The Resource Protein and peptide folding, misfolding, and non-folding, edited by Reinhard Schweitzer-Stenner, (electronic resource)

Protein and peptide folding, misfolding, and non-folding, edited by Reinhard Schweitzer-Stenner, (electronic resource)

Label
Protein and peptide folding, misfolding, and non-folding
Title
Protein and peptide folding, misfolding, and non-folding
Statement of responsibility
edited by Reinhard Schweitzer-Stenner
Contributor
Subject
Language
eng
Summary
"This book provides an overview on what researchers have learned about unfolded peptides and how this knowledge facilitates the understanding of (a) the folding process, (b) the binding of ligands to receptor molecules, and (c) peptide self-aggregation. In this context, different experimental, theoretical, and computational concepts and approaches are introduced. This book can become a very useful addition for graduate-level courses on protein folding for the education of undergraduate and graduate students in research groups, which are exploring peptide self-aggregation for biomedical and biotechnological purposes"--
Member of
Assigning source
Provided by publisher
Cataloging source
DLC
Illustrations
  • illustrations
  • plates
Index
index present
LC call number
QP551
LC item number
.P75 2012
Literary form
non fiction
Nature of contents
bibliography
http://library.link/vocab/relatedWorkOrContributorName
Schweitzer-Stenner, Reinhard
Series statement
Wiley series in protein and peptide science
http://library.link/vocab/subjectName
  • Protein folding
  • Peptides
Label
Protein and peptide folding, misfolding, and non-folding, edited by Reinhard Schweitzer-Stenner, (electronic resource)
Instantiates
Publication
Note
Description based upon print version of record
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier category code
  • cr
Content category
text
Content type code
  • txt
Contents
  • PROTEIN AND PEPTIDE FOLDING, MISFOLDING, AND NON-FOLDING; CONTENTS; INTRODUCTION TO THE WILEY SERIES ON PROTEIN AND PEPTIDE SCIENCE; PREFACE; CONTRIBUTORS; INTRODUCTION; 1: WHY ARE WE INTERESTED IN THE UNFOLDED PEPTIDES AND PROTEINS? Vladimir N. Uversky and A. Keith Dunker; 1.1. INTRODUCTION; 1.2. WHY STUDY IDPS?; 1.3. LESSON 1: DISORDEREDNESS IS ENCODED IN THE AMINO ACID SEQUENCE AND CAN BE PREDICTED; 1.4. LESSON 2: DISORDERED PROTEINS ARE HIGHLY ABUNDANT IN NATURE; 1.5. LESSON 3: DISORDERED PROTEINS ARE GLOBALLY HETEROGENEOUS
  • 1.6. LESSON 4: HYDRODYNAMIC DIMENSIONS OF NATIVELY UNFOLDED PROTEINS ARE CHARGE DEPENDENT1.7. LESSON 5: POLYMER PHYSICS EXPLAINS HYDRODYNAMIC BEHAVIOR OF DISORDERED PROTEINS; 1.8. LESSON 6: NATIVELY UNFOLDED PROTEINS ARE PLIABLE AND VERY SENSITIVE TO THEIR ENVIRONMENT; 1.9. LESSON 7: WHEN BOUND, NATIVELY UNFOLDED PROTEINS CAN GAIN UNUSUAL STRUCTURES; 1.10. LESSON 8: IDPS CAN FORM DISORDERED OR FUZZY COMPLEXES; 1.11. LESSON 9: INTRINSIC DISORDER IS CRUCIAL FOR RECOGNITION, REGULATION, AND SIGNALING; 1.12. LESSON 10: PROTEIN POSTTRANSLATIONAL MODIFICATIONS OCCUR AT DISORDERED REGIONS
  • 1.13. LESSON 11: DISORDERED REGIONS ARE PRIMARY TARGETS FOR AS1.14. LESSON 12: DISORDERED PROTEINS ARE TIGHTLY REGULATED IN THE LIVING CELLS; 1.15. LESSON 13: NATIVELY UNFOLDED PROTEINS ARE FREQUENTLY ASSOCIATED WITH HUMAN DISEASES; 1.16. LESSON 14: NATIVELY UNFOLDED PROTEINS ARE ATTRACTIVE DRUG TARGETS; 1.17. LESSON 15: BRIGHT FUTURE OF FUZZY PROTEINS; ACKNOWLEDGMENTS; REFERENCES; I: CONFORMATIONAL ANALYSISOF UNFOLDED STATES; 2: EXPLORING THE ENERGY LANDSCAPE OF SMALL PEPTIDES AND PROTEINS BY MOLECULAR DYNAMICS SIMULATIONS Gerhard Stock, Abhinav Jain, Laura Riccardi, and Phuong H. Nguyen
  • 2.1. INTRODUCTION: FREE ENERGY LANDSCAPES AND HOW TO CONSTRUCT THEM2.2. DIHEDRAL ANGLE PCA ALLOWS US TO SEPARATE INTERNAL AND GLOBAL MOTION; 2.3. DIMENSIONALITY OF THE FREE ENERGY LANDSCAPE; 2.4. CHARACTERIZATION OF THE FREE ENERGY LANDSCAPE: STATES, BARRIERS, AND TRANSITIONS; 2.5. LOW-DIMENSIONAL SIMULATION OF BIOMOLECULAR DYNAMICS TO CATCH SLOW AND RARE PROCESSES; 2.6. PCA BY PARTS: THE FOLDING PATHWAYS OF VILLIN HEADPIECE; 2.7. THE ENERGY LANDSCAPE OF AGGREGATING Aß-PEPTIDES; 2.8. CONCLUDING REMARKS; ACKNOWLEDGMENTS; REFERENCES
  • 3: LOCAL BACKBONE PREFERENCES AND NEAREST-NEIGHBOR EFFECTS IN THE UNFOLDED AND NATIVE STATES Joe DeBartolo, Abhishek Jha, Karl F. Freed, and Tobin R. Sosnick3.1. INTRODUCTION; 3.2. EARLY DAYS: RANDOM COIL-THEORY AND EXPERIMENT; 3.3. DENATURED PROTEINS AS SELF-AVOIDING RANDOM COILS; 3.4. MODELING THE UNFOLDED STATE; 3.5. NN EFFECTS IN PROTEIN STRUCTURE PREDICTION; 3.6. UTILIZING FOLDING PATHWAYS FORSTRUCTURE PREDICTION; 3.7. NATIVE STATE MODELING; 3.8. SECONDARY-STRUCTURE PROPENSITIES: NATIVE BACKBONES IN UNFOLDED PROTEINS; 3.9. CONCLUSIONS; ACKNOWLEDGMENTS; REFERENCES
  • 4: SHORT-DISTANCE FRET APPLIED TO THE POLYPEPTIDE CHAIN Maik H. Jacob and Werner M. Nau
Dimensions
unknown
Extent
1 online resource (596 p.)
Form of item
online
Isbn
9781118183373
Media category
computer
Media type code
  • c
Specific material designation
remote
System control number
  • (CKB)2670000000148272
  • (EBL)818526
  • (OCoLC)777374858
  • (SSID)ssj0000622312
  • (PQKBManifestationID)11392465
  • (PQKBTitleCode)TC0000622312
  • (PQKBWorkID)10637284
  • (PQKB)10351106
  • (MiAaPQ)EBC818526
  • (EXLCZ)992670000000148272
Label
Protein and peptide folding, misfolding, and non-folding, edited by Reinhard Schweitzer-Stenner, (electronic resource)
Publication
Note
Description based upon print version of record
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier category code
  • cr
Content category
text
Content type code
  • txt
Contents
  • PROTEIN AND PEPTIDE FOLDING, MISFOLDING, AND NON-FOLDING; CONTENTS; INTRODUCTION TO THE WILEY SERIES ON PROTEIN AND PEPTIDE SCIENCE; PREFACE; CONTRIBUTORS; INTRODUCTION; 1: WHY ARE WE INTERESTED IN THE UNFOLDED PEPTIDES AND PROTEINS? Vladimir N. Uversky and A. Keith Dunker; 1.1. INTRODUCTION; 1.2. WHY STUDY IDPS?; 1.3. LESSON 1: DISORDEREDNESS IS ENCODED IN THE AMINO ACID SEQUENCE AND CAN BE PREDICTED; 1.4. LESSON 2: DISORDERED PROTEINS ARE HIGHLY ABUNDANT IN NATURE; 1.5. LESSON 3: DISORDERED PROTEINS ARE GLOBALLY HETEROGENEOUS
  • 1.6. LESSON 4: HYDRODYNAMIC DIMENSIONS OF NATIVELY UNFOLDED PROTEINS ARE CHARGE DEPENDENT1.7. LESSON 5: POLYMER PHYSICS EXPLAINS HYDRODYNAMIC BEHAVIOR OF DISORDERED PROTEINS; 1.8. LESSON 6: NATIVELY UNFOLDED PROTEINS ARE PLIABLE AND VERY SENSITIVE TO THEIR ENVIRONMENT; 1.9. LESSON 7: WHEN BOUND, NATIVELY UNFOLDED PROTEINS CAN GAIN UNUSUAL STRUCTURES; 1.10. LESSON 8: IDPS CAN FORM DISORDERED OR FUZZY COMPLEXES; 1.11. LESSON 9: INTRINSIC DISORDER IS CRUCIAL FOR RECOGNITION, REGULATION, AND SIGNALING; 1.12. LESSON 10: PROTEIN POSTTRANSLATIONAL MODIFICATIONS OCCUR AT DISORDERED REGIONS
  • 1.13. LESSON 11: DISORDERED REGIONS ARE PRIMARY TARGETS FOR AS1.14. LESSON 12: DISORDERED PROTEINS ARE TIGHTLY REGULATED IN THE LIVING CELLS; 1.15. LESSON 13: NATIVELY UNFOLDED PROTEINS ARE FREQUENTLY ASSOCIATED WITH HUMAN DISEASES; 1.16. LESSON 14: NATIVELY UNFOLDED PROTEINS ARE ATTRACTIVE DRUG TARGETS; 1.17. LESSON 15: BRIGHT FUTURE OF FUZZY PROTEINS; ACKNOWLEDGMENTS; REFERENCES; I: CONFORMATIONAL ANALYSISOF UNFOLDED STATES; 2: EXPLORING THE ENERGY LANDSCAPE OF SMALL PEPTIDES AND PROTEINS BY MOLECULAR DYNAMICS SIMULATIONS Gerhard Stock, Abhinav Jain, Laura Riccardi, and Phuong H. Nguyen
  • 2.1. INTRODUCTION: FREE ENERGY LANDSCAPES AND HOW TO CONSTRUCT THEM2.2. DIHEDRAL ANGLE PCA ALLOWS US TO SEPARATE INTERNAL AND GLOBAL MOTION; 2.3. DIMENSIONALITY OF THE FREE ENERGY LANDSCAPE; 2.4. CHARACTERIZATION OF THE FREE ENERGY LANDSCAPE: STATES, BARRIERS, AND TRANSITIONS; 2.5. LOW-DIMENSIONAL SIMULATION OF BIOMOLECULAR DYNAMICS TO CATCH SLOW AND RARE PROCESSES; 2.6. PCA BY PARTS: THE FOLDING PATHWAYS OF VILLIN HEADPIECE; 2.7. THE ENERGY LANDSCAPE OF AGGREGATING Aß-PEPTIDES; 2.8. CONCLUDING REMARKS; ACKNOWLEDGMENTS; REFERENCES
  • 3: LOCAL BACKBONE PREFERENCES AND NEAREST-NEIGHBOR EFFECTS IN THE UNFOLDED AND NATIVE STATES Joe DeBartolo, Abhishek Jha, Karl F. Freed, and Tobin R. Sosnick3.1. INTRODUCTION; 3.2. EARLY DAYS: RANDOM COIL-THEORY AND EXPERIMENT; 3.3. DENATURED PROTEINS AS SELF-AVOIDING RANDOM COILS; 3.4. MODELING THE UNFOLDED STATE; 3.5. NN EFFECTS IN PROTEIN STRUCTURE PREDICTION; 3.6. UTILIZING FOLDING PATHWAYS FORSTRUCTURE PREDICTION; 3.7. NATIVE STATE MODELING; 3.8. SECONDARY-STRUCTURE PROPENSITIES: NATIVE BACKBONES IN UNFOLDED PROTEINS; 3.9. CONCLUSIONS; ACKNOWLEDGMENTS; REFERENCES
  • 4: SHORT-DISTANCE FRET APPLIED TO THE POLYPEPTIDE CHAIN Maik H. Jacob and Werner M. Nau
Dimensions
unknown
Extent
1 online resource (596 p.)
Form of item
online
Isbn
9781118183373
Media category
computer
Media type code
  • c
Specific material designation
remote
System control number
  • (CKB)2670000000148272
  • (EBL)818526
  • (OCoLC)777374858
  • (SSID)ssj0000622312
  • (PQKBManifestationID)11392465
  • (PQKBTitleCode)TC0000622312
  • (PQKBWorkID)10637284
  • (PQKB)10351106
  • (MiAaPQ)EBC818526
  • (EXLCZ)992670000000148272

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