Lecture 14: How Somatic Cells (Mitosis) and Gametes (Meiosis) Inherit Genomes 
Lecture 14: How Somatic Cells (Mitosis) and Gametes (Meiosis) Inherit Genomes by UC Berkeley / Richard Malkin
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Date Added: November 17, 2010

Lecture Description

This video lecture, part of the series Biology 1A: General Biology (Fall 2010) by Prof. Richard Malkin, does not currently have a detailed description and video lecture title. If you have watched this lecture and know what it is about, particularly what Biology topics are discussed, please help us by commenting on this video with your suggested description and title. Many thanks from,

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Course Index

  1. Lecture 1: Course introduction. Introduction to macromolecules. Protein structure and function
  2. Lecture 2: Structure and function: lipids, carbohydrates and nucleic acids
  3. Lecture 3: Cell structure and organization - 1
  4. Lecture 4: Cell structure and organization - 2
  5. Lecture 5: The structure of biological membranes
  6. Lecture 6: Cellular metabolism and biological catalysts
  7. Lecture 7: Enzyme structure
  8. Lecture 8: Regulation of enzymatic activity
  9. Lecture 9: Introduction to bioenergetics
  10. Lecture 10: Cellular energy production, anaerobic processes
  11. Lecture 11: Cellular energy production, aerobic processes
  12. Lecture 12: Photosynthesis-the light reactions
  13. Lecture 13: Photosynthesis-CO2 fixation and related processes
  14. Lecture 14: How Somatic Cells (Mitosis) and Gametes (Meiosis) Inherit Genomes
  15. Lecture 15: The Laws that Govern the Inheritance of Traits - Segregation of Alleles
  16. Lecture 16: How Genes Organized on Chromosomes, Linkage, Recombination, Mapping
  17. Lecture 17: Genes Are Made Of DNA
  18. Lecture 18: Gene Expression I - DNA is transcribed into RNA
  19. Lecture 19: Gene Expression II, RNA is translated into protein
  20. Lecture 20: Microbes, Viruses, Bacteria, Plasmids, Transposons
  21. Lecture 21: Regulation of Gene Expression in Prokaryotes
  22. Lecture 22: Gene Structure and Regulation in Eukaryotes I
  23. Lecture 23: Gene Structure and Regulation in Eukaryotes II
  24. Lecture 24: How To Isolate, Study and Use Genes
  25. Lecture 25: How To Isolate, Study and Use Genes - continued
  26. Lecture 26: Genetic Regulation of Development
  27. Lecture 27: Multi-cellularity: Cell Shape and function, Tissue specialization
  28. Lecture 28: Homeostasis: Digestion and Nutrition
  29. Lecture 29: Homeostasis: Circulation
  30. Lecture 30: Homeostasis: Respiration
  31. Lecture 31: Homeostasis: The bodys defenses - PP Slides begin at 12 1/2 minutes
  32. Lecture 32: Homeostasis: The immune system
  33. Lecture 33: Homeostasis: Osmoregulation
  34. Lecture 34: Integration: Hormones and Chemical Communication

Course Description

Biology 1A, 001 - General Biology
Fall  2010

Professors: Instructor Richard MALKIN, Robert L. FISCHER, John G. FORTE, Michael MEIGHAN
Description: General introduction to cell structure and function, molecular and organism genetics, animal development, form and function. Intended for students majoring in the biological sciences, but open to all qualified students. Students must take both Biology 1A/1AL and 1B to complete the sequence. Neither is a prerequisite to the other. Biology 1A and 1AL are required to be taken together during the same semester for most students. General Biology 1A is a 3 semester units, three 1-hour lectures per week and one 1-hour discussion section per week. General Biology Lab, Biology 1AL is a 2 semester units, one 90-minute lecture per week and one 3-hour lab section per week.
Prerequisite: Chemistry 1A and 3A (or 112A) with a minimum C- grade. Having previously taken or being concurrently enrolled in Chemistry 3B (or 112B) is recommended.

Course Website: http://mcb.berkeley.edu/courses/bio1a/

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