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philipp-norton [2020/03/09 15:25] philipp Add paper and DOIs |
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| - | | {{:philipp_norton.jpg?nolink&100|}} |**Dr. Philipp Norton** \\ Postdoc \\ \\ phone: +49-(0)30-2093-98415\\ email: philipp.norton :AT: hu-berlin.de\\ \\ //"It is a mistake to think you can solve any major problems just with potatoes."\\ |Douglas Adams// | | + | | {{:philipp.jpg?nolink&100|}} |**Dr. Philipp Norton** \\ Postdoc \\ \\ phone: +49-(0)30-2093-98407\\ email: philipp.norton :AT: hu-berlin.de\\ \\ //"It is a mistake to think you can solve any major problems just with potatoes."\\ |Douglas Adams// | |
| **BIOGRAPHY**\\ | **BIOGRAPHY**\\ | ||
| - | Fascinated by the intricacies of animal behaviours, I began my academic career by studying communication in honeybees, bats and songbirds. In my PhD with Constance Scharff I focused on the development and production of temporal rhythms in learned animal vocalizations, particularly in the songs of zebra finches. Throughout these studies I became increasingly interested in the neurobiological mechanisms underlying these behaviours. This led me to my current project, in which I develop computational models to investigate how the representation of a learned song is formed and ultimately consolidated in the neural circuits of the songbird brain. | + | Fascinated by the intricacies of animal behaviours, I began my academic career by studying communication in honeybees, bats and songbirds. In my PhD with Constance Scharff I focused on the development and production of temporal rhythms in learned animal vocalizations, particularly in the songs of zebra finches. Throughout these studies I became increasingly interested in the neurobiological mechanisms underlying these behaviours. This led me to my current project, in which I develop computational models to investigate how the representation of a learned song is formed and ultimately consolidated in the neural circuits of the songbird brain.\\ |
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| **PUBLICATIONS**\\ | **PUBLICATIONS**\\ | ||
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| + | Norton P, Benichov JI, Pexirra M, Schreiber S, Vallentin D (2022): **A feedforward inhibitory premotor circuit for auditory–vocal interactions in zebra finches**, //Proceedings of the National Academy of Sciences//, 119(23), e2118448119. https://doi.org/10.1073/pnas.2118448119.\\ | ||
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| + | Pallasdies F, Norton P, Schleimer J-H, Schreiber S (2021): **Neural optimization: Understanding trade-offs with Pareto theory**, //Current opinion in Neurobiology//, 71, 84-91. https://doi.org/10.1016/j.conb.2021.08.008\\ | ||
| Norton P, Barschke P, Scharff C, Mendoza E (2019): **Differential Song Deficits after Lentivirus-Mediated Knockdown of FoxP1, FoxP2, or FoxP4 in Area X of Juvenile Zebra Finches**, //Journal of Neuroscience//, 39(49), 9782-9796. https://doi.org/10.1523/JNEUROSCI.1250-19.2019\\ | Norton P, Barschke P, Scharff C, Mendoza E (2019): **Differential Song Deficits after Lentivirus-Mediated Knockdown of FoxP1, FoxP2, or FoxP4 in Area X of Juvenile Zebra Finches**, //Journal of Neuroscience//, 39(49), 9782-9796. https://doi.org/10.1523/JNEUROSCI.1250-19.2019\\ | ||
