Han Zhang

• Doctor of Philosophy
• PostDoc Position at University of Alberta

While considerable progress has been made in understanding the neuronal circuits that underlie the patterning of locomotor behaviours such as walking, less is known about the circuits that amplify motoneuron output to enable adaptable increases in muscle force across different locomotor intensities. Here, we demonstrate that an excitatory propriosp...

Speed-dependent interlimb coordination allows animals to maintain stable locomotion under different circumstances. The V3 neurons are known to be involved in interlimb coordination. We previously modeled the locomotor spinal circuitry controlling interlimb coordination (Danner et al., 2017). This model included the local V3 neurons that mediate mut...

Speed-dependent interlimb coordination allows animals to maintain stable locomotion under different circumstances. We have previously demonstrated that a subset of spinal V3 neurons contributes to stable locomotion by mediating mutual excitation between left and right lumbar rhythm generators (RGs). Here, we expanded our investigation to the V3 neu...

Commissural interneurons (CINs) mediate interactions between rhythm-generating locomotor circuits located on each side of the spinal cord and are necessary for left-right limb coordination during locomotion. While glutamatergic V3 CINs have been implicated in left-right coordination, their functional connectivity remains elusive. Here, we addressed...

Commissural interneurons mediate interactions between locomotor rhythm generators located on each side of the spinal cord. It has been previously suggested that V3 commissural interneurons are involved in left-right coordination. To investigate this, we used a combination of experimental and modeling studies. In our experiments we optogenetically a...

V3 spinal interneurons (INs) are a group of excitatory INs that play a crucial role in producing balanced and stable gaits in vertebrate animals. In the developing mouse spinal cord, V3 INs arise from the most ventral progenitor domain and form anatomically distinctive subpopulations in adult spinal cords. They are marked by the expression of trans...

V3 interneurons (INs) are a major group of excitatory commissural interneurons in the spinal cord, and they are essential for producing a stable and robust locomotor rhythm. V3 INs are generated from the ventral-most progenitor domain, p3, but migrate dorsally and laterally during postmitotic development. At birth, they are located in distinctive c...