DOIAbstract
AbstractCombinatorial expression of LIM homeobox genes in subsets of embryonic motor neurons defines early stages in the topographic and functional organization of the spinal cord motor columns
AbstractCombinatorial expression of LIM homeobox genes in subsets of embryonic motor neurons defines early stages in the topographic and functional organization of the spinal cord motor columns
A fundamental question in the study of motor control is how the nervous system accomplishes the comp...
Summary: Control of movement relies on the ability of circuits within the spinal cord to establish c...
During spinal cord development, progenitor domains give rise to multiple neuronal populations and su...
AbstractCombinatorial expression of LIM homeobox genes in subsets of embryonic motor neurons defines...
AbstractThe circuits that control movement are comprised of discrete subtypes of motor neurons. How ...
AbstractIn the developing spinal cord, motor neurons occupy discrete columns with different identiti...
In the developing spinal cord, motor neurons occupy discrete columns with different identities and a...
AbstractMotor neurons extend axons along specific trajectories, but the molecules that control their...
AbstractLIM homeobox genes have a prominent role in the regulation of neuronal subtype identity and ...
In the vertebrate spinal cord, motoneurons are clustered into longitudinal columns in agreement with...
We have examined the expression of three paralogous Hox genes from E11.5 through E15.5 in the mouse ...
AbstractInductive signaling leads to the coactivation of regulatory pathways for specifying general ...
Spinal motor neurons (MNs) constitute cellular substrates for several movement disorders. Although t...
AbstractMotor neurons extend axons along specific trajectories, but the molecules that control their...
AbstractThe circuits that control movement are comprised of discrete subtypes of motor neurons. How ...
A fundamental question in the study of motor control is how the nervous system accomplishes the comp...
Summary: Control of movement relies on the ability of circuits within the spinal cord to establish c...
During spinal cord development, progenitor domains give rise to multiple neuronal populations and su...
AbstractCombinatorial expression of LIM homeobox genes in subsets of embryonic motor neurons defines...
AbstractThe circuits that control movement are comprised of discrete subtypes of motor neurons. How ...
AbstractIn the developing spinal cord, motor neurons occupy discrete columns with different identiti...
In the developing spinal cord, motor neurons occupy discrete columns with different identities and a...
AbstractMotor neurons extend axons along specific trajectories, but the molecules that control their...
AbstractLIM homeobox genes have a prominent role in the regulation of neuronal subtype identity and ...
In the vertebrate spinal cord, motoneurons are clustered into longitudinal columns in agreement with...
We have examined the expression of three paralogous Hox genes from E11.5 through E15.5 in the mouse ...
AbstractInductive signaling leads to the coactivation of regulatory pathways for specifying general ...
Spinal motor neurons (MNs) constitute cellular substrates for several movement disorders. Although t...
AbstractMotor neurons extend axons along specific trajectories, but the molecules that control their...
AbstractThe circuits that control movement are comprised of discrete subtypes of motor neurons. How ...
A fundamental question in the study of motor control is how the nervous system accomplishes the comp...
Summary: Control of movement relies on the ability of circuits within the spinal cord to establish c...
During spinal cord development, progenitor domains give rise to multiple neuronal populations and su...
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