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Integrating Concepts in Biology. Title Page. PowerPoint Slides for Chapter 17: Emergent Properties at the Cellular Level. Sections 17.1 & 17.3. by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise. Asynchronous Clonal Cells. Opening Figure. Bacteria Co-opted by Squid. Fig. 17.2.

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  1. Integrating Concepts in Biology Title Page PowerPoint Slides for Chapter 17: Emergent Properties at the Cellular Level Sections 17.1 & 17.3 by A. Malcolm Campbell, Laurie J. Heyer, and Chris Paradise

  2. Asynchronous Clonal Cells Opening Figure

  3. Bacteria Co-opted by Squid Fig. 17.2

  4. E. coli Uses Quorum Sensing Too Fig. 17.3

  5. Biofilm Functions as Phalanx Fig. 17.4

  6. Biofilms Can Purify Water Fig. 17.5

  7. Oxygen Distribution in Biofilm Fig. 17.6

  8. Biofilm Facilitates Distribution Fig. 17.7

  9. Slime Mold as Model Organism Fig. 17.8

  10. Slime Mold Multicellular Behavior Fig. 17.9

  11. Signal Transduction in Slime Mold Fig. 17.10

  12. Waves of Cells and cAMP Fig. 17.11

  13. Regulating Stomata Closing Fig. 17.12

  14. Ion Movement in Guard Cells Fig. 17.13

  15. K+ Ion Concentrations Fig. 17.14

  16. Actin Inside Guard Cells Fig. 17.15

  17. Patches of Leaf Cells Fig. 17.16

  18. Cellular Automata Model Fig. BME 17.1.1

  19. Sea Slug (Aplysia) Learning Fig. 17.17

  20. Learning Units of Neurons Fig. 17.18

  21. Learning Neural Circuitry Fig. 17.19

  22. Short- & Long-term Memory Fig. 17.20

  23. no serotonin Training Neurons In Vitro Fig. 17.21

  24. Producing Long-term from Short Fig. 17.22

  25. Lactose Structure Fig. ELSI 17.1

  26. Non-identical Genomic Clones Fig. 17.23

  27. Non-identical Genomic Clones Fig. 17.23

  28. Noisy Circuits Produce Variation Fig. 17.24

  29. Random Phenotype Is Heritable Fig. 17.24 GFP greater medium TMG

  30. Table 17.1 Table 17.1

  31. Random mRNA Changes Heritable Fig. 17.25

  32. Circuit Complexity Alters Phenotype Fig. 17.26

  33. Circuit Complexity Alters Phenotype Fig. 17.26

  34. Noise Affected By Complexity Fig. 17.27

  35. Tolerance of Noisy Inputs Fig. 17.28 5 minutes of aTc 45 minutes of aTc

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