The Neural Control of Movement

Section A. Invertebrates<br>1. Elegantly<br>2. Small steps and larger strides in understanding the neural bases of crawling in the medicinal leech<br>3. Studying the neural basis of animal walking in the stick insect<br>4. Neural control of flight in locusts <br>Section B. Vertebrates<br>5. Neural control of swimming in lampreys <br>6. Toward a comprehensive model of circuits underlying locomotion: What did we learn from zebrafish?<br>7. Neural control of swimming in hatchling Xenopus frog tadpoles <br>8. Xenopus frog metamorphosis: A model for studying locomotor network development and neuromodulation<br>9. The turtle as a model for spinal motor circuits<br>10. Development of the locomotor system - Chick embryo<br>11. Using mouse genetics to study the developing spinal locomotor circuit<br>12. Using mouse genetics to investigate supraspinal pathways of the brain important to locomotion<br>13. Fundamental contributions of the cat model to the neural control of locomotion<br>14. The micropig model of neurosurgery and spinal cord injury in experiments of motor control.<br>15. What lies beneath the brain: Neural circuits involved in human locomotion<br>16. A tale of many models. Which one creates the best of times?<br>