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Genetics Preview

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Uploaded on Dec 7, 2011

Paul Andersen previews the information in the genetics unit. He defines the central dogma of biology and explains how DNA creates an RNA transcript that is used to translate proteins. He differentiates between mitosis and meiosis. He also explains how Mendelian genetics differs from the current understanding of genetics. He ends with a brief description of gene regulation.

Intro Music Atribution
Title: I4dsong_loop_main.wav
Artist: CosmicD
Link to sound: http://www.freesound.org/people/Cosmi...
Creative Commons Atribution License

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  1. 360

    Deleted Videos

  2. 361

    Reflections on the Flipped Classroom

  3. 362

    The Hierarchy of Life

  4. 363

    60-Second Shoutout

  5. 364

    Bozeman Biology: A User's Guide

  6. 365

    Viral Replication Simulation

  7. 366

    Unit 5 Review - Genetics

  8. 367

    Unit 4 Review - Homeostasis

  9. 368

    Unit 2 Review - Speciation

  10. 369

    Fight or Flight Response

  11. 370

    Unit 1 Review - Natural Selection

  12. 371

    Biodiversity

  13. 372

    Population Variation

  14. 373

    Genotype Expression

  15. 374

    Cellular Variation

  16. 375

    Ecosystem Change

  17. 376

    Linked Genes

  18. 377

    A Beginner's Guide to Punnett Squares

  19. 378

    Probability in Genetics: Multiplication and Addition Rules

  20. 379

    Riding the Long Tail

  21. Genetics Preview

  22. 381

    What is DNA?

  23. 382

    Homeostasis Preview

  24. 383

    Happy Thanksgiving

  25. 384

    Populations

  26. 385

    Cooperative Interactions

  27. 386

    Enzymes

  28. 387

    Ecosystems

  29. 388

    Homeostasis Hugs

  30. 389

    Communities

  31. 390

    Organ Systems

  32. 391

    Cellular Specialization

  33. 392

    Elements of a Feedback Loop

  34. 393

    Chi-squared Test

  35. 394

    Using Game Design to Improve My Classroom

  36. 395

    My Year as Teacher of the Year

  37. 396

    Video Blogging

  38. 397

    Photosynthesis Lab Walkthrough

  39. 398

    Osmosis Lab Walkthrough

  40. 399

    Osmosis Demo

  41. 400

    Why Are Cells Small?

  42. 401

    Diffusion Demo

  43. 402

    Dropping A Magnet Through A Copper Pipe

  44. 403

    Cellular Respiration Lab Walkthrough

  45. 404

    Cellular Organelles

  46. 405

    Biological Molecules

  47. 406

    The Nervous System

  48. 407

    Information Exchange

  49. 408

    Effects of Changes in Pathways

  50. 409

    Signal Transduction Pathways

  51. 410

    Cell Communication

  52. 411

    Evolutionary Significance of Cell Communication

  53. 412

    Viral Replication

  54. 413

    Mechanisms that Increase Genetic Variation

  55. 414

    Genotypes and Phenotypes

  56. 415

    Signal Transmission and Gene Expression

  57. 416

    Gene Regulation

  58. 417

    Advanced Genetics

  59. 418

    Mendelian Genetics

  60. 419

    Cell Cycle, Mitosis and Meiosis

  61. 420

    DNA and RNA - Part 2

  62. 421

    DNA and RNA - Part 1

  63. 422

    Behavior and Natural Selection

  64. 423

    Mechanisms of Timing and Control

  65. 424

    Development: Timing and Coordination

  66. 425

    Plant and Animal Defense

  67. 426

    Homeostatic Disruptions

  68. 427

    Homeostatic Evolution

  69. 428

    Biotic and Abiotic Factors

  70. 429

    Response to External Environments

  71. 430

    Positive and Negative Feedback Loops

  72. 431

    Compartmentalization

  73. 432

    Transport Across Cell Membranes

  74. 433

    Cell Membranes

  75. 434

    Environmental Matter Exchange

  76. 435

    Photosynthesis and Respiration

  77. 436

    Life Requires Free Energy

  78. 437

    Gibbs Free Energy

  79. 438

    The Origin of Life - Scientific Evidence

  80. 439

    Abiogenesis

  81. 440

    Evolution Continues

  82. 441

    Speciation

  83. 442

    Speciation and Extinction

  84. 443

    Phylogenetics

  85. 444

    Essential Characteristics of Life

  86. 445

    Evidence for Evolution

  87. 446

    Genetic Drift

  88. 447

    Examples of Natural Selection

  89. 448

    Natural Selection

  90. 449

    Light

  91. 450

    Sound Waves

  92. 451

    Waves

  93. 452

    Law of Superposition

  94. 453

    Plate Tectonics

  95. 454

    Series and Parallel Circuits

  96. 455

    Voltage, Current and Resistance

  97. 456

    Electricity and Electric Circuits

  98. 457

    Potential and Kinetic Energy

  99. 458

    Energy, Work and Power

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