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Cellular combustion and the production of energy - #2 - aerobic processes

By Richard Malkin - Berkeley
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Lecture Description

Course Description

General introduction to cell structure and function, molecular and organismal genetics, animal development, form and function.

Course Index

  1. Life and the stuff of life
  2. Macromolecules structure and function: proteins and lipids
  3. Macromolecules structure and function: carbohydrates and nucleic acids
  4. Cell structure and organization -#1
  5. Cell structure and organization -#2
  6. Biological membrane structure & organization
  7. How cells function - an introduction to cellular metabolism and biological catalysts
  8. Enzyme structure and function -#1
  9. Enzyme structure and function -#2
  10. Cellular energy and work
  11. Cellular combustion and the production of energy - #1 - anaerobic processes
  12. Cellular combustion and the production of energy - #2 - aerobic processes
  13. Photosynthesis - from light to ATP
  14. Photosynthesis - from CO2 to sugars
  15. How Somatic Cells (Mitosis) and Gametes (Meiosis) Inherit Genomes
  16. The Laws that Govern the Inheritance of Traits - Segregation of Alleles
  17. How Genes Are Organized on Chromosomes - Linkage, Recombination, Mapping
  18. Genes Are Made Of DNA
  19. Gene Expression I - DNA is transcribed into RNA
  20. Gene Expression II - RNA is translated into protein
  21. Microbes - Viruses, Bacteria, Plasmids, Transposons
  22. Regulation of Gene Expression in Prokaryotes
  23. Gene Structure & Regulation in Eukaryotes I
  24. Gene Structure & Regulation in Eukaryotes II
  25. How To Isolate, Study and Use Genes - Part I
  26. How To Isolate, Study and Use Genes - Part II
  27. Genetic Regulation of Development
  28. Overview Molecular regulation
  29. Multi-cellularity: Cell Shape and function, Tissue specialization, homeostasis
  30. Hormones, Receptors, & the Endocrine System - Part I
  31. Hormones, Receptors, & the Endocrine System - Part II
  32. Reproductive System - Part I
  33. Reproductive System - Part II
  34. Fertilization and Embryogenesis
  35. Developmental Strategies and Mechanisms
  36. Digestive System
  37. Circulatory & Respiratory Systems
  38. Immune System
  39. Excretory System and Kidney Function
  40. Nervous System
  41. Cell and Tissue Dysfunction
  42. Bio-engineered Animals and Models of Human Disease