Current Protocols in Molecular Biology

Current Protocols in Molecular Biology

Online ISBN: 9780471142720

DOI: 10.1002/0471142727

Browse by Topic

  1. Bioinformatics
  2. Cell Biology
  3. Cell Culture
  4. Chemical Biology
  5. Cytometry
  6. Gene Expression
  7. Genetics and Genomics
  8. Imaging and Microscopy
  9. Immunology
  10. Intermolecular Interactions
  11. Laboratory Organisms and Animal Models
  12. Microbiology
  13. Microbiology
  14. Molecular Biology
  15. Molecular Biology
    1. Carbohydrate Analysis
    2. Chromatin Assembly and Analysis
    3. Cloning and Recombination Methods
    4. Combinatorial Methods
    5. DNA-Protein Interactions
      1. Analysis of DNA-Protein Interactions Using Proteins Synthesized In Vitro from Cloned Genes
      2. Genome-Wide Location Analysis by Pull Down of In Vivo Biotinylated Transcription Factors
      3. ChIP-chip for Genome-Wide Analysis of Protein Binding in Mammalian Cells
      4. ChIP-exo Method for Identifying Genomic Location of DNA-Binding Proteins with Near-Single-Nucleotide Accuracy
      5. ChIP-Seq: A Method for Global Identification of Regulatory Elements in the Genome
      6. Chromatin Immunoprecipitation for Determining the Association of Proteins with Specific Genomic Sequences In Vivo
      7. DamIP: Using Mutant DNA Adenine Methyltransferase to Study DNA-Protein Interactions In Vivo
      8. Defining In Vivo Targets of Nuclear Proteins by Chromatin Immunoprecipitation and Microarray Analysis
      9. Detection, Purification, and Characterization of cDNA Clones Encoding DNA-Binding Proteins
      10. Determination of Protein-DNA Sequence Specificity by PCR-Assisted Binding-Site Selection
      11. DNase I and Hydroxyl Radical Characterization of Chromatin Complexes
      12. DNase I Footprint Analysis of Protein-DNA Binding
      13. In Vitro Transcription and Immobilized Template Analysis of Preinitiation Complexes
      14. Genome-Scale Mapping of DNase I Hypersensitivity
      15. Mapping Networks of Protein-Mediated Physical Interactions Between Chromatin Elements
      16. Methylation and Uracil Interference Assays for Analysis of Protein-DNA Interactions
      17. Methylation-Sensitive Single-Molecule Analysis of Chromatin Structure
      18. Mobility Shift DNA-Binding Assay Using Gel Electrophoresis
      19. Purification of Sequence-Specific DNA-Binding Proteins by Affinity Chromatography
      20. Rapid Separation of Protein-Bound DNA from Free DNA Using Nitrocellulose Filters
      21. Identifying Chromosomal Targets of DNA-Binding Proteins by Sequence Tag Analysis of Genomic Enrichment (STAGE)
      22. Analysis of Protein Co-Occupancy by Quantitative Sequential Chromatin Immunoprecipitation
      23. Simultaneous Single-Molecule Mapping of Protein-DNA Interactions and DNA Methylation by MAPit
      24. UV Crosslinking of Proteins to Nucleic Acids
      25. Yeast One-Hybrid Screening for DNA-Protein Interactions
    6. E. coli, Plasmids, and Bacteriophages
    7. Enzymatic Manipulation of DNA and RNA
    8. Expression Analysis
    9. Gene Expression
    10. Gene Regulation
    11. Gene Silencing
    12. Informatics
    13. Introduction of DNA into Cells
    14. Labeling Methods
    15. Libraries
    16. Molecular Interactions
    17. Mouse Methods
    18. Mutagenesis
    19. Nucleic Acid Arrays
    20. Polymerase Chain Reaction
    21. Post-Translational Modification
    22. Preparation and Analysis of DNA and RNA
    23. Protein Analysis
    24. Protein Expression
    25. Recombinant DNA Libraries
    26. RNA-Protein Interactions
    27. Sequencing
    28. Yeast Methods
  16. Mouse Biology
  17. Nucleic Acid Chemistry
  18. Pharmacology and Drug Discovery
  19. Protein Production, Purification, and Analysis
  20. Proteomics
  21. RNA
  22. Safety
  23. Stem Cells
  24. Structural Analysis of Biomolecules
  25. Supporting Lab Techniques
  26. Toxicology