Cellular and Molecular Biology

Overview

This combines cell biology, molecular biology, and elements of biochemistry and genetics.

Projects

Elementary

  1. Biological Buffers
  2. Cell divergence.
  3. Cell division.
  4. Cell organelles.
  5. Cell types.
  6. Cells.
  7. Microphotography.
  8. Microscope illumination.
  9. Microscope optics.
  10. Microscopic imaging.
  11. Slide preparation.
  12. The microscope.

Intermediate

  1. Bioenergetics
  2. Biological Clocks
  3. Carbohydrates
  4. Cell Biochemistry
  5. Cell Culture
  6. Cell Function
  7. Cell Membranes
  8. Cell Metabolism
  9. Cell Polarity
  10. Cell Structure
  11. Cellular Organelles
  12. Computational Genetics
  13. Cytoskeleton
  14. Developmental Biology
  15. DNA
  16. Electrophoresis
  17. Enzymes
  18. Gene Expression
  19. Gene Structure
  20. Immune Response
  21. Intracellular Signaling
  22. Lipids
  23. Membrane Biology of Cells
  24. Mendelian Genetics
  25. Metabolism
  26. Molecular Cell Biology
  27. Molecular Genetics
  28. Nucleic Acids
  29. Nutritional Biochemistry
  30. Proteins

Advanced

  1. ABC Transport
  2. Aberrant Cell Division
  3. Bacterial Mechanics
  4. Bioinorganic Chemistry
  5. Biological Pathways
  6. Biology of the Nucleus
  7. Bioorganic Chemistry
  8. Cell Adhesion
  9. Cell Biology of Organ Systems
  10. Cell Biosynthesis
  11. Cell Cycle Regulation
  12. Cell Differentiation
  13. Cell Proliferation
  14. Cellular Lipid Transport
  15. Chromosomal Aberrations
  16. Chromosomal Basis of Inheritance
  17. Chromosome Stability
  18. Developmental Genetics
  19. DNA Analysis
  20. DNA Binding Proteins
  21. DNA Complementation
  22. DNA Mutation
  23. DNA Recombination
  24. DNA Replication
  25. DNA Transcription
  26. DNA Translation
  27. Enzymology
  28. Eukaryotic Genomes
  29. Extracellular Matrix
  30. Homopoietic Differentiation
  31. Hybridization
  32. Intracellular Transport
  33. Ion Channels
  34. Laser Spectroscopy
  35. Linkage Analysis and Genetic Mapping
  36. Mass Spectroscopy
  37. Membrane Function
  38. Meiosis
  39. Metabolic Pathways
  40. Microbial Development
  41. Mitosis
  42. Molecular Basis for Mutation
  43. Molecular Beams
  44. Mutagenesis
  45. NMR Spectroscopy
  46. Organ Biosynthesis
  47. Patterns of Gene Transmission
  48. PCR
  49. Plasmid Characterization
  50. Plasmid Construction
  51. Plasmid Purification
  52. Pre-mRNA Splicing
  53. Protein Analysis
  54. Protein Biosynthesis
  55. Protein Characterization
  56. Protein Degradation
  57. Protein Energetics
  58. Protein Folding
  59. Protein Phosphoryation
  60. Protein Purification
  61. Protein Quantitation
  62. Protein Sequencing
  63. Protein Structure
  64. Quantum Chemistry
  65. Quorum Sensing
  66. Regulation of Gene Expression
  67. Regulation of Metabolism
  68. RNA Localization
  69. RNA Translational Regulation
  70. Sequence Analysis
  71. Signal Transduction
  72. Statistical Mechanics
  73. Tissue Culture
  74. TRP Channels
  75. Virus-Cell Interactions
  76. X-Ray Spectroscopy

Frontier

  1. Apoptosis
  2. Artificial Restriction Enzymes
  3. Bioinformatics
  4. Cell Proliferation
  5. Cellular Enzymology
  6. Chromosome Duplication
  7. Chromosome Segregation
  8. De Novo Proteins
  9. Directional Bias in Pattern Formation in Embryos
  10. DNA-Based Sensors
  11. DNA Damage Checkpoint Proteins
  12. DNA-Mediated Electron Transfer
  13. DNA Repair
  14. Endocytosis
  15. Electron Transport
  16. Endocytosis
  17. Enzyme Kinetics
  18. Eukaryotic Cell Mechanics
  19. Extracellular Matrix Control of Cell Functions
  20. Flow of Molecular Information
  21. Genomics
  22. Immune Recognition
  23. Initiation of DNA Replication
  24. Intracellular Protein Trafficking
  25. Ion Cyclotron Resonance Spectroscopy
  26. Lipids
  27. Lipoproteins
  28. Macromolecular Affinity
  29. Membrane Proteins
  30. Membrane Receptors
  31. Metallointercalators
  32. Metalloproteins
  33. Molecular Enzymology
  34. Molecular Evolution
  35. Molecular Mechanisms in Development
  36. Nanopores
  37. Neural Circuits
  38. Neural Computation
  39. Nucleic Acid Structure
  40. Oncogenes
  41. Protein Assemblies
  42. Protein Design
  43. Protein-DNA Interactions
  44. Protein-Protein Interactions
  45. Protein Targeting
  46. Proteome Analysis
  47. Regulation of Mitosis
  48. RNA Splicing
  49. RNA Transcription
  50. Scanning Electron Microscopy
  51. Stalled Replication Forks
  52. Synaptic Transmission
  53. T Cell Activation
  54. Transmembrane Signals
  55. Transmission Electron Microscopy
  56. Ubiquitin System

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