Nuclear Pore Complexes In The Regulation Of Genome Organization And Gene Expression
Contents:
1. Spatial Organization Of The Nucleus Compartmentalizes And Regulates The Genome
Michael I. Robson, Andrea Rizzotto, and Eric C. Schirmer
1.1 Introduction
1.2 Subdomains of the nucleus
1.2.1 Nuclear Envelope 1.2.2 Nuclear pore complexes
1.2.3 Chromosomes
1.2.4 Centromeres 1.2.5 Telomeres
1.2.6 Nucleolus
1.2.7 Perinucleolar compartment 1.2.8 Cajal bodies
1.2.9 Gemini of coiled bodies
1.2.10 PML/ND10 bodies 1.2.11 Speckles
1.2.12 Paraspeckles
1.2.13 Histone bodies 1.2.14 Polycomb bodies
1.3 Composition of nuclear structures
1.4 Self-assembly of nuclear structures 1.5 Genome organization patterns
1.5.1 Loops and topologically-associated domains
1.5.2 Compartments
1.6 Structure-function relationships
1.6.1 Layers of functional separation
1.6.2 Loops
1.6.3 Scaffolds
1.6.4 Boundary elements
1.7 General versus tissue- or state-specific functions
1.8 Conclusions and open questions
1.9 References
2. The Molecular Composition And Function Of The Nuclear Periphery And Its Impact On The Genome
C. Patrick Lusk and Megan C. King
2.1 The conservation of the spatial positioning of the genome across eukaryotes
2.2 Integral INM proteins
2.3 A brief history of INM targeting
2.4 The nuclear lamina
2.5 Lamina Associated Domains
2.6 LADs as developmentally regulated regions
2.7 Histone modifications at the nuclear periphery
2.8 Peripheral tethers
2.9 Lamina Associated Sequences
2.10 Beyond silencing: the periphery and genome integrity
2.11 Repetitive DNA and the nuclear periphery
2.12 Inputs of nuclear compartmentalization on DNA repair mechanisms
2.13 Outlook
2.14 References
3. Nuclear Pore Complexes: Fascinating Nucleocytoplasmic Checkpoints
Victor Shahin
3.1 Introduction
3.2 Versatility of the NPCs structural configuration
3.3 Composition, heterogeneity and dynamics of the NPCs
3.4 NPCs as fascinating gatekeepers between the cytoplasm and the nucleus
3.5 Configuration and functional mechanisms of the selective NPC barrier: FG-Nups
3.6 References
4. Nuclear Pore Complex In Genome Organization And Gene Expression In Yeast
Carlo Randise-Hinchliff and Jason H Brickner
4.1 Introduction
4.2 Spatial organization of the yeast genome
4.3 Composition of NPC 4.4 Nuclear pore complex interacts with the genome
4.5 Nups influence transcription
4.6 Mechanisms of Gene recruitment 4.7 Interchromosomal clustering at the NPC
4.8 Regulation of gene recruitment and clustering
4.9 Gene recruitment and clustering through the cell cycle
4.10 Transcription Memory
4.11 Molecular mechanism of INO1 transcriptional memory
4.12 Concluding Remarks
4.13 References
5. Nuclear Pore Complex In Genome Organization And Gene Expression In Drosophila
Terra Kuhn and Maya Capelson
5.1 Introduction
5.2 Unique features of Drosophila NPC structure and assembly
5.3 Phenotypes of Drosophila Nups
5.3.1 Components of the Nup107-160 sub-complex in Drosophila speciation
5.3.2 NPC components and ALS/FTD pathogenesis
5.3.3 Cytoplasmic Nups in immune response and import of NF-κB
About the Author: Maximiliano D'Angelo, Ph.D., is Faculty of the Development, Aging and Regeneration Program and the Immunity and Pathogenesis Program at the Sanford Burnham Medical Discovery Institute in La Jolla, California. He is also member of the Tumor Initiation and Maintenance Program of the NCI-designated Cancer Center. Before moving to SBP, Dr. D'Angelo was a Principal investigator of the Cardiovascular Research Institute at the University of California San Francisco and Assistant Professor of the Department of Biochemistry & Biophysics. Dr. D'Angelo received his Ph.D. in molecular biology from the University of Buenos Aires, Argentina, and trained at The Scripps Research Institute and the Salk Institute for Biological before beginning his independent career. He has been Fellow of the Ellison Foundation and American Federation for Aging Research, Pew Latin American Fellow, Pew Biomedical Scholar and Scholar of the American Cancer Society.
