 3.3 Development of the dTAG Platform -- 3.4 Genetic Methods to Express FKBP12F36V-fusions -- 3.4.1 Ectopic Expression of FKBP12F36V-fusions -- 3.4.2 Knock-in Strategies to Express FKBP12F36V-fusions 3.5 Strategies Towards Identification of a Lead dTAG Molecule -- 3.5.1 Biochemical Assays for FKBP12F36V and E3 Ligase Binding -- 3.5.2 Determining FKBP12F36V-specific Degradation in Cells -- 3.5.3 Requirement of E3 Ligase and Proteasome -- 3.5.4 Assessment of dTAG Molecule Selectivity -- 3.5.5 In Vivo Assessment of dTAG Molecule Activity -- 3.6 Case Studies Employing the dTAG Platform -- 3.6.1 Target Validation Using dTAG -- 3.6.2 Targeting Recalcitrant Oncoproteins Using dTAG -- 3.6.3 Targeting Essential Transcriptional Regulators Using dTAG
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series	RSC drug discovery series ;
series2	RSC drug discovery ;
spelling	Protein degradation with new chemical modalities : successful strategies in drug discovery and chemical biology / edited by Hilmar Weinmann, Craig Crews. Cambridge : Royal Society of Chemistry, 2020. 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier RSC drug discovery ; 74 Print version record. Cover -- Half Title -- Series Information -- Title Page -- Copyright Page -- Preface -- Contents -- Chapter 1 PROTAC-mediated Target Degradation: A Paradigm Changer in Drug Discovery? -- References -- Chapter 2 Structural and Biophysical Principles of Degrader Ternary Complexes -- 2.1 Introduction -- 2.1.1 Mechanistic Advantages of Targeted Protein Degradation -- 2.1.1.1 Immediate Advantages of Degradation Versus Inhibition -- 2.1.1.2 Differentiation of Degraders due to Their Mode of Action -- 2.1.2 History of PROTACs (2001-2010) -- 2.1.3 Small-molecule VHL- and CRBN-based PROTACs (2010-2015) 2.2 Structural Features of Ternary Complexes -- 2.2.1 Ternary Complex Equilibria and Definitions -- 2.2.2 Structural Elucidation of PROTAC Ternary Complexes -- 2.2.2.1 The First PROTAC Ternary Complex Crystal Structure: VHL:MZ1:Brd4BD2 -- 2.2.2.2 Structure-guided design of SMARCA2/4 PROTACs -- 2.2.2.3 Ternary Structures of CRBN-based PROTACs -- 2.2.3 Degraders as Monovalent Molecular Glues -- 2.2.3.1 Cereblon-targeting Immunomodulatory Drugs -- 2.2.3.2 DCAF15-targeting Sulfonamide Drugs -- 2.2.4 Surface Areas Buried by PROTACs and Monovalent Glues -- 2.3 Ternary Assays 2.3.1 Can My PROTAC Form a Ternary Complex? -- 2.3.1.1 Pull-down Assays -- 2.3.1.2 Proximity-based Ternary Assays: AlphaScreen/LISA and TR-FRET -- 2.3.1.3 Surface Plasmon Resonance -- 2.3.2 How Tightly Does My Ternary Complex Bind? -- 2.3.2.1 Competition Assays -- 2.3.2.2 Direct Binding Assays -- 2.3.3 To What Extent Is My Ternary Complex Cooperative? -- 2.3.4 How Long Does My Ternary Complex Last? -- 2.3.5 Does the PROTAC Induce Ternary Complex Formation in Cells? -- 2.3.5.1 Separation of Phases-based Protein Interaction Reporter Assay (SPPIER) 2.3.5.2 Bioluminescence Resonance Energy Transfer (BRET) -- 2.4 Concluding Remarks -- 2.5 Acknowledgments -- 2.5.1 Funding -- 2.5.2 Conflict of Interest Statement -- References -- Chapter 3 Immediate and Selective Control of Protein Abundance Using the dTAG System -- 3.1 The Potential and Limitations of Targeted Protein Degradation -- 3.2 Chemical-Genetic Degradation Approaches -- 3.3 Development of the dTAG Platform -- 3.4 Genetic Methods to Express FKBP12F36V-fusions -- 3.4.1 Ectopic Expression of FKBP12F36V-fusions -- 3.4.2 Knock-in Strategies to Express FKBP12F36V-fusions 3.5 Strategies Towards Identification of a Lead dTAG Molecule -- 3.5.1 Biochemical Assays for FKBP12F36V and E3 Ligase Binding -- 3.5.2 Determining FKBP12F36V-specific Degradation in Cells -- 3.5.3 Requirement of E3 Ligase and Proteasome -- 3.5.4 Assessment of dTAG Molecule Selectivity -- 3.5.5 In Vivo Assessment of dTAG Molecule Activity -- 3.6 Case Studies Employing the dTAG Platform -- 3.6.1 Target Validation Using dTAG -- 3.6.2 Targeting Recalcitrant Oncoproteins Using dTAG -- 3.6.3 Targeting Essential Transcriptional Regulators Using dTAG This book provides a comprehensive overview from the leading academic and industrial experts on recent developments, scope and limitations in this dynamically growing research area; an ideal reference work for researchers in drug discovery and chemical biology as well as advanced students. Drugs Design. http://id.loc.gov/authorities/subjects/sh88001157 Proteolysis. http://id.loc.gov/authorities/subjects/sh2015000809 Drug Design https://id.nlm.nih.gov/mesh/D015195 Proteolysis https://id.nlm.nih.gov/mesh/D059748 Médicaments Conception. Protéolyse. Drugs Design fast Proteolysis fast Weinmann, Hilmar, editor. http://id.loc.gov/authorities/names/n2003007544 Crews, Craig, editor. has work: Protein degradation with new chemical modalities (Text) https://id.oclc.org/worldcat/entity/E39PCGHQB4XbPwR9FQBQ33qHhb https://id.oclc.org/worldcat/ontology/hasWork Print version: Protein degradation with new chemical modalities 9781788016865 (OCoLC)1197735924 RSC drug discovery series ; 74. http://id.loc.gov/authorities/names/no2010092643 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2654401 Volltext
spellingShingle	Protein degradation with new chemical modalities : successful strategies in drug discovery and chemical biology / RSC drug discovery series ; Cover -- Half Title -- Series Information -- Title Page -- Copyright Page -- Preface -- Contents -- Chapter 1 PROTAC-mediated Target Degradation: A Paradigm Changer in Drug Discovery? -- References -- Chapter 2 Structural and Biophysical Principles of Degrader Ternary Complexes -- 2.1 Introduction -- 2.1.1 Mechanistic Advantages of Targeted Protein Degradation -- 2.1.1.1 Immediate Advantages of Degradation Versus Inhibition -- 2.1.1.2 Differentiation of Degraders due to Their Mode of Action -- 2.1.2 History of PROTACs (2001-2010) -- 2.1.3 Small-molecule VHL- and CRBN-based PROTACs (2010-2015) 2.2 Structural Features of Ternary Complexes -- 2.2.1 Ternary Complex Equilibria and Definitions -- 2.2.2 Structural Elucidation of PROTAC Ternary Complexes -- 2.2.2.1 The First PROTAC Ternary Complex Crystal Structure: VHL:MZ1:Brd4BD2 -- 2.2.2.2 Structure-guided design of SMARCA2/4 PROTACs -- 2.2.2.3 Ternary Structures of CRBN-based PROTACs -- 2.2.3 Degraders as Monovalent Molecular Glues -- 2.2.3.1 Cereblon-targeting Immunomodulatory Drugs -- 2.2.3.2 DCAF15-targeting Sulfonamide Drugs -- 2.2.4 Surface Areas Buried by PROTACs and Monovalent Glues -- 2.3 Ternary Assays 2.3.1 Can My PROTAC Form a Ternary Complex? -- 2.3.1.1 Pull-down Assays -- 2.3.1.2 Proximity-based Ternary Assays: AlphaScreen/LISA and TR-FRET -- 2.3.1.3 Surface Plasmon Resonance -- 2.3.2 How Tightly Does My Ternary Complex Bind? -- 2.3.2.1 Competition Assays -- 2.3.2.2 Direct Binding Assays -- 2.3.3 To What Extent Is My Ternary Complex Cooperative? -- 2.3.4 How Long Does My Ternary Complex Last? -- 2.3.5 Does the PROTAC Induce Ternary Complex Formation in Cells? -- 2.3.5.1 Separation of Phases-based Protein Interaction Reporter Assay (SPPIER) 2.3.5.2 Bioluminescence Resonance Energy Transfer (BRET) -- 2.4 Concluding Remarks -- 2.5 Acknowledgments -- 2.5.1 Funding -- 2.5.2 Conflict of Interest Statement -- References -- Chapter 3 Immediate and Selective Control of Protein Abundance Using the dTAG System -- 3.1 The Potential and Limitations of Targeted Protein Degradation -- 3.2 Chemical-Genetic Degradation Approaches -- 3.3 Development of the dTAG Platform -- 3.4 Genetic Methods to Express FKBP12F36V-fusions -- 3.4.1 Ectopic Expression of FKBP12F36V-fusions -- 3.4.2 Knock-in Strategies to Express FKBP12F36V-fusions 3.5 Strategies Towards Identification of a Lead dTAG Molecule -- 3.5.1 Biochemical Assays for FKBP12F36V and E3 Ligase Binding -- 3.5.2 Determining FKBP12F36V-specific Degradation in Cells -- 3.5.3 Requirement of E3 Ligase and Proteasome -- 3.5.4 Assessment of dTAG Molecule Selectivity -- 3.5.5 In Vivo Assessment of dTAG Molecule Activity -- 3.6 Case Studies Employing the dTAG Platform -- 3.6.1 Target Validation Using dTAG -- 3.6.2 Targeting Recalcitrant Oncoproteins Using dTAG -- 3.6.3 Targeting Essential Transcriptional Regulators Using dTAG Drugs Design. http://id.loc.gov/authorities/subjects/sh88001157 Proteolysis. http://id.loc.gov/authorities/subjects/sh2015000809 Drug Design https://id.nlm.nih.gov/mesh/D015195 Proteolysis https://id.nlm.nih.gov/mesh/D059748 Médicaments Conception. Protéolyse. Drugs Design fast Proteolysis fast
subject_GND	http://id.loc.gov/authorities/subjects/sh88001157 http://id.loc.gov/authorities/subjects/sh2015000809 https://id.nlm.nih.gov/mesh/D015195 https://id.nlm.nih.gov/mesh/D059748
title	Protein degradation with new chemical modalities : successful strategies in drug discovery and chemical biology /
title_auth	Protein degradation with new chemical modalities : successful strategies in drug discovery and chemical biology /
title_exact_search	Protein degradation with new chemical modalities : successful strategies in drug discovery and chemical biology /
title_full	Protein degradation with new chemical modalities : successful strategies in drug discovery and chemical biology / edited by Hilmar Weinmann, Craig Crews.
title_fullStr	Protein degradation with new chemical modalities : successful strategies in drug discovery and chemical biology / edited by Hilmar Weinmann, Craig Crews.
title_full_unstemmed	Protein degradation with new chemical modalities : successful strategies in drug discovery and chemical biology / edited by Hilmar Weinmann, Craig Crews.
title_short	Protein degradation with new chemical modalities :
title_sort	protein degradation with new chemical modalities successful strategies in drug discovery and chemical biology
title_sub	successful strategies in drug discovery and chemical biology /
topic	Drugs Design. http://id.loc.gov/authorities/subjects/sh88001157 Proteolysis. http://id.loc.gov/authorities/subjects/sh2015000809 Drug Design https://id.nlm.nih.gov/mesh/D015195 Proteolysis https://id.nlm.nih.gov/mesh/D059748 Médicaments Conception. Protéolyse. Drugs Design fast Proteolysis fast
topic_facet	Drugs Design. Proteolysis. Drug Design Proteolysis Médicaments Conception. Protéolyse. Drugs Design
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2654401
work_keys_str_mv	AT weinmannhilmar proteindegradationwithnewchemicalmodalitiessuccessfulstrategiesindrugdiscoveryandchemicalbiology AT crewscraig proteindegradationwithnewchemicalmodalitiessuccessfulstrategiesindrugdiscoveryandchemicalbiology

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