Lin TF, Grasselli G, Hansel C*. Cellular Mechanisms Underlying Cerebellar Learning. In Byrne JH (Ed.). Learning and Memory: A Comprehensive Reference, 3rd Edition. Elsevier Science. (Book chapter; hardcopy in press) link

Lin TF, Busch, S.E., Hansel, C*. Intrinsic and synaptic determinants of receptive field plasticity in Purkinje cells of the mouse cerebellum. Nature Communications. 2023. link

Lin TF* (sole corresponding author), Huang MY*. A quantitative approach to study the adaptation of rhythmic eye movements and the resulting tonic eye deviation in larval zebrafish. J Neurosci Res. 2023. link

Lin TF* (co-corresponding author), Mohammadi M, Cullen KE, Chacron MJ, Huang MY*. Optokinetic set-point adaptation functions as an internal dynamic calibration mechanism for oculomotor disequilibrium. iScience. 2022. link

Lin TF, Mohammadi M, Fathalla AM, Pul D, Lüthi D, Romano F, Straumann D, Cullen KE, Chacron MJ, Huang MY*. Negative optokinetic afternystagmus in larval zebrafish demonstrates set-point adaptation. Sci Rep. 2019. link

Lin TF, Gerth-Kahlert C, Hanson JVM, Straumann D, Huang MY*. Spontaneous nystagmus in the dark in an infantile nystagmus patient may represent negative optokinetic afternystagmus. Front Neurol. 2018. link

Hsu PH, Chiu YC, Lin TF, Jeng CJ*. Ca2+-binding protein centrin 4 is a novel binding partner of rat Eag1 K+ channels. FEBS Open Bio. 2016. link

Lin TF, Jow GM, Fang HY, Fu SJ, Wu HH, Chiu MM, Jeng CJ*. The eag domain regulates the voltage-dependent inactivation of rat eag1 k+ channels. PLoS One. 2014. link

Lin TF, Lin IW, Chen SC, Wu HH, Yang CS, Fang HY, Chiu MM, Jeng CJ*. The subfamily-specific assembly of Eag and Erg K+ channels is determined by both the amino and the carboxyl recognition domains. J Biol Chem. 2014. link