The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coordinate rhythmic motor activities. CPG circuits consist of motor neurons and multiple interneuron cell types, many of which are derived from four distinct cardinal classes of ventral interneurons, called V0, V1, V2 and V3. While significant progress has been made on elucidating the molecular and genetic mechanisms that control ventral interneuron differentiation, little is known about their distribution along the antero-posterior axis of the spinal cord and their diversification. Here, we report that V0, V1 and V2 interneurons exhibit distinct organizational patterns at brachial, thoracic and lumbar levels of the developing spinal cord. In addition, ...
The ventral spinal cord consists of interneuron groups arising from distinct, genetically defined, p...
The ventral spinal cord consists of interneuron groups arising from distinct, genetically defined, p...
<p>(A–A″) Immunofluorescence labeling on transverse section at brachial levels of embryonic spinal c...
The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coordinate ...
The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coordinate ...
The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coordinate ...
The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coordinate ...
<div><p>The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coo...
The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coordinate ...
The spinal cord represents the final stage of generating motor behaviors, where descending commands ...
<p>Whole mount immunofluorescence labeling of Foxp1 or ventral interneuron markers on whole mount sp...
The locomotion is coordinated by neuronal circuits, named “Central Pattern Generators”, located in t...
Within the nervous system, the spinal cord plays vital roles both at the initial steps of receiving ...
<p>(A–A″) Immunofluorescence labeling on transverse section at brachial levels of e12.5 embryonic sp...
Movement is a fundamental behavior that is generated and patterned by premotor neural networks that ...
The ventral spinal cord consists of interneuron groups arising from distinct, genetically defined, p...
The ventral spinal cord consists of interneuron groups arising from distinct, genetically defined, p...
<p>(A–A″) Immunofluorescence labeling on transverse section at brachial levels of embryonic spinal c...
The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coordinate ...
The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coordinate ...
The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coordinate ...
The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coordinate ...
<div><p>The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coo...
The spinal cord contains neuronal circuits termed Central Pattern Generators (CPGs) that coordinate ...
The spinal cord represents the final stage of generating motor behaviors, where descending commands ...
<p>Whole mount immunofluorescence labeling of Foxp1 or ventral interneuron markers on whole mount sp...
The locomotion is coordinated by neuronal circuits, named “Central Pattern Generators”, located in t...
Within the nervous system, the spinal cord plays vital roles both at the initial steps of receiving ...
<p>(A–A″) Immunofluorescence labeling on transverse section at brachial levels of e12.5 embryonic sp...
Movement is a fundamental behavior that is generated and patterned by premotor neural networks that ...
The ventral spinal cord consists of interneuron groups arising from distinct, genetically defined, p...
The ventral spinal cord consists of interneuron groups arising from distinct, genetically defined, p...
<p>(A–A″) Immunofluorescence labeling on transverse section at brachial levels of embryonic spinal c...