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International review of cell and molecular biology. Volume 325 / edited by Kwang W. Jeon. -- Amsterdam : Academic Press, c2016. – (58.15/I61/v.325)

Contents

Contributors

1. New Insights Into Roles of Ubiquitin Modification in Regulating Plastids and Other Endosymbiotic Organelles

1. Introduction

2. Ubiquitin-Proteasome System

3. Regulation of Endosymbiotic Organelles by Ubiquitin

4. Concluding Remarks

Acknowledgments

References

2. New Insights Into the Role of Ubiquitylation of Proteins

1. Introduction

2. Protein Ubiquitylation

3. New Insights Into Noncanonical Ubiquitylation

4. New Insights Into Chain Formation and Unconventional Ubiquitin Chains

5. Crosstalk Between Ubiquitin and Other Posttranstational Modifications

6. New Tools and Developments for Ubiquitylation Studies

7. Concluding Remarks

Acknowledgments

References

3. Heterogeneity, Cell Biology and Tissue Mechanics of Pseudostratified Epithelia: Coordination of Cell Divisions and Growth in Tightly Packed Tissues                           89

1. Introduction

2. Apical Nuclear Migration in Pseudostratified Epithelia

3. Tissue-Wide Properties of PSE

4. Conclusions

Acknowledgments

References

4. New Insight Into the Roles of Membrane Microdomains in Physiological Activities of Fungal Cells

1. Introduction: History of Lateral Microdomains in Fungal Membranes

2. Contemporary List of Fungal Membrane Microdomains

3. Formation and Maintenance of Membrane Microdomains

4. Physiological Relevance of Laterally Segregated Membrane Contents

5. Concluding Remarks and Perspectives

Acknowledgments

References

5. Development and Application of Functionalized Protein Binders in Multicellular Organisms

1. Introduction

2. Protein Binder Scaffolds

3. Use of Protein Binders in Basic Science

4. Use of Protein Binders in Multicellular Organisms

5. Conclusions and Outlook

Acknowledgment

References

6. Heparan Sulfate: Biosynthesis, Structure, and Function

1. Introduction

2. Heparan Sulfate Proteoglycans

3. Biosynthesis of Heparan Sulfate

4. Genetic Defects in Heparan Sulfate

5. Structural Properties of Heparan Sulfate in Interaction With Proteins

6. Heparan Sulfate Proteoglycans and Diseases

7. Therapeutical Potential

8. Concluding Remarks

Acknowledgments

References

7. Functions of Heparan Sulfate Proteoglycans in Development: Insights From Drosophila Models

1. Introduction

2. Glypicans

3. Syndecan and Perlecan

4. Heparan Sulfate Biosynthesis

5. Concluding Remarks

References

Index