1. Figure 30.1 Sexually dimorphic anatomy in the hawk moth, Manduca sexta
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2. Figure 30.1 Sexually dimorphic anatomy in the hawk moth, Manduca sexta (Part 1)
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3. Figure 30.1 Sexually dimorphic anatomy in the hawk moth, Manduca sexta (Part 2)
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4. Figure 30.2 Chromosomal sex and primary sex determination in humans
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5. Figure 30.3 Gonadal sex steroids and their organizational influence
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6. Figure 30.3 Gonadal sex steroids and their organizational influence (Part 1)
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7. Figure 30.3 Gonadal sex steroids and their organizational influence (Part 2)
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8. Figure 30.4 Sex steroid effects on neurons
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9. Figure 30.4 Sex steroid effects on neurons (Part 1)
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10. Figure 30.4 Sex steroid effects on neurons (Part 2)
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11. Figure 30.5 Sex differences in innervation of the perineal muscles
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12. Figure 30.5 Sex differences in innervation of the perineal muscles (Part 1)
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13. Figure 30.5 Sex differences in innervation of the perineal muscles (Part 2)
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14. Figure 30.5 Sex differences in innervation of the perineal muscles (Part 3)
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15. Figure Hypothalamic nuclei are sexually dimorphic and their neuronal activity is associated with sexual behaviors
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16. Figure Hypothalamic nuclei are sexually dimorphic and their neuronal activity is associated with sexual behaviors (Part 1)
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17. Figure Hypothalamic nuclei are sexually dimorphic and their neuronal activity is associated with sexual behaviors (Part 2)
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18. Figure 30.7 Hypothalamic regulation of lactation in nursing mothers
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19. Figure 30.7 Hypothalamic regulation of lactation in nursing mothers (Part 1)
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20. Figure 30.7 Hypothalamic regulation of lactation in nursing mothers (Part 2)
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21. Figure Cortical representation of the chest wall in the rat primary somatic sensory cortex during lactation
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22. Figure Cortical representation of the chest wall in the rat primary somatic sensory cortex during lactation (Part 1)
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23. Figure Cortical representation of the chest wall in the rat primary somatic sensory cortex during lactation (Part 2)
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24. Figure Cortical representation of the chest wall in the rat primary somatic sensory cortex during lactation (Part 3)
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25. Figure Cortical representation of the chest wall in the rat primary somatic sensory cortex during lactation (Part 4)
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26. Box 30A The Good Mother
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27. Figure 30.9 Estrogen and testosterone influence neuronal growth and differentiation
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28. Figure 30.9 Estrogen and testosterone influence neuronal growth and differentiation (Part 1)
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29. Figure 30.9 Estrogen and testosterone influence neuronal growth and differentiation (Part 2)
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30. Figure 30.9 Estrogen and testosterone influence neuronal growth and differentiation (Part 3)
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31. Figure 30.10 Estrogen influences synaptic transmission
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32. Figure 30.10 Estrogen influences synaptic transmission (Part 1)
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33. Figure 30.10 Estrogen influences synaptic transmission (Part 2)
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34. Figure Distribution in the rat brain of the three major receptor/transcription factors that bind sex hormones
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35. Figure Distribution in the rat brain of the three major receptor/transcription factors that bind sex hormones (Part 1)
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36. Figure Distribution in the rat brain of the three major receptor/transcription factors that bind sex hormones (Part 2)
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37. Figure Sex-specific splice isoforms of the Drosophila fruitless gene correlate with sex-specific courtship and mating behaviors
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38. Figure Sex-specific splice isoforms of the Drosophila fruitless gene correlate with sex-specific courtship and mating behaviors (Part 1)
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39. Figure Sex-specific splice isoforms of the Drosophila fruitless gene correlate with sex-specific courtship and mating behaviors (Part 2)
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40. Figure Sex-specific splice isoforms of the Drosophila fruitless gene correlate with sex-specific courtship and mating behaviors (Part 3)
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41. Figure 30.13 Distinct patterns of activation of estrogen and androgen in women and men
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42. Figure 30.14 Brain regions that differ in size in females versus males
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43. Figure Sex-specific activation of the amygdala in response to memory of images with defined emotional content
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