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29 results on '"Bagnall MW"'

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1. Motor control: Snake neurons speed up.

2. Organization of vestibular circuits for postural control in zebrafish.

3. Spinal Interneurons: Diversity and Connectivity in Motor Control.

4. Neuronal birthdate reveals topography in a vestibular brainstem circuit for gaze stabilization.

5. Clonally related, Notch-differentiated spinal neurons integrate into distinct circuits.

7. Organization of the gravity-sensing system in zebrafish.

8. Monosynaptic targets of utricular afferents in the larval zebrafish.

9. Spinal V1 neurons inhibit motor targets locally and sensory targets distally.

11. Central Vestibular Tuning Arises from Patterned Convergence of Otolith Afferents.

12. Spinal V2b neurons reveal a role for ipsilateral inhibition in speed control.

13. Development of vestibular behaviors in zebrafish.

14. Delayed Otolith Development Does Not Impair Vestibular Circuit Formation in Zebrafish.

15. Systematic shifts in the balance of excitation and inhibition coordinate the activity of axial motor pools at different speeds of locomotion.

16. Modular organization of axial microcircuits in zebrafish.

17. Motor control: spinal circuits help tadpoles see clearly.

18. Multiple types of cerebellar target neurons and their circuitry in the vestibulo-ocular reflex.

19. Multiple clusters of release sites formed by individual thalamic afferents onto cortical interneurons ensure reliable transmission.

20. Bidirectional plasticity gated by hyperpolarization controls the gain of postsynaptic firing responses at central vestibular nerve synapses.

21. Glycinergic projection neurons of the cerebellum.

22. Frequency-independent synaptic transmission supports a linear vestibular behavior.

23. Transgenic mouse lines subdivide medial vestibular nucleus neurons into discrete, neurochemically distinct populations.

24. A new locus for synaptic plasticity in cerebellar circuits.

25. Intermediate-term memory for site-specific sensitization in aplysia is maintained by persistent activation of protein kinase C.

26. Differential role of mitogen-activated protein kinase in three distinct phases of memory for sensitization in Aplysia.

27. Inhibition of calcineurin facilitates the induction of memory for sensitization in Aplysia: requirement of mitogen-activated protein kinase.

28. Activation of a tyrosine kinase-MAPK cascade enhances the induction of long-term synaptic facilitation and long-term memory in Aplysia.

29. Molecular mechanisms underlying a unique intermediate phase of memory in aplysia.

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