High-Throughput Fluorescence-Based Screen to Identify Factors Involved in Nuclear Receptor Recruitment to Response Elements
Live-Cell Imaging Combined with Immunofluorescence, RNA, or DNA FISH to Study the Nuclear Dynamics and Expression of the X-Inactivation Center
Single Molecule Resolution Fluorescent In Situ Hybridization (smFISH) in the Yeast S. cerevisiae
Measuring Transcription Dynamics in Living Cells Using Fluctuation Analysis Nuclear Poly(A) RNA Movement Within and Among Speckle Nuclear Bodies and the Surrounding Nucleoplasm
Nuclear Trafficking and Export of Single, Native mRNPs in Chironomus tentans Salivary Gland Cells
Single mRNP Tracking in Living Mammalian Cells
Imaging Nascent RNA Dynamics in Dictyostelium
Monitoring Dynamic Binding of Chromatin Proteins In Vivo by Single Molecule Tracking
Single Particle Tracking for Studying the Dynamic Properties of Genomic Regions in Live Cells
Microscopic Analysis of Chromatin Localization and Dynamics in C. elegans
Measuring the Dynamics of Chromatin Proteins During Differentiation
Electron Spectroscopic Tomography of Specific Chromatin Domains
BAC Manipulations for Making BAC Transgene Arrays
Spatio-Temporal Visualization of DNA Replication Dynamics
The Dynamics of DNA Damage Repair and Transcription
Fluorescence Microscopy-Based High-Throughput Screening for Factors Involved in Gene Silencing
Actin as a Model for the Study of Nucleocytoplasmic Shuttling and Nuclear Dynamics.- Isochronal Visualization of Transcription and Proteasomal Proteolysis in Cell Culture or in the Model Organism, Caenorhabditis elegan
Considering Discrete Protein Pools When Measuring the Dynamics of Nuclear Membrane Proteins
Correlative Microscopy of Individual Cells: Sequential Application of Microscopic Systems with Increasing Resolution to Study the Nuclear Landscape
Time-Lapse, Photo-Activation, and Photo-Bleaching Imaging of Nucleolar Assembly after Mitosis
Nucleation of Nuclear Bodies.