@incollection{discovery10156922,
          series = {Advances in Neurobiology (NEUROBIOL)},
          volume = {28},
         address = {Cham, Switzerland},
           month = {September},
          editor = {Michael J O'Donovan and M{\'e}lanie Falgairolle},
            year = {2022},
       booktitle = {Vertebrate Motoneurons},
           title = {Synaptic Projections of Motoneurons Within the Spinal Cord},
            note = {This version is the author accepted manuscript. For information on re-use, please refer to the publisher's terms and conditions.},
           pages = {151--168},
       publisher = {Springer},
        keywords = {Synaptic transmission, Co-release, Glutamate, Acetylcholine, Synaptic connectivity},
             url = {https://doi.org/10.1007/978-3-031-07167-6\%5f7},
          author = {Beato, Marco and Bhumbra, Gary},
        abstract = {Motoneurons have long been considered as the final common pathway of the nervous system, transmitting the neural impulses that are transduced into action.While many studies have focussed on the inputs that motoneurons receive from local circuits within the spinal cord and from other parts of the CNS, relatively few have investigated the targets of local axonal projections from motoneurons themselves, with the notable exception of those contacting Renshaw cells or other motoneurons.Recent research has not only characterised the detailed features of the excitatory connections between motoneurons and Renshaw cells but has also established that Renshaw cells are not the only target of motoneurons axons within the spinal cord. Motoneurons also form synaptic contacts with other motoneurons as well as with a subset of ventrally located V3 interneurons. These findings indicate that motoneurons cannot be simply viewed as the last relay station delivering the command drive to muscles, but perform an active role in the generation and modulation of motor patterns.}
}