Gao Z, Davis C, Thomas AM, Economo MN, Abrego AM, Svoboda K, De Zeeuw CI, Li N, (2018). A cortico-cerebellar loop for motor planning. Nature 563(7729):113-116.  [Dataset available on CRCNS.org]

Svoboda K, Li N, (2017). Neural mechanisms of movement planning: motor cortex and beyond. Curr Opin Neurobiol. 49:33-41.

Chen TW, Li N, Daie K, Svoboda K, (2017). A Map of Anticipatory Activity in Mouse Motor Cortex. Neuron 94(4):866-879. [Dataset available on CRCNS.org]

Li N*, Daie K*, Svoboda K, Druckmann S, (2016). Robust neuronal dynamics in premotor cortex during motor planning. Nature 532(7600):459-64.  * Equal contribution [Dataset available on CRCNS.org]

Li N, Chen TW, Guo ZV, Gerfen CR, Svoboda K, (2015). A motor cortex circuit for motor planning and movement. Nature 519(7541):51-56.   [Dataset available on CRCNS.org]

Guo ZV*, Li N*, Huber D, Ophir E, Gutnisky D, Ting JT, Feng G, Svoboda K, (2014). Flow of cortical activity underlying a tactile decision in mice. Neuron 81(1):179-94.   * Equal contribution

Guo ZV, Hires SA, Li N, O’Connor DH, Komiyama T, Ophir E, Huber D, Bonardi C, Morandell K, Gutnisky D, Peron S , Xu NL, Cox J, Svoboda K, (2014). Procedures for behavioral experiments in head-fixed mice. PLoS ONE 9(2):e88678

O'Connor DH, Hires SA, Guo ZV, Li N, Yu J, Sun QQ, Huber D, Svoboda K, (2013). Neural coding during active somatosensation revealed using illusory touch. Nat Neurosci 16(7):958-65.

Li N, DiCarlo JJ, (2012). Neuronal learning of invariant object representation in the ventral visual stream is not dependent on reward. J Neurosci 32(19):6611-20.

Li N, DiCarlo JJ, (2010). Unsupervised natural visual experience rapidly reshapes size invariant object representation in inferior temporal cortex. Neuron 67:1062-75.

Li N, Cox DD, Zoccolan D, DiCarlo JJ, (2009). What response properties do individual neurons need to underlie position and clutter “invariant” object recognition? J Neurophysiol 102: 360-76.

Li N, DiCarlo JJ, (2008). Unsupervised natural experience rapidly alters invariant object representation in visual cortex. Science 321:1502-7.

Wei M, Li N, Newlands SD, Dickman JD, Angelaki DE, (2006). Deficits in visuospatial memory during head motion after labyrinthine lesion. J Neurophysiol 96:1676-82.

Li N, Angelaki DE, (2005). Updating visual space during motion in depth. Neuron 48:149-58.

Li N, Wei M, Angelaki DE, (2005). Primate memory saccade amplitude after intervened motion depends on target distance. J Neurophysiol 94:722-33.