Pages that link to "Q44772752"

The following pages link to Mechanisms and significance of reduced activity and responsiveness in resting frog tadpoles (Q44772752):

Displaying 11 items.

• How neurons generate behavior in a hatchling amphibian tadpole: an outline (Q21131056) (← links)
• Muscle group dependent responses to stimuli in a grasshopper model for tonic immobility (Q30447152) (← links)
• Roles for inhibition: studies on networks controlling swimming in young frog tadpoles (Q37070355) (← links)
• Behavioral observation of Xenopus tadpole swimming for neuroscience labs (Q37676143) (← links)
• What roles do tonic inhibition and disinhibition play in the control of motor programs? (Q41494804) (← links)
• Metamodulation of a spinal locomotor network by nitric oxide. (Q45127977) (← links)
• The firing patterns of spinal neurons: in situ patch-clamp recordings reveal a key role for potassium currents (Q47775348) (← links)
• Contactin 1 knockdown in the hindbrain induces abnormal development of the trigeminal sensory nerve in Xenopus embryos (Q50664269) (← links)
• Brainstem control of activity and responsiveness in resting frog tadpoles: tonic inhibition. (Q52002729) (← links)
• Ubiquitination of ABCE1 by NOT4 in Response to Mitochondrial Damage Links Co-translational Quality Control to PINK1-Directed Mitophagy. (Q54977254) (← links)
• Altered ER-mitochondria contact impacts mitochondria calcium homeostasis and contributes to neurodegeneration in vivo in disease models (Q64860764) (← links)